The Organic Law of 19 June, of Qualifications and Vocational Training, aims at the organisation of an integral system of vocational training, qualifications and accreditation, which will respond effectively and transparency of social and economic demands through the various forms of training. To this end, it creates the National System of Qualifications and Vocational Training, defining it in Article 2.1 as the set of instruments and actions necessary to promote and develop the integration of vocational training offerings, through the National Catalogue of Professional Qualifications, as well as the evaluation and accreditation of the corresponding professional skills, in order to promote the professional and social development of the people and cover the needs of the production system. The National Catalogue of Professional Qualifications, as set out in Article 7.1, is designed to facilitate the integrated nature and the adequacy of vocational training and the labour market, as well as training in the course of the life, mobility of workers and the unity of the labour market. This catalogue consists of the qualifications identified in the production system and the training associated with them, which is organised in training modules, which are articulated in a modular vocational training catalogue. Under Article 7, the structure and content of the National Catalogue of Professional Qualifications were established by means of Royal Decree 1128/2003 of 5 September, as amended by Royal Decree 1416/2005 of 25 November. Under Article 3.2, according to the wording given by this last royal decree, the National Catalogue of Professional Qualifications will make it possible to identify, define and order professional qualifications and establish the specifications of the training associated with each unit of competence; as well as establishing the benchmark for evaluating and crediting the professional skills acquired through the work experience or non-formal training pathways. This royal decree establishes six new professional qualifications with their associated training, corresponding to the Professional Family Electricity and Electronics, which are defined in the Annexes 255 to 260, thus advancing in the construction of the National Catalogue of Professional Qualifications. These vocational qualifications have been drawn up by the National Qualifications Institute by means of the methodology approved by the General Council for Vocational Training, which has been implemented with the participation and cooperation between the social and economic actors involved in the sector, as well as with the Autonomous Communities and other competent public administrations. According to Article 5.1 of the Organic Law of 19 June 2002 on Qualifications and Vocational Training, it is the responsibility of the General Administration of the State in the field of exclusive competence attributed to the State by the State. Article 149.1.1. and 30. the regulation and coordination of the National System of Qualifications and Vocational Training, without prejudice to the competences that correspond to the Autonomous Communities and the participation of the social agents. In accordance with Article 7.2 of the same organic law, the Government is entrusted, after consulting the General Council of Vocational Training, to determine the structure and content of the National Catalogue of Professional Qualifications and to approve the qualifications to be included in the same, as well as ensuring the permanent updating of the same. The present royal decree has been informed by the General Council of Vocational Training and by the School Board of the State, in accordance with the provisions of Article 9.1 of Royal Decree 1128/2003 of 5 September. In its virtue, on a proposal from the Ministers for Education and Science and Labour and Social Affairs, and after deliberation by the Council of Ministers at its meeting on 24 August 2007,

D I S P O N G O:

Article 1. Object and scope of application.

This royal decree aims to establish certain professional qualifications which are included in the National Catalogue of Professional Qualifications and their corresponding training modules, which are incorporated into the Catalogue Modular Vocational Training, regulated by Royal Decree 1128/2003 of 5 September, as amended by Royal Decree 1416/2005 of 25 November. These qualifications and their associated training are valid and are applicable throughout the national territory and do not constitute a regulation of professional practice.

Article 2. Professional qualifications that are established.

The professional qualifications that are established correspond to the professional family of electricity and electronics and are the ones listed below, ordered by skill levels, whose specifications are described in the Annexes to this Regulation: auxiliary operations for the assembly of electrotechnical and telecommunications installations in buildings. Level 1: Annex CCLV.

Auxiliary power network mount operations. Level 1: Annex CCLVI. Assembly and maintenance of low voltage electrical installations. Level 2: Annex CCLVII. Development of telecommunications infrastructure projects and of voice and data networks in the building environment. Level 3: Annex CCLVIII. Development of projects of electrical installations in the environment of buildings and for special purposes. Level 3: Annex CCLIX. Development of low and high voltage power grid projects. Level 3: Annex CCLX.

Single additional disposition. Update.

Taking into account the evolution of the needs of the productive system and the possible social demands, as regards the qualifications established in this royal decree, an update of the content will be carried out of the Annexes where necessary, in any case before the end of the five-year period since its publication.

Final disposition first. Competence title.

This royal decree is dictated by the powers conferred on the State by Article 149.1.1. and the 30th of the Spanish Constitution and under paragraph 2 of the first provision of the Organic Law of 19 Article 7 (3) of Regulation (EC) No 121/2003 of the European Parliament and of the Council of 17 May 2003 on the application of the laws of the Member State of the European Parliament and of the Council of the European Parliament and of the Council of the European Parliament and of the Council

Final disposition second. Entry into force.

This royal decree will enter into force on the day following its publication in the "Official State Gazette".

Given in Palma de Mallorca, 24 August 2007.

JOHN CARLOS R.

First Vice-President of the Government and Minister of the Presidency, MARIA TERESA FERNÁNDEZ DE LA VEGA SANZ

ANNEX CCLV Professional qualification: Auxiliary operations for assembly of electrotechnical and telecommunications installations in buildings

Professional Family: Electricity and Electronics.

Level: 1. Code: ELE255_1. General competence:

Perform auxiliary operations, following instructions from the superior, in the assembly and maintenance of electrotechnical and telecommunications installations in buildings for various uses and installations, applying the techniques and the procedures required in each case, achieving the quality criteria, in safety conditions and complying with the current regulations.

Competition Units:

UC0816_1: Perform low voltage and domotic power installation assembly operations in buildings.

UC0817_1: Perform telecom facility mount operations.

Professional environment:

Professional scope: Develop your professional activity in small and medium-sized companies, mostly private, for hire, dedicated to the assembly and maintenance of electrical installations in buildings, offices, commercial and industrial premises, the activity being regulated by the Electrotechnical Regulation of Lower Tension and by the Regulations of the Common Infrastructures of Telecommunications.

Productive Sectors:

It is located in the electrical sector, in the subsector of assembly and maintenance in the following economic-productive activities: Assembly and maintenance of electrotechnical and telecommunications installations in buildings housing. Assembly and maintenance of electrotechnical and telecommunications installations in office buildings. Assembly and maintenance of electrotechnical and telecommunications installations in commercial buildings. Assembly and maintenance of electrotechnical and telecommunications installations in industrial-type buildings.

Relevant Occupations and Jobs:

Low voltage electrical installations operation.

Satellite Receiver/Television Antenna Assembler Helper. Assistant to the installer and repairman for telephone and telegraphic equipment. Assistant to the installer of communication equipment and systems. Assistant to the installer repairman for telephone installations. Pawn of the electric power production and distribution industry.

Associated training: (330 hours).

Training Modules:

MF0816_1: Low voltage and domotic electrical installation assembly operations in buildings. (150 hours.)

MF0817_1: Telecommunications facility mount operations. (180 hours.)

Competition Unit 1: Perform low voltage and domotic electrical installation assembly operations in buildings

Level: 1.

Code: UC0816_1. Professional achievements and performance criteria:

RP1: Prepare, collect and distribute the material, tools and equipment necessary for the assembly of pipes, tubes and supports, in low voltage and domotic electrical installations in buildings, under the conditions of quality and security established and following the indications given. CR1.1 The collection of material, tools and equipment is in line with the orders received.

CR1.2 The distribution in work is adjusted in time and form to the orders received. CR1.3 The tubes, pipes, trays and supports, among others, are prepared according to their type (PVC, corrugated, metallic, trays, among others.) and are adapted to the layout of the installation, taking into account the lengths of the sections, changes of direction, passage of walls and radii of curvature among others. CR1.4 The safety standards apply in the collection, preparation and distribution of the material.

RP2: Place and fix tubes, trays, supports and boxes in low voltage and domotic electrical installations in buildings, under the conditions of quality and safety established and following indications given.

CR2.1 The layout of the installation is marked using the appropriate means and following instructions given.

CR2.2 The pass holes, grazes and boxes, among others, are modified according to the dimensions of tubes, pipes and boxes, if necessary. CR2.3 The drills for fixing the elements are practiced at the indicated location, using the procedure and the tool suitable for the dimensions and the material to be drilled. CR2.4 The pipes, tubes and boxes are placed in the places indicated in the repose and/or are fixed using the fastening elements (flanges, staples, clamps, among others), following the mounting indications. CR2.5 The technical means and tools are used according to the requirements indicated in each intervention. CR2.6 The safety standards apply in all interventions.

RP3: Prepare boxes and boxes for the assembly of the elements of the electrical installations of low voltage and domotic in buildings, under the conditions of quality and safety established and following indications given.

CR3.1 The machining of the mounting plate, profiles and wrappers, among others, is in line with the orders received.

CR3.2 Items supplied in parts are mounted by following the mounting prompts. CR3.3 The equipment and elements within the frames are fixed at the indicated location and with the appropriate means ensuring their mechanical attachment. CR3.4 The wiring of the conductors in the equipment and elements:

-conforms to the location indicated.

-The ends are treated for connection and the appropriate terminals are placed.

CR3.5 The technical means and tools are used according to the requirements indicated in each intervention.

CR3.6 Security rules apply to all frame and box preparation interventions.

RP4: Tender cables in low voltage and domotic electrical installations in buildings, under the conditions of established quality and safety, following the given indications.

CR4.1 The passable guide is inserted into the tube and is prepared by fixing the cables in a staggered manner.

CR4.2 The cables are inserted inside the tube, pulling the guide on the other end without any reduction or modification of its characteristics, and leaving excess cable (coca) for connection operations, at each end of the tube. cut. CR4.3 The cables are housed in the pipes without any reduction or modification of their characteristics, using the auxiliary elements (cats, bars, among others), for the manipulation of the cable coils and fixing them according to the characteristics of the channeling (flanges, clamps, among others). CR4.4 The cables are labelled in accordance with the established procedure. CR4.5 The technical means and tools used are used according to the requirements indicated in each intervention. CR4.6 The safety standards apply in all cable-laying interventions.

RP5: Mount, fix and connect mechanisms and elements of low voltage and domotic electrical installations in buildings, under the conditions of quality and safety established and following indications given.

CR5.1 Electrical mechanisms (switches, switches, among others) and installations elements (luminaires, plugs, among others), supplied in various parts, are assembled according to the mounting instructions.

CR5.2 The mechanisms (switches, switches, among others) and elements of the installations (luminaires, plugs, among others.) and their fastening elements are placed, fixed and connected in the places indicated in the repose, achieving mechanical fastening, good electrical contact and aesthetic quality. CR5.3 The elements (sensors and actuators, among others) of the automated installations and their fastening elements are placed, fixed and connected in the places indicated in the repose, obtaining their mechanical fastening, good electrical contact and aesthetic quality. CR5.4 The equipment that requires it is labelled in accordance with the established procedure. CR5.5 The technical means and tools are used according to the indicated requirements of each intervention. CR5.6 The safety standards apply in all assembly, fixing and related interventions of mechanisms and elements of the installation.

RP6: Collaborate in the repair of electrical and domotic installations in buildings under the conditions of established quality and safety, following given indications.

CR6.1 Installation dysfunction, tables or components are verified by visual inspection and/or elementary electrical measurements.

CR6.2 The deteriorated element and/or part of the installation is replaced, using the appropriate disassembly and mounting sequence and reestablishing the operating conditions of the installation. CR6.3 The status of the installation or any of its elements is recognised by carrying out the functional tests and/or elemental electrical measures. CR6.4 The technical means and tools are used according to the indicated requirements of each intervention. CR6.5 The safety standards apply in all repair interventions of the facility.

Professional context:

Production media: Manual tools for mechanical work (pliers and screwdrivers, among others). Machines for machining work (drilling, punching, riveting and screwing, among others). Safety and electrical protection equipment (clothing-personal protective equipment-footwear, gloves and helmet, among others).

Products and results:

Low-voltage electrical installations in buildings. Domotic installations in buildings.

Information used or generated:

Work Orders. Manual of use and prevention of risks. Mounting instructions. REBT.

Competition Unit 2: Perform Telecom Facilities Mount Operations

Level: 1.

Code: UC0817_1. Professional achievements and performance criteria:

RP1: Prepare, collect and distribute the material, tools and equipment necessary for the assembly of pipes, tubes and supports in telecommunications infrastructure installations, under the conditions of quality and safety established and following the indications given. CR1.1 The collection of material, tools and equipment is in line with the orders received.

CR1.2 The distribution in work is adjusted in time and form to the orders received. CR1.3 The tubes, pipes, trays and supports, among others, are prepared according to their type (PVC, corrugated, trays, among others.) and are adapted to the layout of the installation taking into account the lengths of the sections, changes of direction, passage of walls and radii of curvature among others. CR1.4 The safety standards apply in all the preparation, collection and distribution of the material.

RP2: Placing and fixing pipes, pipes, supports and registers in telecommunications infrastructure installations, with the conditions of quality and safety established and following indications given.

CR2.1 The layout of the installation is marked using the appropriate means and following the mounting instructions.

CR2.2 Step, roof and box holes are modified according to the dimensions of tubes, pipes and boxes, if necessary. CR2.3 The drills for fixing the elements are practiced in the indicated place using the procedure and the tool suitable for the dimensions and the material to be drilled. CR2.4 The pipes, tubes and boxes are placed in the places indicated in the repose and/or are fixed using the fastening elements (flanges, staples, clamps, among others.), indicated for the channeling, tube or box that is being fixed. CR2.5 The technical means and tools are used according to the requirements indicated in each intervention. CR2.6 The safety standards apply in all placement and fixing interventions for channels, supports, tubes and registers.

RP3: Collaborate on the preparation of cabinets (racks) and records for the assembly of the elements of the telecommunications infrastructure facilities, under the supervision of a higher level technician, under the conditions of quality and safety.

CR3.1 The cabinets supplied in parts are arman following the mounting instructions.

CR3.2 The equipment (hub's, amplifiers, power supplies, among others) and elements within the registers and cabinets are fixed at their location, with the appropriate means and ensuring mechanical attachment. CR3.3 The auxiliary operations for the preparation of the wiring (combing, lighting, grouping, macing, among others) are carried out without modifying the characteristics of the same and following the assembly instructions. CR3.4 The connection of equipment and elements in the cabinets is performed using the approved cables and the specified category, and achieving good electrical contact. CR3.5 The technical means and tools are used according to the requirements indicated in each intervention. CR3.6 Safety standards apply in all cupboards preparation interventions.

RP4: Tender cables in telecommunications infrastructure facilities in buildings, under the conditions of established quality and safety, following the indications given.

CR4.1 The passable guide is inserted into the tube and is prepared by fixing the cables in a staggered manner.

CR4.2 The cables (coaxial, pairs, fiber optic) are inserted inside the tube, pulling the guide on the other end without any modification or modification of its characteristics, and leaving excess cable (coca) for connection operations, at each end before cutting it. CR4.3 The cables are housed in the pipes without any reduction or modification of their characteristics, using the auxiliary elements (cats, bars, among others) for the manipulation of the cable coils and fixing them according to the characteristics of the channeling (flanges, clamps, among others). CR4.4 The cables are labelled in accordance with the established procedure. CR4.5 The technical means and tools are used according to the requirements indicated in each intervention. CR4.6 The safety standards apply in all cable-laying interventions.

RP5: Collaborate on the assembly and fixing of the elements and equipment of the installations of telecommunications infrastructures in buildings, under the conditions of quality and safety established, following indications given.

CR5.1 The antennas, masts, turrets, fastening systems, among others, of sound broadcasting and TV (terrestrial and satellite), supplied in several pieces are mounted and fixed according to the instructions of assembly and in conditions Security.

CR5.2 The elements and equipment of the different installations (sonorization, video-goalkeeping, telephony among others), are placed, fixed and connected in the different locations (exterior, interior) in the places indicated, obtaining their mechanical fastening, good electrical contact and aesthetic quality. CR5.3 The equipment that requires it is labelled in accordance with the established procedure. CR5.4 The technical means and tools are used according to the indicated requirements of each intervention. CR5.5 The safety standards apply in all assembly and fixing interventions for elements and equipment.

Professional context:

Production media: Manual tools for electrical work (peelable, cable inserter, and crimper, among others). Manual tools for mechanical work (pliers and screwdrivers, among others). Safety and electrical protection equipment (clothing-personal protective equipment-footwear, ropes, harnesses, gloves, and helmet, among others).

Products and results:

Telecommunications facilities in buildings.

Information used or generated:

Work Orders. Manual of use and prevention of risks. Mounting instructions.

Training module 1: Mount operations of low voltage and domotic electrical installations in buildings

Level: 1.

Code: MF0816_1. Associated with UC: Perform assembly operations of low voltage and domotic electrical facilities in buildings. Duration: 150 hours. Assessment capabilities and criteria:

C1: Identify the elements that configure the electrical installations of buildings, relating them to their function in the installation and describing their characteristics. CE1.1 From catalogues or photographs of the most common elements that make up electrical and domotic installations in buildings:-Identify the channels and tubes according to their use in the installation (embedded, surface, among others) describing their characteristics.

-Identify brackets and attachment accessories for each type of channel or tube. -Identify the boxes and records according to their use in the installation. -Identify the different types of drivers describing their main characteristics (section, isolation, grouping, color, among others) and application in electrical installations. -Identify the mechanisms (switches, switches, sockets, among others) according to their function and form of placement (recessed or surface). -Identify the luminaires and accessories according to the type (fluorescent, halogen, among others) and the usual space where they will be placed. -Identify the equipment and typical elements used in the domotic installations with their main function and characteristics.

CE1.2 In an electrical installation of low voltage or real home automation, or in the warehouse:

-Identify the channels and tubes according to their use in the installation (embedded, surface, among others) describing their characteristics.

-Identify brackets and attachment accessories for each type of channel or tube. -Identify the boxes and records according to their use in the installation. -Identify the different types of drivers describing their main characteristics (section, isolation, grouping, color, among others) and application in electrical installations. -Identify the mechanisms (switches, switches, sockets, among others) according to their function and form of placement (recessed or surface). -Identify the luminaires and accessories according to the type (fluorescent, halogen, among others) and the usual space where they will be placed. -Identify control equipment, sensors and actuators by relating them to the installation.

C2: Montar pipes, supports and boxes in a low voltage and/or domotic electrical installation in a building, under personal safety standards and the materials used.

CE2.1 Describe the bending techniques of tubes indicating the tools used and the usual procedures according to the type (PVC tubes, metal tubes, among others).

CE2.2 Describe the techniques and elements used in the pipe and pipe joint. CE2.3 Describe the different techniques for securing pipes and pipes (through studs and screws, clamps, staples, chemical fixings, among others). CE2.4 In a practical case of mounting an electrical and/or domotic installation of a housing or local, carried out at scale, with real elements:

-Identify and point out in a housing sketch the locations of the installation elements.

-Mark the location of the pipes and boxes. -To properly select the tools according to the procedures applied. -Prepare the holes and boxes for the location of boxes and pipes. -Prepare and/or mechanize the pipes and materials to be used, applying the required procedures. -Perform the drills with the appropriate technique and accessories under safety standards. -To assemble the elements, boxes and tubes, among others, ensuring their proper mechanical fixation and aesthetic quality. -Apply security rules.

C3: Tender the wiring for the installation of the electrical and/or home automation of a building, under personal safety standards and the materials used.

CE3.1 Describe the different types of drivers according to their application in the installation (single wire cables, multiwire cables, hoses, bars, among others).

CE3.2 List the most common types of passable guides, indicating the optimal way to attach the cables to the guide. CE3.3 In a practical case of cable laying through tube, conveniently characterized, perform the following operations:

-Identify the tube and its ends.

-Enter the appropriate passable guide (nylon, metal, among others) into the tube. -Properly hold the cable to the passable guide in a staggered manner. -Pulling the passable guide by preventing the cable from being released will be damaged, until the cable is recovered at the other end of the tube. -Cut the cable leaving a "coca" on each end. -Label the cable following the established procedure. -Apply security rules.

C4: Install the mechanisms and elements of electrical and/or domotic installations in a building under personal safety standards and the materials used.

CE4.1 Describe the mechanisms and elements (switches, switches, sensors, among others) used in electrical and/or domotic installations in buildings.

CE4.2 In a practical case of mounting the mechanisms and elements of an electrical installation of a building made at scale with real elements, conveniently characterized:

-Assemble the elements that consist of multiple pieces.

-Identify cabling based on your colors or labels. -Place and fix the devices or mechanisms in their place of location. -Place and fix the actuators and sensors in their place of location. -Connect the cables with the electrical mechanisms and devices by ensuring good electrical contact and the correspondence between the cable and the terminal of the apparatus or mechanism. -Place the embellishers or lids if necessary. -Apply security rules.

CE4.3 In a practical case of mounting a domotic installation of a building performed at scale with real elements, conveniently characterized:

-Assemble the elements that consist of multiple pieces.

-Identify cabling based on your labeling. -Place and fix the sensors and actuators in their location. -Conexate the wiring with the equipment and elements of the installation. -Place the embellishers or lids if necessary. -Apply security rules.

C5: Repair and replace elements of electrical installations and/or building domtics.

CE5.1 Describe type breakdowns in electrical installations in buildings.

CE5.2 Describe type breakdowns in domotic facilities in buildings. CE5.3 In a practical case of an electrical installation of a building made at scale, with real elements with simulated breakdowns, conveniently characterized:

-visually or functionally check the dysfunction.

-Ensure the absence of danger for physical integrity and for installation. -Replace the damaged element or restore the operating conditions according to the established procedure. -visually or functionally check the re-establishment of the operation of the installation. -Apply security rules.

CE5.4 In a practical case of a domotic installation of a building made at scale, with real elements with simulated breakdowns, conveniently characterized:

-visually or functionally check the dysfunction.

-Ensure the absence of danger for physical integrity and for installation. -Replace the damaged element or restore the operating conditions according to the established procedure. -visually or functionally check the re-establishment of the operation of the installation. -Apply security rules.

Capabilities to be acquired in a real working environment: C2 with respect to CE2.4; C3 with respect to CE3.3; C4 with respect to CE4.2 and CE4.3 and C5 with respect to CE5.3 and CE5.4.

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company. Contents:

1. Electrical/domotic installations in buildings. Liaison facilities. Parts.

Housing facilities: degree of electrification. Facilities with bathtubs or showers. Characteristics and types of elements: distribution table, control and control elements, tubes and pipes, boxes. Electrical conductors, manoeuvring and connecting elements, among others. Facilities in the common areas: features and elements. Electrical installations in buildings: commercial, office and industrial. Classification. Type facilities. Circuits. Features of the facilities. Item types. Installations in premises with special characteristics: wet, wet, with risk of corrosion and powder, among others. Safety on the premises. Protection against over-intensities and over-tensions. Grounding installations: features and elements. Protection against direct and indirect contacts. Devices. Domotic installations. Types and characteristics. Sensors. Control equipment. Actuators. Safety on the premises.

2. Assembly of elements of electrical installations in buildings: boxes and cabinets, pipes and cables.

Characteristics and types of pipes: metallic and non-metallic tubes, channels, trays and supports, among others.

Installation techniques for installation systems: embedded, surface or aerial. Drilling, surface types. Fixations, types and characteristics. Tools. Characteristics and types of conductors: isolated and not isolated, monowire, multiwire, hoses, bars, among others. Techniques for installation and laying of drivers. Passable guides, types and features. Precautions. Circuit separation. Identification and labelling. Preparation, machining and execution of: boxes or cabinets, pipes, cables, terminals, joints and connections. Means and equipment. Safety equipment and equipment. Prevention of accidents. Electrical safety regulations. Risks in height.

3. Assembly of the elements of electrical/domotic installations in buildings: protective devices, maneuver devices, luminaires, among others.

Protective devices. Types and characteristics. Fuses, power control switch, differential switch, magnetothermic switches, among others. Assembly techniques.

Installation and fixing techniques on rail. Connection. Wiggle apparatus. Types and characteristics. Switches, switches, push buttons, among others. Installation and fixation. Connection. Tap-in: Types, Installation and Fixing. Connection. Electrical receivers. Luminaires, motors, timbres, among others. Installation and fixation. Connection. Sensor fixation. Assembly and installation of actuators. Installation and fixation of domotic control equipment.

4. Repair of electrical installations in buildings.

Electrical magnitudes in: voltage, intensity, resistance and continuity, power and insulation, among others.

Fundamental relationships between electrical magnitudes. Type breakdowns in housing buildings. Symptoms and effects. Repair of breakdowns. Replacing items. Routine maintenance techniques. Security and protection measures.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of electrical and domotic installations in dwellings, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Formative Module 2: Telecom Facilities Mount Operations

Level: 1.

Code: MF0817_1. Associated with the UC: Perform Telecom Facilities Mount Operations. Duration: 180 hours. Assessment capabilities and criteria:

C1: Identify the elements that configure the telecommunications infrastructure installations, describing their main features and functionality. CE1.1 Identify the elements (channelings, cabled, antennas, cabinets (racks) and boxes, among others) of an installation of telecommunications infrastructure of an edifico from catalogues and/or real elements.

CE1.2 Classify the pipes (channels, trays, tubes, among others), describing their main characteristics and associating them with their typical application. CE1.3 Classify the conductors (copper, coaxial cable, optical fiber, among others) indicating their application in the different installations, according to their characteristics. CE1.4 Determine the typology of the different boxes (registers, cabinets, racks, surface boxes, recessed, among others) and associate it with its application. CE1.5 In a practical scenario of a real or simulated telecommunications facility at scale, properly characterized, identify:

-The pipes used indicating their suitability in the installation.

-The type of attachment (cleats, flanges, screws, nuts, staples, among others) of pipes and equipment relating to the element to be fastened. -The cabinets (racks) that contain the equipment. -Equipment and elements used in telecommunication facilities (power supplies, amplifiers, switchboards, monitors, cameras, video-keepers, among others), describing their main function. -The necessary tools for mounting the elements of the installation. -Safety standards.

C2: Mounting pipes, brackets and cabinets in a telecommunications facility, under personal security rules and the materials used.

CE2.1 Describe the techniques used in the bending of PVC tubes, metallic, among others, indicating the tools used in each case and their application.

CE2.2 Describe the techniques and elements used in pipe and pipe joints. CE2.3 Describe the techniques for securing and fixing tubes, pipes, equipment and elements of the installations (by means of studs and screws, clamps, staples, chemical fixings, among others). CE2.4 Describe typical mounting phases of a "rack". CE2.5 In a practical case of mounting a telecommunications facility in a building, performed at scale with real elements, conveniently characterized:

-Select the tools appropriately based on the procedures applied.

-Identify and point in a building's sketch or part of the building the locations of the elements of the installation. -Mark the location of the pipes and boxes. -Prepare the holes and boxes for the location of boxes and pipes. -Prepare and/or mechanize the pipes and boxes. -Mount the cabinets (racks). -To drill with the appropriate technique and accessories the gaps of fixation of the elements under safety norms. -Mount the elements, boxes and tubes, among others, ensuring their proper mechanical fixation. -Apply security rules.

C3: Tender cabling for the assembly of a building's telecommunications infrastructure facilities under personal security standards and the materials used.

CE3.1 Describe the drivers employed in the various telecommunications facilities (pairs, coaxial cable, optical fiber, among others).

CE3.2 List the most common types of passable guides, indicating the optimal way to attach the cables to the guide. CE3.3 In a practical case of cable laying through tube, it is conveniently characterized:

-Identify the tube and its ends.

-Enter the passable guide into the tube. -Properly hold the cable to the passable guide in a staggered manner. -Pulling the passable guide by preventing the wiring from being released will be damaged. -Cut the cable leaving a "coca" on each end. -Label the cable following the established procedure. -Apply security rules.

C4: Install the elements and equipment of the telecommunications infrastructure installations in buildings.

CE4.1 In a practical case of mounting a reception and distribution facility for radio and television in a building made at scale with real elements, conveniently characterized:-Assemble the elements that consist of several pieces.

-Identify cabling based on your labeling. -Place and fix equipment or elements (antennas, amplifiers, among others) in their place of location. -Conexion the wiring with the equipment and elements. -Place the embellishers or lids if necessary. -Apply security rules.

CE4.2 In a convenient, conveniently characterized, case of assembly of a telephone facility in a building made at scale with real elements:

-Assemble the elements that consist of multiple pieces.

-Identify cabling based on your labeling. -Place and fix equipment or elements (centralites, user takes, among others) in their place of location. -Conexion the wiring with the equipment and elements. -Place the embellishers or lids if necessary. -Apply security rules.

CE4.3 A convenient, conveniently characterized case of mounting a video goal installation in a building made at scale with real elements:

-Assemble the elements that consist of multiple pieces.

-Identify cabling based on your labeling. -Place and fix equipment or elements (gatekeepers, video doormen, telephones, among others) in their place of location. -Conexion the wiring with the equipment and elements. -Place the embellishers or lids if necessary. -Apply security rules.

Capabilities whose acquisition must be completed in a real working environment: C2 with respect to CE2.5; C3 with respect to CE3.3; C4 with respect to CE4.1, CE4.2 and CE4.3.

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company. Contents:

1. Telecommunications installations in buildings. Local telephone and network facilities. Features. Means of transmission. Teams: Centralites, Hub's, switch, router, among others.

Telecommunications infrastructure facilities in buildings. Features. Means of transmission. Equipment and elements. Installations of public address and sonorization. Types and characteristics. Signal diffusers. Cables and interconnection elements. Equipment: amplifiers, players, recorders, among others. Closed circuit television facilities. Features. Cameras. Monitors. Signal processing equipment. Antennas.

2. Assembly of the elements of the telecommunications installations in buildings: pipes and cables

Features and types of pipes: rigid and flexible pipes, channels, trays and supports, among others. Preparation and machining of pipes. Pipe and pipe assembly techniques.

Features and types of fixings. Assembly techniques. Characteristics and types of conductors: coaxial cable, pairs, optical fiber, among others. Driver's laying techniques. Safety standards. Identification and labelling of drivers. Safety equipment and equipment.

3. Assembly of the elements of the telecommunications installations in buildings: equipment and components.

Installation and fixing of equipment in telecommunication facilities.

Fixing techniques: in cabinets, on surface. Safety standards. Radio and television antenna assembly techniques. Techniques for the connection of drivers. Installation and fixing of signal sockets. Risks in height. Safety equipment and equipment.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of installations of telecommunications infrastructures in buildings, which will be accredited by one of the following forms:-Academic training of Engineer Technical or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLVI Professional qualification: Auxiliary electrical network assembly operations

Professional Family: Electricity and Electronics.

Level: 1. Code: ELE256_1. General competence:

Perform auxiliary operations, following instructions from the superior, in the assembly and maintenance of aerial and underground electrical networks, applying the techniques and procedures required in each case, quality criteria, in terms of safety and in compliance with the rules in force.

Competition Units:

UC0818_1: Perform support mount operations on overhead power grids.

UC0819_1: Perform driver-laying and tensioning operations on overhead and underground power grids.

Professional environment:

Professional scope: Develop your professional activity in companies of any size that are mostly private, for others, dedicated to the assembly and maintenance of electricity distribution networks of low and high voltage, the activity is regulated by the Low Tension Electrotechnical Regulation and by the High-Tension Air Lines Regulation.

Productive Sectors:

It is located in the electrical sector, in the subsector of assembly and maintenance in the following economic-productive activities: Montage of electric power grids of high voltage. Assembly of low voltage overhead power grids. Assembly of high voltage underground power grids. Assembly of low voltage underground electrical networks.

Relevant Occupations and Jobs:

Power line installer helper.

Low voltage electrical installations operation. Line fitter helper. Pawn of the electric power production and distribution industry.

Associated training: (180 hours).

Training Modules:

MF0818_1: Support mount operations on overhead power grids. (90 hours).

MF0819_1: Tlaying and tensioning operations of drivers in overhead and underground power grids (90 hours).

Competition Unit 1: Perform support mount operations on overhead power grids

Level: 1.

Code: UC0818_1. Professional achievements and performance criteria:

RP1: Collaborate on the collection of the material, tools and equipment necessary for the assembly of supports in aerial electrical networks, under the established security conditions and following indications given. CR1.1 The material, tools and equipment are loaded in the means of transport, using the appropriate resources (ropes, levers, pens, among others), "stroking" during loading at points indicated by the manufacturer, when the dimensions and weight of the same so require.

CR1.2 The material and equipment is fixed in the means of transport so that it does not move during the movement, the pit or (work area) or the field (intermediate storage), using slings suitable for the type of material transport. CR1.3 The sharp edges of the supports or of any material to be transported are adequately protected, so as to avoid deterioration of the fixing elements during transport. CR1.4 The material, tools and equipment are downloaded in the "tajos" or the field, using the appropriate means (levers, pens, among others) verifying that it corresponds to the indicated for the task to be carried out. CR1.5 Safety standards apply to the loading and unloading of the material.

RP2: Perform auxiliary operations in the assembly and assembly of the supports, under the established security conditions and following given indications.

CR2.1 The parts that form the metal supports are bolted (preferably at ground level), following the orders received and obtaining the proper fixation of the parts that compose them.

CR2.2 The crutches of the concrete supports are fixed using the indicated clamping means, according to the given instructions. CR2.3 The fittings and insulators are fixed to the armed ones, achieving their mechanical fastening. CR2.4 The winds are placed and fixed at the head of the support with the appropriate pins, thus obtaining mechanical fastening. CR2.5 The ground spades are nailed to the indicated places, leaving them ready for connection with the ground wire of the support. CR2.6 The tools used are used according to the requirements of each intervention. CR2.7 The safety standards apply in the assembly and assembly operations of supports.

RP3: Perform auxiliary operations on the hoisting and securing of the supports, under the established security conditions and following given indications.

CR3.1 The supports or any of their bodies are placed on cleats or wedges to facilitate the lifting of the lifting.

CR3.2 The interventions of forming the support hole (adequacy of the dimensions, cleaning of the same, among others) are done to achieve its correct and level. CR3.3 The strobes are placed in the right place according to the part that is being made, throttling them so that they do not move. CR3.4 The guidance of the lifting of the supports is carried out taking into account the instructions of the person directing the maneuver. CR3.5 The pulleys are placed and fixed in the indicated places, obtaining their proper attachment. CR3.6 The tube of the ground wire, or of the air-to-ground air-laying steps is securely fixed and placed in such a way as to permit the passage of the cable connection with the ground plics, or the corresponding registers. CR3.7 Low voltage supports are applied, fixed and level according to the given indications. CR3.8 The argamase in the foundation is "attacked" with bars, getting no air bags left. CR3.9 The safety standards apply in the operations of hoisting and securing of the supports.

Professional context:

Production media: Truck-crane. Pens, hair-on, pulleys, pistölos, tractel and tirvit. Presses, matrices, tools for wedge-to-pressure drifts. Tape metric, lead. Mugs and sinks. Brake and pilot cable. Manual tools for electrical work. Manual tools for mechanical work. Machines for machining work. Binoculars. Equipment and protective elements.

Products and results:

High and low voltage distribution network supports.

Information used or generated:

Manufacturer's instructions. Safety standards. Parts of work. Work documentation. REBT.

Competition Unit 2: Conduct and tensioning operations of drivers in overhead and underground power grids

Level: 1.

Code: UC0819_1. Professional achievements and performance criteria:

RP1: To copy the material, tools and equipment necessary for the laying and tensioning of conductors in aerial and underground electrical networks, under the established security conditions and following given indications. CR1.1 Cable coils, tools and auxiliary equipment (pilot cable, chocks, brake machine, cablestrant, alzabobin easels, among others), are loaded in the means of transport according to the instructions received, using the resources suitable (ropes, levers, pens, etc.), fixing it in such a way as not to be moved during transport, to the "camper" or to the pit (working area).

CR1.2 Cable coils, tools and auxiliary means (tractels, pulleys, among others), are downloaded in the "tajes" or campas, according to the instructions received, using the appropriate means (levers, pens, between other), verifying that it corresponds to the one indicated for the task to be performed. CR1.3 The safety standards apply to the loading and unloading of cable coils and auxiliary material.

RP2: Perform auxiliary operations of cable laying in high-voltage power grids, under the conditions of established quality and safety, following the given indications.

CR2.1 Contingencies relating to the assembly of the line in the assigned observation section (hooks, passing of vehicles, provision of information to the driver, among others) are reported using the means of communication and at the time of detection.

CR2.2 The elements that the top-level technician asks for are arranged and served by the "service string" so that the work is not interrupted. CR2.3 Junctions and connections in airlines are made using the specific tools and equipment (matrices, compression machines, among others). CR2.4 The work of helping the driver, (preparation of coils, removal of coils, among others), is carried out in such a way that the laying of the cable is not interrupted. CR2.5 The security rules apply to cable-laying operations.

RP3: Tender and strain cables in low voltage distribution networks, under the established quality and safety conditions, following the given indications.

CR3.1 The fastening fittings (chains, staples, forks, among others), in the supports are fixed at the indicated points allowing the proper installation of the line.

CR3.2 The posteletes with their claws, fastening fittings, tubes, among others, in front lines, are fixed at the indicated points allowing the proper installation of the line. CR3.3 The stapling or retensioning of the neutral guarantor to the fastening fittings is carried out in such a way that the conductor beam as a uniform wiring step. CR3.4 The pulleys for cable laying and insulation are placed and fixed at the appropriate sites, ensuring their mechanical attachment. CR3.5 The firewire is tending to be prepared for its tensioning. CR3.6 The drivers tend to be damaged and leave them ready for their tensioning, when necessary (vanes in road crossings). CR3.7 The joints and connections of the conductors in aerial networks are carried out using the terminals and splice sleeves, the appropriate derivations and the specific tools and equipment. CR3.8 Safety standards apply in the laying and tensioning of drivers.

RP4: Perform auxiliary operations on the assembly of the underground electrical network conductors on bed of sand and under tube, under the supervision of a higher level technician, following the given indications.

CR4.1 The trench is prepared for the assembly of the cables or tubes by conditioning the bed thereof and performing the operations of adaptation to the dimensions, aplomado of walls and set aside to be indicated to it.

CR4.2 The seat of the cables on the base of the trench or the introduction of the cables into the tubes and the preparation of the installation for its laying is carried out, taking into account the type of installation. CR4.3 Mechanical protections and signalling in sand bed and under tube installations in ditches are mounted following the instructions given. CR4.4 The safety standards apply in the interventions in underground lines of electrical energy distribution.

RP5: Perform auxiliary operations on the assembly of the underground electrical network drivers in galleries, under the supervision of a top-level technician, following the given indications.

CR5.1 The trays and fixing brackets in galleries are placed and fixed in accordance with the established procedures.

CR5.2 The cables are seated in the trays, taking into account the type of attachment and the number of cables. CR5.3 Drivers tend to the trays without damage. CR5.4 Drivers are marked and grouped at the indicated distances. CR5.5 The trays and conductors are labelled according to the established procedures. CR5.6 The safety standards apply in the interventions on underground lines in galleries.

Professional context:

Production media: Truck-crane. Pens, hair-on, pulleys, pistölos, tractel and tirvit. Presses, matrices, tools for wedge-to-pressure drifts. Tape metric, lead. Mugs and sinks. Brake and pilot cable. Manual tools for electrical work. Manual tools for mechanical work. Machines for machining work. Stress-absence testers. Binoculars. Equipment and protective elements.

Products and results:

Air power network installations. Installations of underground power grids. Maintenance of Air and Underground Electrical Network Facilities.

Information used or generated:

Manufacturer's instructions. Safety standards. Parts of work. Work documentation.

Training Module 1: Support Mount Operations in Air Power Networks

Level: 1.

Code: MF0818_1. Associated with the UC: Perform support assembly operations on overhead power grids. Duration: 90 hours. Assessment capabilities and criteria:

C1: Identify the parts that make up the overhead power grids, describing their main features and functionality. CE1.1 To classify the types of elements of the aerial distribution networks according to their application and location:-Support.

-Armed. -Herrages. -Drivers. -Insulators. -Elements of protection and maneuver. -Tom of land.

CE1.2 From schematic drawings, photographs or videos, among others, recognize the main elements that make up an aerial distribution network in medium voltage indicating its function.

CE1.3 In a span of a distribution network recognize the elements that compose it indicating its functionality.

C2: Identify the means used and perform auxiliary operations for the loading and unloading of the material in the overhead electrical networks, indicating the safety standards to be observed, and relating them to their usual use.

CE2.1 List the specific means, techniques and safety standards used in the production of the material to the means of transport.

CE2.2 Describe the optimal way to "strobe" the material in your hoist based on its weight and dimensions. CE2.3 Indicate the optimal way to set the load on the means of transport. CE2.4 Indicate how to protect the elements of attachment in the transport of elements with live edges. CE2.5 In a practical case of loading and unloading the material, using the appropriate procedure, tools and means of protection and security, perform the following operations:

-Release material according to weight and dimensions.

-Set the load with the slings and fastening means appropriate to the weight and dimensions of the load so that it does not move during transport. -To protect the slings and the means of securing the elements with living edges. -Apply security rules.

C3: Describe the parts that make up the support of the overhead power grids, detailing their specific characteristics.

CE3.1 Name the elements (electrical, fittings, supports, among others.) that compose the support indicating its function and characteristics.

CE3.2 From simple sketches, photographs or videos, among others, of supports of aerial electrical networks, describe the elements that compose them relating them with their main function. CE3.3 In real support of aerial electrical networks, distinguish the elements that compose them by relating them to their main function.

C4: Perform auxiliary operations in the mounting of supports in an installation of a high voltage overhead power grid, from the received orders.

CE4.1 In a practical scenario of mounting and assembling support at ground level, describe the techniques, tools and technical and personal protection means necessary to:-Assemble and assemble the various types of support.

-Mount and fix the crucettes. -Mount and fix fittings and insulators. -Install the grounding. -To assemble the elements of protection and maneuver (sectionators and fuses, among others).

CE4.2 In a practical case of mounting and assembling floor-level supports, using the appropriate procedure, tools and protection and security means, perform the following operations:

-Assemble and mount the various types of supports.

-The mounting and fixing of the crutches. -The mounting and fixing of fittings and insulators. -The assembly of protective and maneuvering elements (dryers and fuses, among others). -Apply security rules.

C5: Perform auxiliary operations on the hoisting and securing of supports in an overhead electrical network installation from the received orders.

CE5.1 In a case of mounting an aerial network, indicate the steps to be taken for the support hoist.

CE5.2 In a practical case of lifting and securing supports, using the appropriate procedure, tools and protection and security means, perform the following operations:

-Admit the holes to get the seated and level of the supports.

-Place and secure the strobes depending on the load to be handled. -Perform guided operations in the hoist of the supports, taking into account the indications of the person who directs the maneuver. -Evenly distribute the argamase in the hole. -Set the tubes for the ground wire or for the aereo-underground steps in the places indicated. -Apply security rules.

C6: Perform auxiliary operations in the installation of land networks in an overhead electrical network installation from the received orders.

CE6.1 In a case of mounting an overhead power grid, indicate the steps to be taken for the installation of the support ground network.

CE6.2 In a practical case of mounting an overhead power grid, using the appropriate procedure, tools and means of protection and safety, perform the necessary operations for the installation of the ground network supports:

-Clavar the ground pics in the places indicated.

-Conexiate the ground plics to the earthen cable. -Apply security rules.

Capabilities to be acquired in a real working environment: C2 with respect to CE2.5; C4 with respect to CE4.2; C5 for CE5.2; C6 for CE6.2.

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive, taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company. Contents:

1. High and low voltage overhead power grids. Distribution of electrical energy.

Typology and structure of networks. Elements of the distribution networks: Types and characteristics of the drivers. Types, characteristics and constitution of the supports (Wood. Metallic, metal profile supports, metal plate supports. Concrete: reinforced and reinforced concrete poles, tubular posts of reinforced concrete and vibrated. Glass fibre. Crucetas and armed). Foundations (For metal supports. For concrete supports). Numbering of the supports. Signage of the supports. Loading and unloading of the supports (Safety standards. Machines and elements used. Fixing and protection).

2. Protective and manoeuvring elements and fastening accessories.

Medium voltage: Protection and maneuver elements. Signalling elements.

Low voltage: Protection and maneuver elements. Signalling elements. Insulators. Chains of insulators. Fittings and fasteners. Anti-escalation systems. Elements of protection of the avifauna.

3. Mounting of high voltage overhead power network supports.

Opening of streets and holes.

Assembly of supports and armed. Mounting of the earths of the supports. Operations for the hoisting and aplomb of supports. Operations for foundation and concrete support. Assembly of protective and maneuvering elements. Assembly of the elements of signalling, anti-scalding and protection of the avifauna. Tools and auxiliary technical means. Individual and collective security elements. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-Workshop on electrotechnical installations of 140 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly of electrical network supports, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Tlaying and tensioning operations of drivers in overhead and underground power grids

Level: 1.

Code: MF0819_1. Associated with the UC: Perform laying and tensioning operations of drivers in overhead and underground electrical networks. Duration: 90 hours. Assessment capabilities and criteria:

C1: Identify the elements, tools and auxiliary equipment (brake machine, cablestrant, chivalte upside coils, among others) for the laying and tensioning of conductors in electrical networks describing their main characteristics. CE1.1 List the elements involved in the laying and tensioning of the cables by classifying it as:-Drivers.

-High voltage: air and underground. -Low voltage: air and underground. -Auxiliary equipment (pilot cables, pilot ropes, eight, rotary, shirts, among others). -Means of security.

CE1.2 List the elements involved in the laying and tensioning of the cables, classifying it according to where the installation runs (aerial, underground or on the front).

CE1.3 From schematic drawings, photographs, videos, among others, recognize the main elements involved in the laying and tensioning of conductors in a distribution network indicating its function and field of application.

C2: Identify the means used and perform auxiliary operations for the loading and unloading of the material, indicating the safety standards to be observed, used in the electrical networks in high and low voltage, relating them with its usual use.

CE2.1 List the specific means, techniques and safety standards used in the production of the material to the means of transport.

CE2.2 Indicate the optimal way to "strobe" the material for lifting depending on its weight and dimensions. CE2.3 Describe the optimal way for the fixed of the load in the means of transport. CE2.4 Indicate how to protect the elements of attachment in the transport of elements with live edges. CE2.5 In a practical case of loading and unloading the material, using the appropriate procedure, tools and means of protection and security, perform the following operations:

-Release material according to weight and dimensions.

-Set the load with the appropriate slings so that it does not move during transport. -Protect the slings of the elements with living edges. -Apply security rules.

C3: Perform auxiliary operations on cable laying in high-voltage overhead power grids.

CE3.1 Relate the materials, media, techniques and specific safety standards used in high-voltage overhead power grids with each of the activities carried out in the laying of the cables.

CE3.2 In a cable-laying assumption of an overhead power grid, identify possible contingencies that may arise in the laying for notification to the assembly equipment. CE3.3 In a practical scenario of mounting at the scale of a high voltage overhead power grid, using the appropriate procedure, tools and means of protection and security perform the following operations:

-Empalmar and connect the drivers.

-Connect the ground cable to the pics. -Apply security rules.

C4: Perform auxiliary operations in the laying of cables in low voltage air distribution networks.

CE4.1 Relate the materials, media, techniques and specific safety standards used in low voltage overhead power grids with each of the activities performed in the cable laying.

CE4.2 In a practical scenario of mounting a low voltage air distribution network on posts, using the appropriate procedure, tools and protection and security means perform the following operations:

-Tender and tie (stapling or retrending) the cables in the insulators.

-Make splices between drivers. -Strain the cables by getting the specified arrow. -Apply security rules.

CE4.3 In a practical scenario of mounting a low voltage distribution network on a front, using the appropriate procedure, tools and protection and security means perform the following operations:

-Place and hold the elements, supports, and cables on the wall or facade.

-Make splices between drivers. -Apply security rules.

C5: Perform auxiliary operations on cable laying in underground power grids.

CE5.1 Relate the materials, media, techniques, and specific safety standards used in the laying of cables in underground networks, with each of the activities being carried out.

CE5.2 In a practical scenario of mounting a distribution network in gallery, using the appropriate procedure, tools and protection and security means perform the following operations:

-Place and hold the trays and supports.

-Make the cable seat in the trays. -Mark and group drivers. -Label the trays and conductors. -Apply security rules.

CE5.3 In a practical scenario of mounting an underground electrical grid on a sand bed, using the appropriate procedure, tools and protection and security means perform the following operations:

-Conditioning the bed of the ditch leaving it level.

-Place and hold the tubes on the trench bed. -Introduce the drivers into the tubes. -Mark and group drivers. -Label drivers. -Apply security rules.

Capabilities to be acquired in a real working environment: C2 with respect to CE2.5; C3 with respect to CE3.3; C4 with respect to CE4.2 and CE4.3; C5 with respect to CE5.2 and CE5.3.

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company. Contents:

1. Types and characteristics of drivers. Medium voltage: Aereos. Underground.

Low voltage: Aereos (On posts. On facades. Underground). Loading and unloading of cable coils: Safety standards (Machines and elements used. Fixing and protection).

2. Laying and tensioning of conductors in high and low voltage power grids.

Equipment, tools and auxiliary technical means for the laying and tensioning of conductors.

Collective and individual security items. Mounting of protections in singular points: With other lines. Pathways. Crosses. Others. Assembly of drivers and protections: Tired and tensioning of drivers in high voltage (Tendos aero. Underground tensioning). Laying and tensioning of low voltage conductors. Air-laying (On posts. On facades). Underground laying (In ditches. In galleries). Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-Workshop on electrotechnical installations of 140 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the laying and tensioning of electrical network conductors, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLVII

Professional Qualification: Assembly and Maintenance of Low-Tension Electrical Facilities

Professional Family: Electricity and Electronics.

Level: 2. Code: ELE257_2.

General Competition: Montar, maintenance and repair of electrical installations for low voltage within the scope of the Low-Tension Electrotechnical Regulation, applying the required techniques and procedures in each case, achieving the quality criteria, in safety conditions and complying with the current regulations.

Competition Units:

UC0820_2: Mount and maintain low voltage electrical installations in buildings primarily intended for housing.

UC0821_2: Mount and maintain low voltage electrical installations in commercial, office and one or more industries. UC0822_2: Mount and maintain automation facilities in the housing and small industry environment. UC0823_2: Mount and maintain low voltage overhead power grids. UC0824_2: Mount and maintain low voltage underground power grids. UC0825_2: Mount and maintain electric machines.

Professional environment: Professional scope: Develop your professional activity in small and medium-sized enterprises, mostly private, self-employed or employed, in the areas of assembly and maintenance of electrical installations Low voltage (BT), the activity of the Low Tension Electrotechnical Regulation is regulated. Productive sectors: It is located in the sector of production and distribution of electrical energy, in the activities of assembly and maintenance of the facilities of low voltage contemplated in the scope of the REBT: Facilities of BT in buildings of housing. BT facilities in office buildings. BT facilities in commercial buildings. BT facilities in buildings of a specific industry. BT installations in buildings for a concentration of industries.

Relevant Occupations and Jobs:

Electrician Installer.

Associated training: (900 hours). Training Modules:

MF0820_2: Electrical installations in residential buildings (150 hours).

MF0821_2: Electrical installations in office buildings, shops and industries (180 hours). MF0822_2: Automated electrical installations and automatisms installations (210 hours). MF0823_2: Assembly and maintenance of low voltage overhead power grids (120 hours). MF0824_2: Mount and maintenance of low voltage underground electrical networks (120 hours). MF0825_2: Assembly and maintenance of electrical machines (120 hours).

Competition Unit 1: Mounting and maintaining low voltage electrical installations in buildings primarily intended for housing

Level: 2.

Code: UC0820_2. Professional achievements and performance criteria:

RP1: Carry out low voltage liaison and facilities in housing buildings, with the conditions of quality and safety established, according to the current regulations.

CR1.1 Material collection conforms to project specifications and is redistributed in time and form according to the assembly plan.

CR1.2 The repose of the link installation and the location of the pipes, general protection box, power line, centralization of counters, individual derivations, distribution tables, and protection and measurement equipment is in line with the plans and specifications of the project and the low voltage electrotechnical regulation (REBT). CR1.3 The installation and placement of the pipes is carried out in compliance with the characteristics and dimensions indicated in the documentation and electrotechnical regulations. CR1.4 The drivers are housed in the electric pipes without any reduction or modification of their characteristics, and the sections, type of insulation and colors, among others, respond to the specifications of the project and the REBT. CR1.5 The land network is installed and connected by following the technical documentation (project and schemes, among others) using the procedure established in the project or technical documentation. CR1.6 The conductors are connected without cross-crossing between them, respecting the aesthetics of the assembly and ensuring the reliability of the electrical connection. CR1.7 Technical means and tools are used according to the requirements of each intervention. CR1.8 The status of the installation and the levels of the regulatory parameters are known by testing and verification. CR1.9 The work developed and the modifications introduced are collected in the assembly report.

RP2: Perform indoor installations in housing with the quality and safety conditions established, according to the current regulations. CR2.1 The material collection conforms to the project specifications and is redistributed according to the assembly plan.

CR2.2 The repose of the installation and the location of the pipes, protective boxes, mechanism boxes, connections and registers, as well as the rest of the electrical elements are in accordance with the plans and specifications of the project and the requirements of the REBT. CR2.3 The installation and placement of the pipes is carried out in compliance with the characteristics and dimensions indicated in the documentation and electrotechnical regulations. CR2.4 The drivers are housed in the electric pipes without any reduction or modification of their characteristics, and the sections, type of insulation and colors, among others, respond to the specifications of the project and the REBT. CR2.5 Protection devices are in line with the number of electrification circuits in housing and the elements to be protected. CR2.6 The splicing of the conductors and connection to the electrical elements is performed:

-Without presenting crosses between them and respecting the aesthetics of the whole.

-Considering the section and color of the drivers. -Ensuring the reliability of the electrical contact and using the appropriate or regulatory elements.

CR2.7 The technical means and tools are used according to the requirements of each intervention.

CR2.8 Installation status and regulatory parameter levels are known by performing verification and verification tests. CR2.9 The work developed and the modifications introduced are collected in the assembly report.

RP3: Repair facilities in housing and residential buildings with the conditions of quality and safety established, according to the current regulations.

CR3.1 The type of breakdown, the cause that produces it, and the deteriorated element are determined by functional checking and electrical parameters.

CR3.2 The type of breakdown and cost of the repair is accurately collected in the budget. CR3.3 The deteriorated element and reconstruction of the part of the installation are replaced using the appropriate disassembly and mounting sequence and re-establishing the operating conditions of the installation. CR3.4 The diagnostic and repair operations are performed in the planned time and do not cause other damage or damage to the installation. CR3.5 Technical means and tools are used according to the requirements of each intervention. CR3.6 The functional reset of the installation is verified by the tests and measurements of the regulatory parameter levels. CR3.7 The breakdown repair report contains the interventions made and the data required for the invoice processing.

RP4: Develop the technical and administrative documentation of low voltage electrical installations in the field of their competition.

CR4.1 The technical and economic characteristics of the installation are agreed with the client and are collected in the corresponding document.

CR4.2 The information required for the preparation of the documentation (application, regulations, instances and permits, among others) was collected before the competent body and selected from the REBT. CR4.3 The installation definition documentation sets:

-The total load for the building or housing.

-The constituent elements of the link installation: general protection box, power line, element for the location of counters, individual derivation, and protections, among others. -The elements that configure the grounding installation. -Housing facilities, number of circuits, protection and characteristics. -The installation of the common services and the forecast of circuits to possible commercial premises.

Taking into account the services of the building and the degree of electrification of the houses and applying the criteria laid down in the electrotechnical regulation for low voltage (REBT).

CR4.4 In the installation assembly documentation, they are resolved:

-The location of the protection box and counters.

-The system of installation of the pipes and conductors and the passage through the elements of construction of the installation of link, interior of houses and common services. -The grounding installation system. -Contingencies arising during assembly.

Taking into account the plans and characteristics of the building and applying the requirements laid down in the electrotechnical regulation for low voltage (REBT).

CR4.5 In the documentation, the calculations, drawings, drawings and schemas, lists of materials and units of work, among others, are collected, using the format and the standard representation of the adopted solution. CR4.6 The selected items and materials are in line with the agreed budget. CR4.7 The technical, material and safety means and times provided, among others, for the execution of the installation are collected in the assembly plan. CR4.8 The certificate of installation, technical memory of design, plans, manual of use and prevention of risks, among others, is presented in time and form before the competent organ and specifies the characteristics requested according to the REBT.

Professional context:

Production media: Manual tools for electrical work (pelacables and pressure tongs for terminals, among others). Manual tools for mechanical work (pliers and screwdrivers, among others). Machines for machining work (drilling, punching and riveting, among others). Electrical instrumentation (polymeter, amperimetric and vatimetric tweezers, tellurometer, isolation meter and voltage discriminator, among others). Leakage current meter. Power and power recorder for three-phase alternating current. Equipment verifier of the firing sensitivity of the differential switches. Equipment verifier of the continuity of the conductors. Loop impedance meter, with independent measurement system. A luxometer with an appropriate measurement range for emergency lights. Mounting means (ladders and scaffolding, among others). Safety and electrical protection equipment (clothing-personal protective equipment-footwear, gloves and helmet, among others). Computer. Printer. Software for electrical installations.

Products and results:

Electrical installation in single-family homes. Electrical installation in dwellings located in buildings.

Electrical installation of connection and connection to homes and buildings. Electrical installation of the common areas of housing buildings (except lift or lift). Repair of electrical installations of buildings for housing.

Information used or generated:

Documentation for facility projects. Regulations (Electrotechnical Regulation for Low Tension, Standards: National and International Electrotechnical Standardisation UNE, CEI, CENELEC. Rules of the Autonomous Communities, specific rules of the electricity companies. Technical-commercial catalogues of the manufacturers of the materials and equipment. Work orders. Administrative documentation (certificate of installation, installation bulletin, technical memory of design, plans, manual of use and prevention of risks, single-filial schemes, among others). Assembly report. Technical documentation for the installation of the installations in their area of competence. Budgets and invoices.

Competition Unit 2: Mounting and maintaining low voltage electrical installations in commercial, office and one or more industries

Level: 2.

Code: UC0821_2. Professional achievements and performance criteria:

RP1: Carry out low voltage connection and facilities in commercial buildings, offices and one or more industries, with the conditions of quality and safety established, according to the current regulations. CR1.1 The material collection conforms to the project specifications and is redistributed in time and form according to the assembly plan.

CR1.2 The repose of the link installation and the location of the pipes, general protection box, power line, centralization of counters, individual derivations, distribution tables, and protection and measurement equipment is in line with the plans and specifications of the project and the low voltage electrotechnical regulation (REBT). CR1.3 The installation and placement of the pipes is carried out in compliance with the characteristics and dimensions indicated in the documentation and electrotechnical regulations. CR1.4 The drivers are housed in the electric pipes without any reduction or modification of their characteristics, and the sections, type of insulation and colors, among others, respond to the specifications of the project and the REBT. CR1.5 The land network is installed and connected according to the technical documentation (project and schemes, among others), using the procedure established in the project or technical documentation. CR1.6 The conductors are connected without cross-crossing between them, respecting the aesthetics of the assembly and ensuring the reliability of the electrical connection. CR1.7 Technical means and tools are used according to the requirements of each intervention. CR1.8 The status of the installation and the levels of the regulatory parameters are known by testing and verification. CR1.9 The work developed and the modifications introduced are collected in the assembly report.

RP2: Perform electrical power distribution facilities in commercial buildings, offices and industries with the required safety conditions and with the established quality, according to the current regulations.

CR2.1 Material collection conforms to project specifications and is redistributed in time and form according to the assembly plan.

CR2.2 The repose of the installation, layout, and location of:

-The pipes, frames or cabinets of distribution and protection and the rest of the elements of the installation (points of light, sockets, protection boxes and mechanisms, among others).

-The power-on control elements of the light points. -The fixed receivers. -Emergency luminaries and, where appropriate, signalling.

It fits the project plans and specifications and the REBT requirements.

CR2.3 The assembly of the pipes is performed using the attachment and fastening techniques suitable for the type and dimensions of the material, characteristics of the premises and regulations. CR2.4 The drivers are housed in the electric pipes without any reduction or modification of their characteristics and the different circuits are identified and the sections of the conductors and the types of insulation, colors, between other, to the specifications of the project and the REBT. CR2.5 The characteristics of luminaires, power and type of light source are adapted to the activity of the local, not causing shade areas or glare and are equipped to the appropriate height according to the area and characteristics of the position of work. CR2.6 The splicing of the conductors and connection to the electrical elements is performed:

-Not presenting crosses between them and respecting the aesthetics of the whole.

-Considering the section and color of the drivers. -Ensuring the reliability of the connection and using the appropriate or regulatory elements.

CR2.7 The technical means and tools are used according to the requirements of each intervention.

CR2.8 Installation status and regulatory parameter levels are known by performing verification and verification tests. CR2.9 The work developed and the modifications introduced are collected in the assembly report.

RP3: Mount the protection and distribution elements in envelopes, (cabinets and tables, among others) with the quality established and complying with the safety standards according to the current regulations.

CR3.1 The distribution of the elements in the envelopes and their machining is collected in the sketches, optimizing the available space.

CR3.2 The machining of the mounting plate, fastening means and doors, among others, and its attachment is performed according to the drawings and drawings and with the intended quality. CR3.3 The characteristics of the protection and distribution elements are in accordance with the specifications of the project or respond to the section of the drivers and the power demanded. CR3.4 The protection and distribution elements are mounted in response to the technical documentation and assembly drawings. CR3.5 The wiring of the drivers of the frame is done:

-Responding to electrical and wiring schemes.

-Considering the section and color of the drivers. -Not presenting crosses between them and respecting the aesthetics of the whole. -By holding them in canaleta or by grouping them and fixing them using the appropriate technique. -identifying them according to the technical documentation or established criteria.

CR3.6 The conductors are connected to the elements of the frame by ensuring the reliability of the electrical connection in the terminals.

CR3.7 The technical means and tools are used according to the requirements of each intervention. CR3.8 The work developed and the modifications introduced are collected in the assembly report.

RP4: Maintain and repair facilities in commercial buildings, offices and industries with established quality and safety conditions.

CR4.1 The facilities maintenance program is performed according to the established plan.

CR4.2 The type of breakdown, the cause that produces it, and the deteriorated element are determined by functional checking and electrical parameters. CR4.3 The type of breakdown and repair cost is accurately collected in the budget. CR4.4 The deteriorated element and the part of the installation are replaced using the appropriate disassembly and mounting sequence and re-establishing the operating conditions of the installation. CR4.5 Technical means and tools are used according to the requirements of each intervention. CR4.6 The status of the installation and the levels of the regulatory parameters are known by testing and checking. CR4.7 The work carried out and the changes made are included in the relevant report.

RP5: Develop the technical and administrative documentation of the electrical installations of premises, offices or small industries in the field of their competence.

CR5.1 The technical and economic characteristics of the installation are agreed with the client and are collected in the corresponding document.

CR5.2 The information required for the preparation of the documentation (application JTI, regulations, instances and permits, among others) was collected before the competent body and selected from the REBT. CR5.3 In the installation definition documentation, they are set:

-Total load and partial loads.

-The constituent elements of the link installation: general protection box, power line, element for the location of counters, individual derivation, and protections, among others. -The elements that configure the grounding installation. -The installation of interior, number of circuits protection and characteristics.

Taking into account the needs of the local and applying the criteria set out in the REBT.

CR5.4 The installation assembly documentation resolves:

-The location of the protection box and counters.

-The system of installation of the pipes, boxes or cabinets, conductors and points of light, among others. -The grounding installation system.

Taking into account the characteristics of the premises and applying the requirements set out in the REBT.

CR5.5 The solution adopted to build the installation is collected in the sketches and drawings. CR5.6 The documentation is performed by collecting calculations, lists of materials, units of work and the report of repair of breakdowns with the data for the realization of the invoice and update of the historical using the appropriate procedure and the standard representation. CR5.7 The technical, material, security and timing means, among others, for the execution of the installation are collected in the assembly plan. CR5.8 The certificate of installation, technical memory of design, plans, manual of use and prevention of risks, among others, is presented in time and form before the competent organ and specifies the characteristics requested according to the REBT.

Professional context:

Production media: Manual tools for electrical work (pelacables and pressure tongs for terminals, among others). Manual tools for mechanical work (pliers and screwdrivers, among others). Machines for machining work (drilling, punching, riveting and screwing, among others). Electrical instrumentation (polymeter, amperimetric and vatimetric tweezers, tellurometer, isolation meter and voltage discriminator, tube bending equipment, among others). Leakage current meter. Power and power recorder for three-phase alternating current. Equipment verifier of the firing sensitivity of the differential switches. Equipment verifier of the continuity of the conductors. Loop impedance meter, with independent measurement system. A luxometer with an appropriate range of measurement for the emergency lights. Network disturbance and harmonic network analyzer. Electrodes for the measurement of soil insulation. Device for checking the isolation level of the operating rooms. Network, harmonic and network disturbance analyzer. Mounting means (ladders and scaffolding, among others). Safety and electrical protection equipment (clothing-personal protective equipment-footwear, gloves, and helmet, among others). Computer. Printer. Software for electrical installations.

Products and results:

Electrical installation of commercial premises. Electrical installation of offices. Electrical installation of special premises (public concurrency, with risks of fire or explosion, swimming pools and fountains, among others). Maintenance and repair of electrical installations in commercial buildings, offices and industries.

Information used or generated:

Documentation for facility projects. Regulations (Electrotechnical Regulation for Low Tension. Standards: National and international electrotechnical standards UNE, CEI, CENELEC. Rules of the Autonomous Communities, specific rules of the electricity companies). Technical-commercial catalogues of the manufacturers of the materials and equipment. Work orders. Administrative documentation (certificate of installation, technical memory of design, plans, single-part schemes, manual of use and prevention of risks, among others). Assembly report. Technical documentation for the installation of the installations in their area of competence. Budgets and invoices. Repair report.

Competition Unit 3: Mounting and maintaining automation facilities in the housing and small industry environment

Level: 2.

Code: UC0822_2. Professional achievements and performance criteria:

RP1: Prepare cabinets and electrical boxes, among others, for the assembly of the operating circuits, protection and control of electrotechnical devices, with the established quality and complying with the safety standards. CR1.1 The distribution of the elements in the envelopes and the information for their machining is collected in the sketches and drawings optimizing the available space.

CR1.2 The assembly and sequence plan of the machining operations are performed in response to the drawings and drawings of the table. CR1.3 The selected material (profiles, envelopes and tables, among others) is in line with the project specifications and the assembly plan. CR1.4 The distribution and location of the fastening elements, profiles and pipes inside the enclosure is performed in response to the implementation plans. CR1.5 The machining of the mounting plate, profiles and wrappers, among others is adjusted to the data of the planes and the sequence of operations. CR1.6 The tools, technical and security means are used according to the requirements of each intervention. CR1.7 The work developed and the modifications introduced are collected in the assembly report.

RP2: Mounting the circuits of maneuver, control and protection of electrotechnical devices in cabinets and frames, among others, with the established quality and complying with the safety standards.

CR2.1 The elements that make up the manoeuvring, control and protection circuits of electrotechnical devices conform to the project specifications and the assembly plan.

CR2.2 Equipment and elements (programmable logic controller, contactors, relays, protection elements, electronic starters of electric machines and domotic elements, among others) are fixed at the precise location and with the adequate means by ensuring mechanical restraint. CR2.3 The wiring of the conductors (cables and pletins) and their connection with the equipment and elements:

-It conforms to the schemas.

-They conform to the exact location. -The ends are treated for their connection and the terminals are placed. -They are identified according to the mounting plans. -The reliability of the electrical contact is ensured.

CR2.4 The control program is introduced into the programmable controller with the parameters that respond to the optimal operating conditions, using the appropriate equipment.

CR2.5 Functional tests are performed using the intended protocol and responding to operating conditions. CR2.6 The technical means and tools are used according to the requirements of each intervention. CR2.7 The work developed and the modifications introduced are collected in the assembly report.

RP3: Perform automated installations (control equipment, sensors, actuators and detectors, among others) in safety and quality conditions.

CR3.1 The distribution of the elements, the repose, the location of the pipes, control devices, actuation and measurement are collected in the sketches according to the project or requirements of the client.

CR3.2 Drivers are housed in the regulatory channels without any reduction or modification of their characteristics. CR3.3 The location of electromechanical actuators, electric motors, sensors and electrotechnical detectors is carried out in compliance with the requirements of the project, the function to be performed and taking into account the access for maintenance. CR3.4 The protective elements and the conductors are adjusted to the function to be fulfilled, to the number of circuits and to the power of the receiver. CR3.5 The connection of the actuators, sensors, control and protection elements and auxiliary modules is carried out according to the schemes and the technical documentation of the manufacturer. CR3.6 The technical means and tools are used according to the requirements of each intervention. CR3.7 The specified operating conditions are achieved by performing the necessary tests and adjustments on the elements of the installation. CR3.8 The work developed and the modifications introduced are collected in the assembly report.

RP4: Maintain and repair automated installations under established quality and safety conditions.

CR4.1 The dysfunction of the deteriorated element or control program is determined by functional checking and installation parameters.

CR4.2 The type of breakdown and cost of the repair is accurately collected in the budget. CR4.3 The replacement of the damaged element is carried out using the set of disassembly and set-up, thereby restoring the operating conditions. CR4.4 The dysfunction of the control program or the set values of the parameters affected is restored to the operating conditions. CR4.5 Technical means and tools are used according to the requirements of each intervention. CR4.6 The functional reset of the installation is verified by the tests and measurements of the levels of the regulatory parameters. CR4.7 The maintenance operations of the elements of the installations are carried out in accordance with the manufacturer's instructions. CR4.8 The breakdown repair report contains the data for the realization of the invoice.

Professional context:

Production media: Manual tools for electrical work (pelacables and pressure tongs for terminals, among others). Manual tools for mechanical work (pliers and screwdrivers, among others). Machines for basic machining work (drilling, punching and riveting, among others). Electrical instrumentation (polymeter and voltage discriminator, among others). Mounting means (ladders and scaffolding, among others). Safety and electrical protection equipment. PC, parameterization/programming operator panel.

Products and results:

Installing and maintaining automated systems. Installation and maintenance of automatic control and control equipment.

Information used or generated:

Documentation for automated installations projects. Electrotechnical Regulation for Low Tension. Standards: national and international electrotechnical standardization UNE, CEI, CENELEC. Rules of the Autonomous Communities. Special rules for electric companies. Technical-commercial catalogues of the manufacturers of the materials and equipment. Work orders. Administrative documentation (plans, single-part schemes, manual of use and prevention of risks, among others). Assembly report. Parts of work. Breakdown repair report. Budget and invoice. Computer. Printer. Software for electrical installations.

Competition Unit 4: Mounting and maintaining low voltage overhead power grids

Level: 2.

Code: UC0823_2. Professional achievements and performance criteria:

RP1: Mounting low voltage aerial network supports according to the project and assembly plan, applying the appropriate procedures and safety means, with the required quality. CR1.1 The collection of materials along the route of the network is carried out according to the specifications of the project and according to the plan of assembly.

CR1.2 The necessary tools and means are selected according to the needs of the assembly. CR1.3 The repose of the network, location of supports, dimensions of ditches and archets, among others, is carried out in compliance with the specifications of the project. CR1.4 The supports and armrests are mounted according to the manufacturer's mounting specifications. CR1.5 The groundings of the supports are mounted by consulting the project documentation. CR1.6 The foundation and concrete of the supports and in their case the anchorages, are carried out in compliance with the specifications of the project. CR1.7 The lifting and securing of the support is carried out with the appropriate means, applying the safety standards and achieving the aplomb and level of the same.

RP2: Mounting isolated drivers on supports, according to the project and assembly plan, applying the appropriate procedures and safety means, with the required quality.

CR2.1 The laying of the conductors is performed without damage and leaving them ready for their tensioning.

CR2.2 Drivers are tensioned taking into account the distance of the supports and the arrow of the catenary. CR2.3 The stapling or retensioning of the neutral guarantor to the clamping fittings is performed without torsion and achieving the driving beam as a uniform wiring step. CR2.4 The conductors and connections of the conductors are made using the terminals and pre-insulated splice sleeves, the appropriate derivations and the specific tools and equipment. CR2.5 The commissioning of the network is in line with the requirements of the project and rules of the supplying company.

RP3: Mounting low-voltage overhead network conductors on the front, according to the project and the assembly plan, applying the appropriate procedures and safety means, with the required quality.

CR3.1 The collection of materials along the network layout is performed according to the project specifications and according to the assembly plan.

CR3.2 The necessary tools and means are selected according to the needs of the assembly. CR3.3 The repose of the network and the location of the holes and holes for the anchoring and fastening elements (supports, tubes and claws, among others), is carried out in compliance with the specifications of the project. CR3.4 The posteletes with their claws, tubes, beam supports and canfins on the facades are fixed to the distances and measurements specified in the project and allow the proper installation of the beam. CR3.5 The laying and fixing of the beam to the facade is carried out by displacing the coil without damage and leaving it ready for its tensioning, in the case that there are vain. CR3.6 The tensioning of the cables at the crossings (vanes) is carried out on the neutral conductor and takes into account the width of the road and the arrow of the catenary. CR3.7 The conductors and connections of the conductors are made using the terminals and pre-insulated splice sleeves, the appropriate derivations and the specific tools and equipment. CR3.8 The commissioning of the network is in line with the requirements of the project and rules of the supplying company.

RP4: Repair and maintain with and without voltage low voltage power grids, following the established procedures under appropriate quality conditions and response time.

CR4.1 The inspection of the network and its components is performed by collecting, scoring, and evaluating the status of the components of the installation.

CR4.2 In preventive maintenance:

-The intervened element is checked to match the one indicated in the work item.

-The adjustments and checks of the intervening elements are performed with the required precision.

CR4.3 In corrective maintenance:

-The fault is checked to match the fault in the breakdown part.

-Installation component failures are corrected by following the procedures given for mounting. -It is verified that the element intervened is identical or of the same characteristics as the broken one. -The adjustments and checks of the substituted elements are performed with the required precision.

CR4.4 On network operations:

-The network download is requested from the operation center.

-The line connects to another network to not interrupt the service, when this is possible. -Security of signs and protection measures are carried out using the established procedure. -Network reset is requested from the operation center. -The commissioning of the installation is checked.

CR4.5 Technical means, measuring instruments and tools are used according to the requirements of each intervention.

CR4.6 The measuring instruments and apparatus are checked to have the current calibration certificate. CR4.7 The personal safety standards, the facilities and the equipment are met in all the interventions. CR4.8 The necessary information is collected in the breakdown repair report and put into service of the facility.

Professional context:

Production media: Truck-crane. Feathers, hair, pulleys, strobes, chocks and pystoos, among others. Presses, matrices, tools for wedge-to-pressure drifts. Metric tape, teodolite, and plumbing. Mugs and sinks. Brake and pilot cable. Manual tools for electrical work. Manual tools for mechanical work. Machines for machining work. Measuring instruments (tellurometer, dynamometer, thermometer and voltiamperimetric clamp, among others). Computer tools for the realization of documentation. Equipment and protective elements.

Products and results:

Low voltage air network installations. Maintenance of low voltage air network facilities.

Information used or generated:

Project technical documentation and mount plan. Mounting planes of supports and fittings. Work orders. Parts of breakdown description. Manufacturer's technical manuals. Manuals of the different teams. Regulation and regulation. Maintenance tabs. History of breakdowns. Safety standards. Failure report on the project. Final report on the layout of the installation. Permission for the removal of surplus land. State where the amount of surplus land is indicated. Request for discharge. Work permit on the affected installation. Assembly report. Maintenance report. Parts of work.

Competition Unit 5: Mount and maintain low voltage underground power grids

Level: 2.

Code: UC0824_2. Professional achievements and performance criteria:

RP1: Mounting the conductors of underground electrical networks on bed of sand and under tube in ditches according to the project and plan of assembly, applying the appropriate procedures and means of safety, with the required quality. CR1.1 The collection of materials along the route of the network is carried out according to the specifications of the project and according to the plan of assembly.

CR1.2 The necessary tools and means are selected according to the needs of the assembly. CR1.3 The repose and dimensions of the ditches and goalies, among others, is carried out in compliance with the specifications of the project and ensuring that it does not coincide with other services in the same vertical projection and complies with the current regulations. CR1.4 Interventions (driveways, sidewalks, street and road crossings, among others) are carried out with the corresponding permits. CR1.5 The seat of the cables on the base of the trench or the introduction of the cables into the tubes and the preparation of the installation for laying is carried out taking into account the type of installation. CR1.6 The laying of the conductors is carried out without damage (by placing the rollers and avoiding crosses) and are arranged according to the type of installation and the regulations in force. CR1.7 Drivers are spliced and connected using the appropriate elements according to rules and assembly instructions. CR1.8 Drivers are marked and grouped at appropriate distances by following project documentation and assembly plan. CR1.9 The mechanical and signalling protection of the network is mounted in compliance with the current regulations. CR1.10 Terminal and junction boxes are made and assembled in accordance with the manufacturer's rules and instructions. CR1.11 In tests performed on the elements of the installation:

-Continuity is ensured.

-The phase order is checked. -The isolation is checked. -The continuity of the metal screen is verified. -Regulatory testing is carried out.

CR1.12 The passage of the cable from the underground to aerial is done through the steel tube with the appropriate dimensions and plugging it with the corresponding cable protector. RP2: Mounting the conductors of electrical grids in galleries, according to the plan and plan of assembly, applying the appropriate procedures and means of safety, with the required quality.

CR2.1 The collection of materials along the network layout is performed according to the project specifications and according to the assembly plan.

CR2.2 The necessary tools and means are selected according to the needs of the assembly. CR2.3 The location of the trays, fittings and fasteners, among others, is carried out in compliance with the specifications of the project and with the current regulations. CR2.4 The seat of the cables in the tray is made taking into account the type of attachment, the number of cables it houses, and the rest of the services in the gallery. CR2.5 The drivers tend to be damaged and are disposed of according to the regulations in force. CR2.6 Drivers are marked and grouped at appropriate distances by following project documentation and assembly plan. CR2.7 Drivers are spliced and connected using the appropriate elements according to rules and assembly instructions. CR2.8 In tests performed on the elements of the installation:

-Continuity is ensured.

-The phase order is checked. -The isolations are checked. -The continuity of the metal screen is verified. -Regulatory testing is carried out.

CR2.9 The passage of the cable from the underground to aerial is done through the steel tube with the appropriate dimensions and plugging it with the corresponding cable protector. RP3: Perform the service of the network, according to the project and rules of the supplying company applying the established procedures and means of safety.

CR3.1 The download or authorization to connect the mounted network to another network or the substation is requested for the action dates.

CR3.2 The absence of tension is guaranteed by the necessary checks. CR3.3 The protection and work zones are marked in compliance with the required safety requirements. CR3.4 The intervention area of the air network is protected by the grounding of its drivers. CR3.5 The connection to the network or the substation is made with the appropriate elements and ensuring its mechanical fixation. CR3.6 The reset of the network service is verified with the required elements. CR3.7 The personal safety standards, the facilities and the equipment are met in all the interventions. CR3.8 The installation mount report contains the required data and in the corresponding format.

RP4: Repair and maintain low voltage power grids, following established procedures under appropriate quality and response time.

CR4.1 The inspection of the network and its components is performed by collecting, scoring, and evaluating the status of the components of the installation.

CR4.2 In preventive maintenance:

-The intervened element is checked to match the one indicated in the work item.

-The adjustments and checks of the intervening elements are performed with the required precision.

CR4.3 In corrective maintenance:

-The fault is checked to match the fault in the breakdown part.

-Installation component failures are corrected by following the procedures given for mounting. -The element is replaced by another identical element or the same characteristics as the broken-down element. -The adjustments and checks of the substituted elements are performed with the required precision.

CR4.4 On network operations:

-The network download is requested from the operation center.

-The line connects to another network to not interrupt the service, when this is possible. -Safety, signalling and protection measures are carried out using the procedure laid down. -Network reset is requested from the operation center. -The commissioning of the installation is checked.

CR4.5 Technical means, measuring instruments and tools are used according to the requirements of each intervention.

CR4.6 The measuring instruments and apparatus are checked to have the current calibration certificate. CR4.7 The personal safety standards, the facilities and the equipment are met in all the interventions. CR4.8 The necessary information is collected in the breakdown repair report and put into service of the facility.

Professional context:

Production media: Truck-crane. Feathers, hair and hair, among others. Presses, matrices and tools for pressure wedge derivations. Shovels, pissons, palettes, among others. Cable coils, cats, rollers, among others. Tape, color adhesive tapes, among others. Mugs and sinks. Brake and pilot cable. Manual tools for electrical work. Manual tools for mechanical work. Machines for machining work. Isolation meter. Equipment for verifying and locating underground cables. Measuring instruments (tellurometer, dynamometer, thermometer, voltiamperimetric clamp, among others). Computer tools for the realization of documentation. Portable Terminal for Maintenance. Equipment and protective elements.

Products and results:

Low voltage underground electrical networks. Maintenance of low voltage underground power grids.

Information used or generated:

Project technical documentation and mount plan. Work orders. Parts of breakdown description. Manufacturer's technical manuals. Manuals of the different teams. Regulations (Electrotechnical Regulation for Low-Tension, Regulation of Electrical Undertakings, Regulation Of Electrical Verifications, Technical Conditions and Safety Guarantees in Central Electrical Substations and Transformation Centers). Standards: National and International Electrotechnical Standards UNE, CEI, CENELEC. Rules of the Autonomous Communities, specific rules of the electricity companies. Maintenance tabs. History of breakdowns. Safety standards. Failure report on the project. Final report on the layout of the installation. Permission for the removal of surplus land. State where the amount of surplus land is indicated. Request for discharge. Work permit on the affected installation. Assembly report. Maintenance report. Parts of work.

Competition Unit 6: Mounting and maintaining electric machines

Level: 2.

Code: UC0825_2. Professional achievements and performance criteria:

RP1: Install rotary and transformer electrical machines, under the established security conditions and in accordance with the current regulations. CR1.1 The mechanical and electrical characteristics (situation and characteristics of the fixing devices, maximum dimensions, the position of connection borns, the characteristics of the devices and the characteristics of the fixing devices, the maximum dimensions, the position of the connecting devices, the possible cooling elements, among others), necessary for the assembly of the machine.

CR1.2 The operations required for the assembly of the machine (material collection, machine and tool preparation, mechanical assembly and fastening and finishing) are carried out in time and with the appropriate quality. CR1.3 The assembly of the parts, if necessary, is carried out according to the construction plans and drawings and the indications of the manufacturer. CR1.4 The parts that form the anchorages (legs, flanges, among others) and fixing devices are secured according to the assembly plan and achieving the proper fixation of the parts that compose them. CR1.5 The calculation of the electrical magnitudes is performed from the data on the nameplate. CR1.6 The electrical protection of motors and transformers (over-intensities, lack of phase, among others) are appropriate to the type of installation and the current regulations. CR1.7 The connections are made by properly preparing the terminals, ensuring their mechanical attachment and electrical contact according to the technical documentation. CR1.8 Technical means and tools are used according to the requirements of each intervention. CR1.9 The safety standards are known and taken into account in all interventions. CR1.10 The work developed and the modifications introduced are collected in the assembly report.

RP2: Perform the testing and commissioning of rotary and rotary electric machines under the established safety conditions and in accordance with the current regulations.

CR2.1 The commissioning and testing of the machines are performed according to the established protocols.

CR2.2 The results obtained in the standardized tests and tests, both in vacuum and in load, correspond to the parameters indicated in the plate of characteristics of the electric machine. CR2.3 The technical means and tools are used according to the requirements of each intervention. CR2.4 The safety standards are known and taken into account in all interventions. CR2.5 The tests carried out and the modifications made are set out in the relevant report.

RP3: Maintain and repair rotary and rotary electric machines, under the conditions of established quality and safety, according to the current regulations.

CR3.1 The machine or transformer maintenance program is performed according to the set plan.

CR3.2 The breakdown in the electrical or transformer machine is diagnosed by the application of an established procedure and using the appropriate tools and instruments. CR3.3 The type of breakdown and repair cost is accurately collected in the budget. CR3.4 The collection of materials, the preparation of machines and tools, the elaboration of the coils, insulation and varnishing, assembly, connections and finishes) are carried out in time and with the right quality. CR3.5 The constructive characteristics of the broken machine or transformer (connection schemes, number of coils, diameter of the wire, constructive form of the transformer, type of insulation, among others) are obtained in detail in the process of disassembly and are collected in the corresponding document. CR3.6 The deteriorated element and the part of the machine or transformer are replaced using the appropriate disassembly and mounting sequence and re-establishing the operating conditions of the installation. CR3.7 The technical means, tools and means of safety are used according to each intervention. CR3.8 The status of the installation and the values of the regulatory parameters are known by testing and verifying that they match those indicated on the feature plates. CR3.9 The work carried out and the changes made are included in the relevant report.

Professional context:

Production media: Manual tools for electrical work (pelacables, pressure tongs, among others). Manual tools for mechanical work (pliers, screwdrivers, English keys, fixed, mechanical jacks, hammers, among others). Measuring and testing instruments (ohmeter, voltmeter, amperimeter, vatimeter, polymeter, amperimetric and vatimetric tweezers, fasimeter, isolation meter, telurohmeter, compass, series and parallel test lamps, among others) mechanical measurement (gauge, micrometric screw, among others). Machines for the winding of electric machines and accessories. Test benches of electric machines. Instruments (manuals or computer tools) for the design of small and electric transformers. Threads and pletins. Varnishes. Insulating materials. Ferromagnetic materials. Elements of connection. Liquid refrigerants.

Products and results:

Construction of static electrical machines. Repair and maintenance of static and rotary electric and AC machines. Tests of static and rotary electric machines of DC and AC.

Information used or generated:

Electric Machine Winding Schemes. Mechanical cutting planes of electric machines. Standard procedures for testing of electric machines. Standard documents for the preventive maintenance of electric machines. Parts of work. Electrotechnical Regulation for Low Tension and supplementary instructions. International standards and technical requirements.

Training module 1: Electrical installations in housing buildings

Level: 2.

Code: MF0820_2. Associated with UC: Mount and maintain low voltage electrical facilities in buildings primarily intended for housing. Duration: 150 hours. Assessment capabilities and criteria:

C1: Identify the parts and elements that make up the power and interior installations for buildings primarily intended for housing, analyzing the operation, the characteristics and the regulations application. CE1.1 To relate the parts of the electrical linking, interior and common facilities in the buildings of dwellings with the place of location and with the elements that integrate them.

CE1.2 From the building plans of a single-family dwelling and a building for housing:

-Choose the location of the general protection box, power line, individual shunt, counters, and general protective picture, among others, applying the related regulations, indicating the technical characteristics to be collected according to the type, constitution and system of installation.

-To locate on the plane the interior installation in the dwellings (circuits, protections, lands, elements of maneuver, conductors and tubes, among others), applying the related regulations, indicating the technical characteristics which they must meet on the basis of type, constitution, location and installation.

CE1.3 In a scale installation of a small building or housing and with the technical documentation:

-Identify the equipment and elements that configure it, interpreting the technical documentation and relating the actual components (or in catalog, photography) to the symbols that appear in the schemas.

-Determine the operation of the installation according to the elements involved in each circuit, using the electrical schemes and checking it through the functional analysis of the installation. -Make the necessary checks to verify that the materials and equipment that make up the installation meet the requirements set out in the documentation of the installation. -Identify the variation that occurs in the parameters characteristic of the installation (tensions, isolations, derivations and ground resistance, among others) assuming and making modifications in components thereof. -Verify that the installation complies with the application regulations. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation. -To draw up a report on the activities carried out and the results obtained.

C2: Perform the assembly of the installation of the link and the electrification of houses applying the current regulations acting under personal safety standards and the materials used.

CE2.1 Based on the technical documentation or project of an electrical installation of a building of several dwellings with a proper description:-Interpret the corresponding plans and drawings of the installation of the link, detecting the difficulties of assembly and indicating the solutions which may be adopted by applying the rules in force.

-Set the link installation assembly plan indicating the required elements, materials, technical, auxiliary, and security means.

CE2.2 In the assembly of the general protection box, general line of power, meters and individual shunt, among others, of a building of several dwellings (in a scale installation):

-Select the tools appropriately based on the procedures applied.

-Prepare and mechanize the envelopes, boxes, pipes, tubes, conductors and materials to be used, applying the required procedures. -To assemble the elements, boxes, tubes, meters and ground, among others, of the installation of the link applying the current regulations assuring their proper mechanical fixation. -Introduce the conductors into the tubes by applying the appropriate technique by marking each of them in an unmistakable way and avoiding crosses. -To connect the components by following appropriate procedures, ensuring their good electrical contact and respecting the color code. -To carry out the tests and regulatory measures of the parameters of the installation (resistance of soil and insulation, among others). -Carry out assembly, testing and measurement operations in accordance with the personal safety and material standards, reaching the final quality. -To draw up a report on the activities carried out and the results obtained.

CE2.3 In the assembly of the installation of a medium-type housing performed at scale (embedded in real or simulated form):

-Select the tools appropriately based on the procedures applied.

-Prepare and mechanize the boxes, tubes, conductors and materials to be used, applying the required procedures. -To assemble the elements, boxes and tubes, among others, applying the current regulations ensuring their proper mechanical fixation. -Introduce the conductors into the tubes by applying the appropriate technique, each marking in an unmistakable way and avoiding the crosses. -Conjunction the drivers in the boxes and in the components by following proper procedures and ensuring their good electrical contact. -To carry out the tests and regulatory measures necessary to ensure the correct functionality of the installation (in the devices of cutting and protection, resistance of soil and insulation, among others). -To carry out the assembly, testing and measurement operations applying the personal safety standards and the precise materials, reaching the final quality expected. -To draw up a report on the activities carried out and the results obtained.

C3: Repair breakdowns in electrical installations of interior buildings, acting under personal safety standards and the materials used.

CE3.1 In the diagnosis, location and repair of real or caused breakdowns in the installation of a dwelling and its installation of link (simulated at scale):-To indicate the process used for the diagnosis and location of the type breakdowns.

-Relate specific techniques and media with the type of fault. -Identify the symptoms of the breakdown by relating it to the effects of the installation.

CE3.2 In the diagnosis, location and repair of actual or caused breakdowns in the installation of a dwelling and its installation of link (simulated at scale):

-Perform an intervention plan for the cause or cause of the breakdown.

-Indicate the process used for the diagnosis and location of the type breakdowns. -To relate specific techniques and means to the type of damage.

CE3.3 In the diagnosis, location and repair of actual or caused breakdowns in the installation of a dwelling and its link facility (simulated at scale):

-Identify the symptoms of the breakdown by relating it to the effects of the installation.

-Diagnose the cause of the failure by performing the necessary tests and measures and interpreting the results according to the documentation of the failure. -To locate the element or component causing the breakdown, applying the required procedures. -Restituir the operating conditions, replacing the damaged element or rebuilding the part of the facility in bad condition applying the required procedures. -To draw up a report on the activities carried out and the results obtained. -To prepare a budget taking into account the prices of materials obtained from commercial catalogues, estimate of time to be used and the taxes of application.

C4: Develop the technical documentation of electrical installations in the interior of residential buildings, applying the current electrotechnical regulations.

CE4.1 Calculate electrical and dimensional magnitudes of interior electrical installations for housing buildings by applying the laws and rules of electrotechnical calculation.

CE4.2 In an assumption of characterization of an electrical installation of interior of a housing building from the building plans and in accordance with the current electrotechnical regulation:

-Determine the degree of electrification corresponding to the different dwellings of the building.

-Perform the distribution of electrical circuits in the interior of the dwellings according to the defined characteristics. -Determine the forecast of building loads according to the characteristics of the dwellings, general services, commercial premises and offices. -Graphically represent the schemes of the housing and the housing circuits. -determine the section of the conductors and the diameter of tubes in each of the sections of the installation, depending on the expected power and applying the regulatory criteria. -Determine the characteristics of the land system of the main line and derivations of the land installation using standard criteria. -Set the characteristics of the cutting and protection elements of the link installation and the housing protection table by applying the REBT. -Determine the placement and configuration of the meter cabinet by applying the REBT. -To draw up a report on the activities carried out and the results obtained.

CE4.3 To comply with the documentation required by the REBT for the installation of housing buildings, using equivalent official documents (technical design memory, single-filar scheme, drawings, site plans, instructions for use and maintenance, among others).

Capabilities whose acquisition must be completed in a real working environment: C2 with respect to CE2.2 and CE2.3; C3 with respect to CE3.3.

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Electrification facilities in housing and housing buildings: Housing facilities: degree of electrification.

Characteristics and types of elements: distribution table, control and control elements, tubes and pipes, boxes, electrical conductors, maneuver and connection elements, among others. Liaison facilities. Parts: Characteristics and types of elements (general protection box, counters, cables, pipes, PCI, control devices and protection, among others). Facilities with bathtubs or showers. Grounding installations: features and elements. Facilities in the common areas: features and elements. Safety on the premises. Protection against over-intensities and over-tensions. Protection against direct and indirect contacts. Devices.

2. Representation and symbology of electrical installations in dwellings:

Standard symbology in electrical installations.

Standard and Standard Electrical Schemes. Typology. Interpretation of electrical schemes for indoor installations and floor plans. Regulation and regulation.

3. Calculation in the electrical installations of BT of residential buildings:

Degree of electrification and power in housing.

Total load of buildings intended for housing. Circuits, drivers section and voltage drops in housing and liaison facilities. Maximum permissible intensities for drivers. Protective elements. Dimensions of pipes and pipes. Selection of items in commercial catalogs. Standard procedures for the calculation of BT installations. Regulation and electrotechnical regulation.

4. Measure at home electrical installations:

Electrical magnitudes in: voltage, intensity, resistance and continuity, power, electrical resistance of the earth sockets and insulations, among others.

Fundamental relationships between electrical magnitudes. Measuring instruments: Typology and characteristics. Connection procedures. Measurement processes. Regulatory measures.

5. Assembly of indoor electrical installations in housing and buildings:

Site and assembly of liaison facilities: general protection boxes, general feeding line, individual bypass, counters and centralization, control devices and protection. ICP.

Site and system assembly of indoor housing facilities: pipes and cables, number of circuits and features in the assembly, earth sockets, lines and derivations, general distribution table, bathrooms and kitchens, among others. Means and technical equipment in the assembly. Safety equipment and equipment. Prevention of accidents. Electrical safety regulations. Regulation and regulation.

6. Repair of indoor electrical installations in residential buildings:

Type breakdowns in housing buildings. Symptoms and effects.

Diagnosis and localization (tests, measures, procedures and security elements) in housing buildings. Repair of breakdowns. Protection and security measures.

7. Installation documentation:

Installation documentation (projects, technical design memory, electrical installation certificate, general instructions for use and maintenance, among others).

Processing of installations. Verifications and inspections.

Training context parameters:

Spaces and facilities: Multi-purpose of a minimum of 2 m2 per pupil.

80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of electrical installations in dwellings, which will be accredited by one of the following forms: Academic training of Technical Engineer or others of higher level related to this professional field.

Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 2: Electrical installations in office buildings, shops and industries

Level: 2.

Code: MF0821_2. Associated with UC: Mount and maintain low voltage electrical facilities in commercial, office and one or more industries. Duration: 180 hours. Assessment capabilities and criteria:

C1: Identify the parts and elements that make up the indoor electrical installations for office buildings, shops and industries, analyzing the operation, the characteristics and the rules of application. CE1.1 To relate the parts of the installation of the link and the electrical installation of the interior of the distribution of electrical energy in buildings of offices, shops and industries with the place of location and with the elements that integrated.

CE1.2 Relate the characteristics and types of luminaires and light sources with the lighting needs of the plane and work area and with the type of activity of the local. CE1.3 To classify the types of electrical installations according to the type of building and service they provide, indicating their characteristics, installation system and indicating the current regulations that regulate them. CE1.4 From the building plans of a commercial premises or a small commercial building:

-Choose the location of the elements of the link installation, indicating the technical characteristics to be collected according to the type, constitution and installation system.

-Position the necessary power distribution, tables, or envelopes, indicating the characteristics to be gathered by the elements involved in the installation system and applicable regulations. -Locate the luminaires indicating the technical characteristics to be gathered and the light source to be used according to the activity of the local or area to be illuminated and the system of installation.

CE1.5 In a scale installation that simulate a small industry and office, with the technical documentation:

-Identify the equipment and elements that configure it, interpreting the technical documentation and relating the actual components (or in catalog, photography) to the symbols that appear in the schemas.

-Determine the operation of the installation according to the elements involved in each circuit, using the electrical schemes and checking it through the functional analysis of the installation. -Make the necessary checks to verify that the materials and equipment that make up the installation meet the requirements set out in the documentation of the installation. -Identify the variation that occurs in the parameters characteristic of the installation (tensions, isolations, derivations and ground resistance, among others) assuming and making modifications in components thereof. -To verify the application of the regulations in the development of the installation. -To draw up a report on the activities carried out and the results obtained.

C2: Carry out the installation of the electrical installation of office, commercial and industrial buildings, applying the current regulations, acting under personal safety standards and the materials used.

CE2.1 In the assembly of the installation at scale of an industry dedicated to a given activity and a trade, including the installation of a link, characterized from the electric planes:-Interpret the schemes and plans, detecting the difficulties of assembly and indicating the solutions which can be adopted by applying the current regulations.

-Set the mount plan indicating the necessary elements, materials, technical, auxiliary, and security means.

CE2.2 In the assembly of the installation at scale of an industry dedicated to a given activity and a trade, including the installation of the link characterized from the electric planes:

-Select the tools appropriately based on the procedures applied.

-Mechanize and conform the tubes, trays or prefabricated, supports, applying the required procedures. -Configure the internal distribution of cabinets or wrappers, mechanize and assemble the elements that integrate it, applying the required procedures. -Mount the luminaires with their electrical equipment, checking their operation. -To assemble the elements of the installation, applying the current regulations, ensuring their proper mechanical fixation. -Introduce the conductors into the tubes by applying the appropriate technique, each marking in an unmistakable way and avoiding the crosses. -Conjunction the drivers in the boxes and components by following proper procedures and ensuring their good electrical contact. -Carry out the assembly operations by applying the personal and material safety standards and reaching the final quality.

CE2.3 In the assembly of the installation at scale of an industry dedicated to a given activity and a trade, including the installation of the link characterized from the electric planes:

-Carry out tests and regulatory measures (ground resistance, insulation and lighting levels, among others) by applying personal safety and material standards and achieving the final quality expected.

-Develop a report of the developed activities and results obtained.

C3: Maintain and repair faults in indoor electrical installations in industries, shops and offices, acting under personal safety standards and the materials used.

CE3.1 Develop the plan for the maintenance of frames, luminaires and light sources from the planes of a given industry and using the manufacturer's catalogues.

CE3.2 Develop the maintenance plan for the electrical installation system elements of an environment industry with explosion risk from the electrical plans and schemes of a given industry and using the catalogues of the manufacturer. CE3.3 Relate the characteristics of the typical faults of the light source to the element involved. CE3.4 Relate the characteristics of the typical breakdowns of the elements of the installation of the local types to the element involved. CE3.5 In the diagnosis, location and repair of actual or caused breakdowns in the installation of a particular industry and a trade (simulated at scale):

-Indicate the process used for the diagnosis and location of the type breakdowns.

-Relate specific techniques and media with the type of fault. -Identify the symptoms of the breakdown by relating it to the effects it produces in the installation. -Make an intervention plan for the detection of the cause or causes of the breakdown. -Diagnose the cause of the breakdown by performing the necessary tests and measures and interpreting the results according to the documentation of the same. -To locate the element or component causing the breakdown, applying the required procedures. -Restituir the operating conditions, replacing the damaged element or rebuilding the part of the facility in bad condition applying the required procedures. -To draw up a report on the activities carried out and the results obtained. -To prepare a budget taking into account the prices of materials obtained from commercial catalogues, estimate of time to be used and the taxes of application.

C4: Develop the technical documentation of electrical installations in the interior of office buildings, shops and industries by applying the current electrotechnical regulations.

CE4.1 Calculate electrical and dimensional magnitudes of interior electrical installations for office buildings, shops, and industries by applying the laws and rules of electrotechnical calculation.

CE4.2 In an assumption of characterization of an electrical installation of interior of an office building and of an industry determined from the plans of construction, energy needs and according to the Current electrotechnical regulation:

-Determine the distribution of loads in the building by applying the REBT.

-Graphically reintroduce the schemes of the link installation and the building circuits, the section of the conductors and the dimensions of the pipes in each of the sections of the installation, depending on the total or partial charges applying the REBT criteria. -Establish the light points in response to the lighting needs of the activity of the premises and using software. -Establish the characteristics of the cutting and protection elements of the liaison facility and the distribution and protection tables of the building by applying the REBT. -Determine the placement and configuration of the meter cabinet by applying the REBT. -Set the characteristics of the elements of the installation according to the system of installation, activity of the local, applying the REBT. -Determine the characteristics of the land system of the main line and derivations of the ground installation by applying the REBT. -Select the elements of the installation that respond to the characteristics obtained using catalogues of the manufacturers. -To draw up a report on the activities carried out and the results obtained.

CE4.3 Meet the documentation required by the REBT for office, industrial and commercial building facilities, using equivalent official documents (technical design memory, certificate of the installation, single-filar scheme, croquis, site plans, instructions for use and maintenance, among others). Capacities the acquisition of which must be completed in a real working environment: C2 with respect to CE2.2 and CE2.3; C3 with respect to CE3.1, CE3.2 and CE3.5. Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Electrification facilities in commercial buildings, offices, industries and for special purposes: Electrical installations in buildings: commercial, office and industrial.

Classification. Type facilities. Circuits. Features of the facilities. Item types. Regulations: Facilities of premises with bathtubs or showers. Facilities at local public concurrency. Facilities in premises at risk of fire or explosion. Installations in premises with special characteristics: wet, wet, with risk of corrosion and powder, among others. Lighting installations. Operating rooms and operating rooms. Relief food facilities. Others. Distribution tables. Elements of command and protection. Grounding facilities. Procedures, means and materials used. Liaison facilities. Parts. Characteristics and types of elements (general protection box, counters, cables, pipes, PCI, control devices and protection, among others). Safety on the premises. Protection against over-intensities and over-tensions. Protection against direct and indirect contacts. Devices.

2. Representation and symbology of electrical installations in commercial buildings, offices, industries and for special purposes:

Representation Conventions. Standardized symbology in electrical installations.

Standard and Standard Electrical Schemes. Typology. Interpretation of electrical schemes for indoor installations and floor plans. Regulation and regulation.

3. Calculation of BT's electrical installations in commercial buildings, offices, industries and for special purposes:

Total load for commercial buildings, offices and industries. Load forecasting. Monofasic and three-phase supplies. Load balancing.

Circuits. Distribution of electrification in the building. Drivers. Sections. General stress falls and industrial installations with their own transformer. Maximum permissible intensities in the conductors and short circuit intensity. Protective elements. Calculation of interior lighting. Magnitudes and relationships. Distribution of luminaires. Characteristics of the light source. Selection of items in commercial catalogs. Dimensions of frames or envelopes, tubes and pipes. Standard procedures for the calculation of BT installations. Regulation and electrotechnical regulation.

4. Measure in electrical installations of commercial buildings, offices, industries and for special purposes:

Fundamental relationships between electrical magnitudes.

Electrical magnitudes in: voltage, intensity, resistance and continuity, power, electrical resistance of the earth sockets and insulations, among others. Measuring instruments: Typology and characteristics. Connection procedures. Measurement processes. Regulatory measures.

5. Electrical rating:

Electrical rating system. Choice of fares on BT. Means employed.

regulations.

6. Assembly of indoor electrical installations in commercial buildings, offices, industries and for special purposes:

Site and mount the installation of the link: general protection boxes, power line, individual bypass, channelings, counters and centralization, control devices and protection. ICP.

Site and assembly of the embedded, surface-to-air installation systems in the types of commercial buildings, offices, and industries. Circuit separation. Identification. System of installation of the pipes: choice and situation. Metal and non-metallic tubes. Protective channels. Trays and supports, among others. Takes of land. Lines and derivations. Distribution tables. Preparation, machining and execution of: frames or envelopes, channelings, cables, terminals, joints and connections. Means and equipment. Safety equipment and equipment. Prevention of accidents. Electrical safety regulations. Regulation and regulation.

7. Maintenance and repair of indoor electrical installations in commercial buildings, offices, industries and for special purposes:

Type breakdowns in the distribution and lighting facilities of commercial buildings, offices and industries. Symptoms and effects.

Diagnosis and location of breakdowns (tests, measures, procedures and security features) in commercial buildings, offices and industries. Repair of breakdowns. Protection and security measures.

8. Installation documentation:

Installation documentation (projects, technical design memory, electrical installation certificate, general instructions for use and maintenance, among others).

Processing of installations. Verifications and inspections.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of indoor electrical installations in commercial buildings, offices and industries, which will be accredited by one of the following forms:-Training Technical Engineer or other top-level academic in this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Automated electrical installations and automation facilities

Code: MF0822_2.

Associated with UC: Montar and maintain automation facilities in the housing and small industry environment. Duration: 210 hours. Assessment capabilities and criteria:

C1: Identify the parts and elements that make up the automated installations and small automatism installations, analyzing the operation, the characteristics and the implementing regulations. CE1.1 Relate the elements (sensors, detectors, control devices, actuators and motors, among others) that they consist of the automated installation with the function that it performs and its applications.

CE1.2 List the elements that integrate an automated installation and an installation of electric automatism (control of motors and doors, among others) by comparing its characteristics and functional conditions. CE1.3 Choose the location of the installation elements according to the areas of application and using the appropriate symbology, from the building plans. CE1.4 From the electric control scheme of an engine (automatic door and irrigation system, among others):

-Relate the symbols of the elements that make up the automatism with the real element.

-Interpret the schema by describing the operation.

CE1.5 In a scale installation of an automated installation and an installation of electric automatism, characterized by the technical documentation:

-Identify the teams and elements that configure it, interpreting the technical documentation, and relating the actual components to the symbols that appear in the schemas.

-Determine the operation of the installation according to the elements that make up each circuit, using the electrical schemes and checking it through the functional analysis of the installation. -Verify that the sensors and actuators, among others, that make up the installation meet the requirements set out in the documentation of the same. -Determine the variation that occurs in the operation of the installation assuming modifications in the parameters of the elements and verifying it functionally on the installation. -To draw up a report on the activities carried out and the results obtained.

C2: Mechanizing tables and electrical cabinets, among others, and mounting the circuits of maneuver, control and protection from the installation's operating systems or specifications.

CE2.1 Develop the schema that responds to the optimal operating conditions using the symbology and representation conventionalisms, given the specifications of the home automation installation or the installation of an electric automatism.

CE2.2 Elaborate automatic control programs for a simple automated installation and simple electric automatism. CE2.3 In an assumption of the configuration and construction of an electrical box or cabinet for control of automated devices, from the outline:

-Identify the elements that integrate the schema and its electrical characteristics.

-Select items from catalogs. -Draw the distribution croquis of elements by rationalizing their location. -Select the tools and equipment necessary for the assembly to be carried out. -Mechanizing the mounting plates and fastening means, among others, in the conditions of established quality and safety. -Mount the control equipment and the protective and maneuvering elements according to the manufacturer's instructions. -To link the different elements according to the manufacturer's instructions, ensuring the reliability of the connections and achieving the appropriate aesthetics. -Introduce the program, and parameters in the control element according to the given specifications and the manufacturer's manual using the appropriate means. -Check the established sequence and operating conditions. -To draw up a report on the activities carried out and the results obtained.

C3: Mounting automated installations and electric automatisms.

CE3.1 In a mounting of an automated installation with several application areas and an electric automatism, from the technical documentation. -Identify the spaces by which the installation will run and the elements that compose it (pipes, wiring, sensors and actuators, among others).

-Detect the possible mounting difficulties in the areas where the pipes are running, or the location of sensors and actuators, interpreting the plans of the house and proposing solutions to solve these problems. contingencies. -Select the elements and materials to be used (cabinets, tables, sensors and actuators, among others) on commercial catalogues and warehouse. -Use the tools, measuring instruments and protective equipment necessary for the activity to be performed.

CE3.2 In a mounting of an automated installation, with several application areas and an electric automatism, from the technical documentation.

-Mounting pipes and pipes by applying the right techniques in each case and getting the right aesthetics.

-Tender the wiring in the pipes without any of its characteristics, avoiding the cross and labeling it in an unmistakable way. -Mount the cabinets, tables, sensors and actuators, among others, following the manufacturer's instructions and achieving the appropriate aesthetics. -To connect the cabinets, tables, sensors, actuators and auxiliary modules, among others, ensuring the reliability of the connections and achieving the appropriate aesthetics. -Use the equipment and means of safety in the interventions to be carried out.

CE3.3 In a mounting of an automated installation, with several application areas and an electric automatism, from the technical documentation.

-Enter the slogan values (operating parameters) into the control element according to the functional specifications of the installation.

-Verify that the operation of the installation responds to the control program and the given specifications for each subsystem of the installation. -Report of the activities developed and results obtained, structuring it in an appropriate way.

C4: Repair breakdowns in automated installations and electric automatisms.

CE4.1 Relating the characteristics of typical breakdowns of automated installations with the element involved in the dysfunction.

CE4.2 Relate the characteristics of the typical breakdowns of the electrical automatisms with the element involved in the dysfunction. CE4.3 In the diagnosis, location and repair of actual or caused breakdowns in an automated installation or an electric automatism: (simulated or constructed at scale):

-Indicate the process used for the diagnosis and location of the type breakdowns.

-Relate specific techniques and media with the type of fault. -Identify the symptoms of the breakdown by relating it to the effects it produces in the installation. -To draw up an intervention plan for the detection of the cause or causes of the breakdown. -Diagnose the cause of the breakdown by performing the necessary tests and measures and interpreting the results according to the documentation of the same. -To locate the element or component causing the breakdown, applying the required procedures. -Restituir the operating conditions, replacing the damaged element or acting on the control program, applying the required procedures. -To draw up a report on the activities carried out and the results obtained. -To prepare a budget taking into account the prices of materials obtained from commercial catalogues, estimate of time to be used and the taxes of application.

Capabilities to be acquired in a real working environment: C3 with respect to CE3.1, CE3.2 and CE3.3; C4 with respect to CE4.3.

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Automated electro-technical installations: Domotic installations in dwellings: Application areas: technical management of energy, comfort and safety, among others. Control architectures: centralized and distributed. Elements that make up the installations: sensors, actuators, control devices and auxiliary elements. Types and characteristics. Communication systems (Bus to two threads and carrier currents, among others). Types and characteristics.

Automatic installations: Typical applications: automatic doors and engine start-up, among others. Types of sensors. Features and applications. Actuators: relays, solenoids, electric motors, electrovalves. Power control: start of engines (single-phase and three-phase engines, among others). Protection against short circuits and overloads. Electronic speed starters and variators.

2. Representation and symbology of automated electrotechnical installations:

Representation Conventions. Standardized symbology in domotic and automatist installations.

Standard and Standard Electrical Schemes. Typology. Interpretation of electrical schemes of domotic installations, automatisms and building plans. Regulation and regulation.

3. Measurement in automated electrotechnical installations:

Fundamental relationships between electrical magnitudes.

Electrical magnitudes in: voltage, intensity, resistance and continuity, power and insulation, among others. Transduction of the main physical quantities (temperature, pressure, speed and lighting, among others). Measuring instruments: Typology and characteristics. Connection procedures. Measurement processes. Regulatory measures.

4. Assembly of automated electrotechnical installations:

Site and assembly of elements of domotic installations in dwellings according to the area of application: Armen and electrical boxes, sensors and detectors, communications buses, control elements and actuators, between others. Assembly of the automatisms installations. Circuits of force. Control circuits.

Preparation, machining, and execution of: frames or envelopes, pipes, cables, terminals, and connections. Means and equipment. Programming of the control elements. Safety equipment and equipment. Prevention of accidents. Electrical safety regulations. Regulation and regulation.

5. Maintenance and repair of automated electrotechnical installations:

Type breakdowns in automated installations. Symptoms and effects.

Type breakdowns in automatisms installations. Symptoms and effects. Diagnosis and location of breakdowns (tests, measures, procedures and safety elements) in domotic installations in homes and automatisms installations. Repair of breakdowns. Protection and security measures.

6. Installation documentation:

Technical memory, installation certificate, general instructions for use and maintenance, among others.

Reporting.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of automated electrotechnical installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Form 4: Assembly and maintenance of low voltage overhead power grids

Level: 2.

Code: MF0823_2. Associated with the UC: Mount and maintain low voltage overhead power grids. Duration: 120 hours. Assessment capabilities and criteria:

C1: Identify the parts that make up the aerial networks on supports and on electric distribution facades in low voltage, analyzing the specific characteristics and the implementing regulations. CE1.1 From a structure of an aerial network on supports and on a facade, characterized by plans:-To indicate the parts of the net.

-Name the elements (electrical, cable fasteners, fittings, supports, among others) that intervene, indicating their function and characteristics. -Relate the symbols or representation to the real element (or in catalogue or photograph). -To compare the normative aspects (distances, lands, location, crosses, proximities and parallels, among others) applied in the plans with those that result from the application of the reference regulations.

CE1.2 Classifying the types of elements of low voltage networks based on their application, location and operation:

-Supports.

-Armed. -Drivers. -Herrages. -Insulators. -Posters and claws, among others.

CE1.3 From the technical documentation of an aerial network on supports and on the front of low voltage electrical distribution:

-Identify facilities that affect the network and verify that the rules on cross-over, parallelism, and proximities are met.

-Verify the application of the regulations in the development of the network. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation.

C2: Perform the assembly of an aerial network installation on supports and on low voltage facade from the technical documentation.

CE2.1 From the technical documentation or project of assembly of an aerial network on supports and on facade, duly characterized:-List the phases of assembly indicating the elements, materials, technical means, auxiliaries and necessary security.

-Indicate the previous permissions and actions that are required in each phase by relating each of them to the institution or entity involved and the application procedure involved. -To detect possible difficulties in assembling the areas in which the networks are running and to indicate possible solutions to be adopted.

CE2.2 From the technical documentation or project of assembly of an aerial network on supports and on facade, duly characterized, describe the technical and technical means and protection necessary for:

-The foundation and concrete of the supports.

-In the assembly of the supports involved. -The hoisting, fastening and levelling of the supports. -The laying and securing of the cables.

CE2.3 In a network of a line of low voltage to braided cable scale, which runs on supports and on facades, using the procedure, the appropriate tools and means of protection and security, perform the following operations:

-The laying and mooring (stapling or retention) of the cables in the insulators in the supports.

-The placement and attachment of the elements, supports, and cables on the wall or facade. -The splice between drivers. -The tensioning of the cable by getting the specified arrow.

CE2.4 In an assumption of putting in service of a low voltage air network:

-Relate the steps to follow with the documents or technical means, auxiliaries, permits, among others. and materials used in each of them.

-Indicate the characteristic measures and the parameters to be controlled, indicating the measuring devices to be used and the measurement procedure.

C3: Perform the repair and maintenance of a low voltage distribution network installation from the technical documentation.

CE3.1 In an event of an operation or maintenance intervention in an installation, indicate the steps to be taken to take into account:-The safety rules to be applied.

-The procedures to use.

CE3.2 In the scale installation of a low voltage line with braided cable, using the appropriate procedure, tools and protection and security means, perform the following operations:

Replacing the elements of the installation.

Replacement of insulators. Simulation of connecting and disconnecting the line to another network or transformation centers.

CE3.3 In the diagnosis and location of breakdown assumptions in low voltage networks with braided cable:

-Interpret the symptoms of the fault by relating it to the elements of the installation.

-hypothesize the possible causes of the breakdown by describing the relationship between the effects described and the causes of the damage. -Make an intervention plan for the detection of the cause or causes of the breakdown. -indicate the tests, measures and checks to be carried out, specifying the procedures and technical and security means to be used. -In the installation at the scale of a low voltage line, perform the procedure for diagnosing elements of the installation. -to draw up a report on the activities carried out and the results obtained.

Capabilities whose acquisition must be completed in a real working environment: C2 with respect to CE2.3 and CE2.4; C3 with respect to CE3.2 and CE3.3.

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations. Properly execute the instructions you receive taking responsibility for the work you develop, communicating effectively with the right person at any time.

Show an attitude of respect towards colleagues, procedures and company rules.

Contents:

1. Low voltage distribution overhead power grids: Distribution of electrical energy. Typology and structure of networks.

Elements of the distribution networks. Types and characteristics of the supports: Wood. Metal. Concrete. Glass fibre. Types and characteristics of drivers: Tired tables. Cables posed. Fastening accessories: On posts. On facades. Insulators. Symbology used in low voltage electrical networks: interpretation of plans.

2. Mounting of low voltage distribution overhead power grid installations:

Network Mount Phases: Network Repose: Normalization, proximities, and parallels. Opening of streets and holes. Operations for the hoisting and aplomb of supports. Operations for foundation and concrete support. Operations for the placement of posters. Assembly of the conductors: Tired and tensioned; techniques of connection and splicing; putting into service.

Features. Tools, measuring instruments and auxiliary technical means. Personal and equipment security features. Electrical and safety regulations. Permits and procedures for unloading.

3. Repair and maintenance of low voltage distribution power grid installations:

Typical breakdowns.

Diagnostic techniques: tests, measures, procedures, and security elements. Types of Maintenance: Predictive Maintenance. Preventive maintenance: established procedures. Replacing elements according to their average life. Corrective maintenance (repair).

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-160 m2 electrical network facilities workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of low voltage power grids, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 5: Mount and Maintenance of Low-Voltage Underground Electrical Grids

Level: 2.

Code: MF0824_2. Associated with the UC: Mount and maintain low voltage underground electrical networks. Duration: 120 hours. Assessment capabilities and criteria:

C1: Identify the parts that make up the underground electrical distribution networks in low voltage, analyzing the specific characteristics and the application regulations. CE1.1 From a structure of an underground network of low tension buried, buried and in galleries, characterized by plans:-To indicate the parts of the net.

-Name the elements (electrical, cables, trays, supports, ditches, archets, signaling, among others) that intervene indicating their function and characteristics. -Relate the symbols or representation to the real element (or in catalogue or in photography). -To compare the normative aspects (dimensions of ditches, location, crosses, proximity, among others), applied in the plans with those that result from the application of the reference regulations.

CE1.2 Classify the types of elements of underground underground networks buried, buried and in galleries according to their application, location and operation:

-Drivers.

-Zannas and archets. -Galleries and supports or fasteners of the drivers. -Mechanical and signalling protection. -Terminals and splices. -Elements of protection and maneuver. -Tom of land.

CE1.3 From the technical documentation of an underground electrical distribution network of low voltage:

-Identify facilities that affect the network and verify that the rules on cross-and close-proximity are met.

-Indicate the electrical and mechanical senalisations and protection provided by the trench in the various pavements. -To verify the application of the regulations in the development of the network. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or parts of the installation.

C2: Perform the installation of underground distribution networks of low tension buried, buried and in galleries from the technical documentation.

CE2.1 From the technical documentation or project of assembly of an underground network of low tension, duly characterized:-List the phases of assembly indicating the elements, materials, technical, auxiliary and necessary security.

-Indicate the previous permissions and actions that are required in each phase by relating each of them to the institution or entity involved and the application procedure involved. -To detect possible difficulties in assembling the areas in which the networks are running and to indicate possible solutions to be adopted. -describe the technical and personal protection techniques and means necessary for: opening of ditches; the seat of cables and the assembly of tubes in ditches; the placement of tubes or trays and cables; cables; The identification of the cables.

CE2.2 In the scale installation of a low-voltage underground line, using the appropriate procedure, tools and protection and security means, perform the following operations:

-The laying of cables (pipes, archets, and trays).

-The splice between drivers. -The identification and marking of the cables.

CE2.3 In an assumption of putting in service of a low voltage underground installation:

-Relate the steps to be followed with the documents or technical means, auxiliaries, permits and materials used in each of them.

-Indicate the characteristic measures and the parameters to be controlled, the measuring devices to be used and the measurement procedure.

C3: Perform the repair and maintenance of a low voltage distribution underground network installation from the technical documentation.

CE3.1 In an event of an operation or maintenance intervention in an installation:-Indicate the steps to be taken to take into account the safety standards to be applied.

-The procedures to use.

CE3.2 In the diagnosis and location of failure assumptions of a low voltage underground line, perform the following operations:

-Interpret the symptoms of the fault by relating it to the elements of the installation.

-hypothesize the possible causes of the breakdown by describing the relationship between the effects described and the causes of the damage. -Make an intervention plan for the detection of the cause or causes of the breakdown.

CE3.3 In the diagnosis and location of failure assumptions of a low voltage underground line, perform the following operations:

-Indicate the tests, measures and checks to be carried out, specifying the procedures and technical and security means to be used.

-In the scale installation of a low voltage line, perform the procedure for the diagnosis of faults, using the appropriate procedure, tools, protection and safety means. -Simulation of connection and disconnection of the line to another network or center of transformation. -to draw up a report on the activities carried out and the results obtained.

Capabilities whose acquisition must be completed in a real working environment: C2 with respect to CE2.2; C3 with respect to CE3.2 and CE3.3.

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents: 1. Underground electrical networks: Distribution of electrical energy.

Typology. Structure of power grids. Elements of the underground distribution networks. Types and characteristics of the facilities. Directly buried. Casing. In galleries. In sunsets. Types and characteristics of drivers. Isolation. Mechanical resistance. Corrosion resistance. Elements of protection, signalling and manoeuvring. Takes of land. Electrical network symbology: interpretation of plans.

2. Low voltage underground electrical network assembly:

Network Mount Phases.

Repose of the network. Opening of ditches, archets and canals, among others. Required permissions. Preparation of the bed. Formwork and construction. Elements of attachment and support. Rollers. Seats. Trays. Herrages. Tube placement. Laying of the wiring. Marking and grouping of wiring. Driver connection. Protections and signalisations. Testing of the installation. Putting into service of the network. Download from the network. Authorisations. Tests and checks. Regulations and security features. Specific rules.

3. Repair and maintenance of low voltage power grids:

Type breakdowns.

Diagnostic techniques: tests, measures, procedures, and security elements. Predictive maintenance: Visual inspection, predictive techniques. Preventive maintenance. Established procedures. Replacement of scheduled items. Repair of breakdowns. Download from the network. Protection, signalling and safety measures. Checks and tests. Network reset. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrical network installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of low voltage underground electrical networks, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 6: Assembly and maintenance of electrical machines

Level: 2.

Code: MF0825_2. Associated with UC: Mount and maintain electric machines. Duration: 120 hours. Assessment capabilities and criteria:

C1: Identify the parts that make up the rotary and transformer electrical machines by describing their main features and functionality. CE1.1 To classify the types of rotary electric machines (dinamos, alternators, continuous current motors, AC motors) depending on their application and operation.

CE1.2 Classify the types of transformers (single-phase, three-phase, self-transformers, among others) according to their application and operation. CE1.3 Identify the elements that make up the rotating electrical machines and transformers from schematic drawings, images or videos indicating their functionality. CE1.4 Identify the elements that make up the rotating electrical machines and transformers from the corresponding cutting points indicating their functionality.

C2: Build monofasic and three-phase transformers with small power from given specifications.

CE2.1 Describe the general process, the techniques and the specific means used for the construction of monofasic and three-phase transformers.

CE2.2 Describe the fundamental characteristics and parameters (number of turns per volt, transformation ratio, short circuit voltage, type of connection, among others) of the monofasic and three-phase transformers. CE2.3 In a practical case of building a low-power three-phase transformer:

-Interpret the technical documentation (drawings, schemas, material list) corresponding to the transformer, relating the symbols and graphical representations with the elements and procedures to be used.

-Copy the materials necessary for the construction of the transformer, following the specifications of the technical documentation. -To choose the tools and means of production necessary for the construction of the transformer. -To carry out the plan of assembly of the transformer, taking into account the constructive characteristics of the transformer and the availability of means and materials. -Perform the construction of magnetic cores and coils with documented characteristics and applying standard procedures. -To carry out the assembly of coils and magnetic nuclei according to the plans and construction drawings, respecting the norms of personal safety and the means and materials used. -To make terminals and terminals according to the technical documentation of the transformer. -To respect the rules of personal safety and the means and materials used. -To carry out standard tests for the testing of transformers using the appropriate instruments and means and to collect the data obtained in the relevant document.

C3: Perform assembly and coupling operations of rotary electric machines from given specifications.

CE3.1 In a case of assembly of a rotating electrical machine describe the techniques, tools and technical and personal protection means necessary for:-The assembly and coupling of different types of machines according to its different types of fixation and the characteristics of the medium in which the machine will develop its work.

-The mounting of guards and other mechanical protection elements of the machine.

CE3.2 In a practical case of dismounting and mounting a rotating electrical machine:

-Perform the cutting of the machine according to the given procedure.

-Assemble the constituent elements of the machine according to the given procedure. -Verify the correct layout of the constituent elements of the electrical machine. -Check the correct operation of the assembled machine.

CE3.3 In a practical case of installing rotary electric machines, using the appropriate procedure, tools and protection and security means, perform the following operations:

-The mechanical fixing of the machine according to its type of fixation and the means in which it will be installed (floor, cabinet, rack, among others).

-The mounting and fixing of guards and mechanical protection elements of the machines.

CE3.4 In a practical case of connecting a rotating electrical machine from schemas:

-Interpret the technical documentation (drawings, schemas, list of materials) corresponding to the machine to be connected, relating the symbols and graphical representations with the elements and procedures that are use.

-Prepare the terminals and make the connections according to the technical documentation, applying standard procedures. -Verify that the results obtained are in accordance with the parameters indicated in the plate of characteristics of the machine or, where appropriate, the specified characteristics.

C4: Diagnose breakdowns in rotary and transformer electrical machines and perform the necessary operations for the maintenance of the same, acting under personal safety standards and the materials used.

CE4.1 Explain the typology and characteristics of typical breakdowns that occur in rotary and transformer electrical machines and specify the elements responsible for them.

CE4.2 Describe the general and systematic process used for the diagnosis and repair of breakdowns in rotary and transformer electrical machines. CE4.3 Describe the general techniques and the specific means (test lamp, compass, among others) used for the location of typical breakdowns in rotary and transformer electrical machines. CE4.4 List and describe the types of standard tests that are performed after the repair of the rotary and transformer electrical machines, indicating the main magnitudes and parameters to be controlled. CE4.5 In a practical case of repair of faults, simulated or real, in an engine and in an electrical generator:

-Identify the symptoms of the breakdown by characterizing it for the effects detected on the machine, carrying out the appropriate tests and operations.

-Make a hypothesis of the possible cause of the breakdown, explaining the relationship between the effects detected and the possible proposed cause. -Make an intervention plan for the detection of the possible cause of the breakdown. -Dismount the machine, using the appropriate tools and performing the drawings and operations necessary for the subsequent assembly. -Specify the machining and adjustment operations to be carried out on the mechanical elements (axes, collectors, among others) of the electrical machine. -Get the scheme of the machine winding, identifying the type and characteristics of the machine. -Carry out the machine's coils, using the necessary means and materials (winders, moulds, yarns, varnishes, among others) following the standard procedures. -Verify the characteristic parameters of the coils (continuity, isolation, among others), and make the marking of terminals. -Mount the coils in the magnetic core and make the appropriate connections. -Replace the damaged mechanical elements and out of tolerance. -Perform the assembly of the machine using appropriate means and tools. -To carry out the standard tests, using the appropriate instruments and machines, collecting the data obtained in the relevant document. -Verify that the results obtained are in accordance with the parameters indicated in the plate of characteristics of the machine or, where appropriate, the specified characteristics. -to draw up a report on the activities carried out and the results obtained by structuring them into the necessary sections for appropriate documentation (description of the process followed, means used, schemes and plans used, calculations, measures, among others).

Capabilities to be acquired in a real working environment: C2 with respect to CE2.3; C3 with respect to CE3.1, CE3.2, CE3.3 and CE3.4; C4 with respect to CE4.5.

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Transformers: Principles. Classification. Typology.

Characteristic values (transformation ratio, powers, short circuit voltage, among others). Nameplate. Drawings and drawings of transformers. Symbology. Functional and constructive characteristics (windings, magnetic circuit, among others), of the monofasic and three-phase transformers. Calculation and design of small power transformers. Monofasics and trifasics. Tables, charts, and application software. Assembly and connection characteristics of a transformer. Operations necessary for the construction of small monofasic and three-phase transformers. Tools and equipment. Standardised tests applied to transformers. Regulations. Techniques used. Tools and equipment. Transformer maintenance techniques. IT tools applied to maintenance. Diagnosis and repair of transformers. Troubleshooting techniques. Tools used. Typical reports used in the maintenance of transformers. Documentation used. Safety standards used in the construction and maintenance of transformers.

2. Rotary electric machines of continuous current (DC) and alternating current (AC): generators and motors:

Principles. Classification. Typology. Application.

Characteristic values (power, voltage, speed, performance, among others). Nameplate. Characteristic curves of the electric machines of DC and AC. Schemes and plans of electric machines. Symbology. Designation of bornes. Key parts. Fixed and mobile elements. Mechanical assemblies. Constructive characteristics. Change of conditions in the electrical machines of DC and AC. Calculation and design of DC and AC electrical machines. Tables, charts, and application software. Assembly and disassembly processes for DC and AC power machines. Tools and equipment. Standardised tests of DC and AC power machines. Regulations. Techniques used. Tools and equipment. Maintenance techniques for DC and AC power machines. IT tools applied to maintenance. Diagnosis and repair of DC and AC power machines for the location of faults. Tools used. Typical reports used in the maintenance of DC and AC electrical machines. Documentation used. Safety standards used in the construction and maintenance of DC and AC power machines.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 electrotechnical installations workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly and maintenance of electrical machines, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other related higher level with this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLVIII

Professional qualification: Development of telecommunication and voice network infrastructure projects and data in the building environment

Professional Family: Electricity & Electronics

Level: 3. Code: ELE258_3.

General competition:

Develop projects for the reception and distribution of radio and television signals, telephony facilities and voice and data networks in the building environment from a preliminary draft or conditions, according to the specifications, standards and procedures, ensuring the quality and safety of the facilities.

Competition Units:

UC0826_3: Develop telecommunication facility projects for the reception and distribution of radio and television signals in the building environment.

UC0827_3: Develop telephony facility projects in the building environment. UC0828_3: Develop voice and data network infrastructure projects in the building environment.

Professional environment:

Professional scope: Develop your professional activity in small and medium-sized companies, mostly private, integrating into the technical office in the areas of development of telecommunication facilities for the the reception and distribution of radio and television signals, telephone facilities and infrastructure for voice and data networks in the building environment, either on a self-employed or an employed basis, the activity being regulated by the rules of the Common Telecommunications Infrastructure.

Productive Sectors:

It is located in the sectors: Development of projects of telecommunication facilities for the reception of radio and television signals in the environment of buildings. Development of internal communication facilities. Development of telephone facilities. Development of voice and data network facilities.

Relevant Occupations and Jobs:

Electrotechnical Projector.

Projecting on singular installations (antennas, telephony, interphony, public address, security and solar photovoltaic) for housing and buildings. Technical in electrotechnical projects.

Associated training: (480 hours). Training Modules:

MF0826_3: Development of telecommunication facilities projects for the reception and distribution of radio and television signals in the building environment (180 hours).

MF0827_3: Development of telephony facility projects in the building environment (120 hours). MF0828_3: Development of voice and data network projects in the building environment (180 hours).

Competition Unit 1: Develop telecommunications facility projects for the reception and distribution of radio and television signals in the building environment

Level: 3.

Code: UC0826_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of the equipment, elements and materials of the telecommunication facilities used in the reception and distribution of radio and television signals in the the setting of buildings from previous design conditions and criteria, complying with the implementing regulations.

CR1.1 The general framework of the infrastructure projected for the building is completed and collected the archets, the enclosures (lower, upper or unique), records (secondary, of link, among others) in each vertical, points of access and terminal access bases and take into account the characteristics of the layout, type of building or local, type of installation of sound broadcasting (terrestrial TV, satellite and cable), among others, necessary for the configuration of the installation. CR1.2 The facilities of the services that constitute the Common Infrastructure of Telecommunications (in the basement or garage, in ground floor, in plant type, among others), are collected in the descriptive sketches. CR1.3 The drawings or schemes of principle of the installation collect the elements of the collection of signals, the active elements (single-channel and broadband amplifiers, among others), the passive elements (mixers and distributors, among others), the distribution of the wiring and points of access to the user, among others, with its identification and acotation in meters and the detailed schemes collect the configuration of the headers, the specific connections, the particular solutions of the laying of pipes and cables, among others. CR1.4 The installation is designed and dimensioned (site selection and antenna parameters, frequency plan, number of sockets, amplifiers, wrappers/distributors, mixers, user access points, among others), It also includes the provision of services for the use of the building (housing, offices, commercial premises, among others), the predominant activity class, the extension and the provision of satellite signals. CR1.5 The calculations of the basic parameters of the installation (signal levels in user takes for the best and worst case, attenuation at various frequency, amplitude/frequency response, signal/noise ratio, intermodulation, among others) complete or perform, using established tables, software and calculation procedures. CR1.6 The calculations of the supports (masts, turrets, among others) for the antennas at the corresponding location, are completed or realized taking into account the force of the wind and the vertical efforts, among others, and fulfilling the regulations and enforcement ordinances, using tables, software and established procedures. CR1.7 The location of the components of the installation (antennas, supports, masts, amplifiers, distributors, mixers, among others) is determined to optimize the use of the available spaces and allows the maintenance. CR1.8 The earth network and the electrical equipment of the telecommunications enclosures are configured according to the current electrotechnical regulations. CR1.9 The specification report accurately collects all the data necessary for the processing of the project's memory and specification: the purpose, location, frequency plan, functional characteristics and techniques, as well as the equipment and elements, among others, of the installation.

RP2: Select the equipment, elements and materials of the telecommunication facilities used in the reception and distribution of television and radio signals in the building environment, based on the specifications and complying with the implementing regulations.

CR2.1 Equipment (amplifiers, modulators, mixers, among others), elements (supports, anchorages, user sockets, antennas, masts, among others), wiring and materials, are selected according to the approval rules of the sector and the company's internal market.

CR2.2 The model and range of the equipment, conductors and elements of the installation are selected in compliance with the required function. CR2.3 The parameters for selecting the elements of the installation correspond to the technical specifications and features of the assembly. CR2.4 The choice of equipment, elements and wiring of the installation is performed by combining the guarantees of "interchangeability" (compatibility), supply and costs. CR2.5 The equipment, wiring and elements of the installation are uniquely identified with all the brand references, model, among others, of the manufacturer. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and allows you to draw up the memory, specifications, budgets and the basic safety study.

RP3: Develop general layout plans, principle schemes and electrical schemes of the facilities from the sketches and developed schemes, with the required quality.

CR3.1 The representation of the plans and plans of the installation is performed:-With the symbology and standard conventionalisms of application and, if necessary, applying the internal rules of the company.

-Identifying the different telecommunications installations and their components. -Using the system of representation and the scale most appropriate to the contents.

CR3.2 The location of the building is collected in the situation plan indicating the type and name of the road, municipality and geographical coordinates, among others.

CR3.3 The graphical layout of the representation of the elements, their groupings and the systems of reference and coding in the different planes is carried out allowing to know the relations established between them, the characteristic values in each circuit and the specifications of equipment and constituent elements of the installation. CR3.4 The location, layout, dimensions and technical specifications of the equipment, conductors and wiring, among others, defined in the descriptive plans and the schemes of principle of the installation is carried out taking into account the requirements of security and complying with the regulations and ordinances of implementation. CR3.5 The details of the installation details of the installations, equipment and elements are made indicating the encounters and steps of the buildings and elements of construction, changes of position, crosses and derivations in the layout of the telecommunications facilities. CR3.6 The general, cross-section, and principle, connection and assembly plans are carried out in compliance with the current regulations, specifications and design criteria, with the established quality standards. CR3.7 The test protocol, depending on the calculations, is met in the defined implementation. CR3.8 The current regulations concerning the safety of persons, equipment and installations are met in the defined implementation. CR3.9 The general listing of equipment, elements of the installation and means of security, is updated in the case of variations.

RP4: Determine the costs of telecommunication facilities used in the reception and distribution of television and radio signals in the buildings environment, defining the units of work and the quantities of each of the They shall apply, using established unit prices, from the technical documentation of the project.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures, determining:-The elements that compose it.

-The quantities of each of them. -The measurements with their units. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 The units of work are in accordance with the technical specifications of the project and the specifications.

CR4.3 The set of work units is calculated by contemplating all the jobs to be performed and includes all the materials used. CR4.4 The measurements obtained are specified in the corresponding document with the required precision and are located with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of the budget.

RP5: Develop technical specifications of characteristics, tests and trials of reception of the equipment, elements and telecommunication facilities used in the reception and distribution of radio and television signals in the environment of the buildings.

CR5.1 The technical specifications for the supply of materials, products and equipment, correctly define their characteristics, standards, regulations and approvals of construction, quality and safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The storage and handling conditions for the installation of equipment and installation elements are extracted from the manufacturer's information. CR5.3 The reception conditions and the testing protocol of the installation are clearly specified in the relevant documentation. CR5.4 Project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction manual and maintenance of telecommunication facilities for the reception of radio and television signals in the building environment. CR6.1 The service instruction manual is prepared by specifying the conditions of use, operation and safety, for the community and users as well as the actions to be followed in case of failure or emergency.

CR6.2 The maintenance manual is made by specifying the inspection points for the maintenance, parameters to be checked, operations to be performed, means used and periodicity of the actions.

RP7: Develop the basic safety and health study for the execution of the telecommunication facilities used in the reception and distribution of television and radio signals in the buildings environment.

CR7.1 The risk factors associated with the operations (material transport, assembly of masts and turrets, among others) of the execution of the installation are precisely identified.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production means: Computer equipment and applications for the design of common telecommunications infrastructure facilities, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for the calculation and simulation of telecommunication facilities.

Products and results:

Project plans of telecommunication facilities used in the reception and distribution of TV and radio signals. Report of Equipment and Materials Specifications. Costs of installations. Manual of use. Maintenance manuals. Basic safety and health study.

Information used or generated:

Documentation for Telecom Common Infrastructure Projects. Manuals of the different teams. Product catalogues. Electrotechnical Low-Tension Regulation (REBT). Rules on lightning rods. Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT). Regulations on the prevention of occupational risks. Regulations on electromagnetic compatibility. General Plans. Schemes of principle. Drawings of detail. Report of Equipment and Materials Specifications. Units of work. Costs of installations. Technical specifications for the testing and testing of TV and radio installations. Maintenance manuals for TV and radio installations.

Competition Unit 2: Develop telephony facility projects in the building environment

Level: 3.

Code: UC0827_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes, and determine the characteristics of the equipment, elements and materials of the telephony facilities in the building environment based on previous design conditions and criteria, complying with the the implementing regulations. CR1.1 The general outline, principle and detail of the infrastructure projected for the building are completed and collected:-the archets, the enclosures (lower, upper or unique), registers (secondary, linking, among others) in each vertical, access points and terminal access bases, among others, required for installation configuration.

-The assignment of cables by plant and housing, the wiring, reglettes and access points to the user identified in relation to the project, the points of access to the user with connections in meters, among others. -Specific connections and the particular solutions of the laying of pipes and cables.

CR1.2 The design and sizing of the network (number and type of cables, number of pairs, user access, or other) takes into account the forecast of the demand based on the use of the building (housing, offices, premises In the case of the Commission, the Commission has taken the necessary measures to ensure that the Commission is not in a position to take action.

CR1.3 Installation configuration is performed taking into account the type of installation: RTB, ISDN, cable, radio, among others and the number of access points, the type of the building or local, the characteristics of the layout, and accessibility, among others. CR1.4 The calculations of the basic parameters (continuity, ohmic resistance, retrodiffusion and dispersion tests, among others) are performed using tables, computer programs and established calculation procedures. CR1.5 The characteristics of the equipment (centralites, telephone terminals, automatic doormen, radio unit, among others) and elements are required for the operation of the installation and respond to the requirements of the assembly. CR1.6 The installation of the installation components (cabinets, boxes, pipes, among others) makes it possible to optimize the use of the available spaces and provides for the regulations in force. CR1.7 The installation's land network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations. CR1.8 The sketches and schemas accurately collect all the information for the subsequent elaboration of the plans of the installation and the memory. CR1.9 The specification report accurately collects all the data necessary for the processing of the project's memory and specification: the purpose, location, allocation of the pairs, the functional and technical characteristics, as well as the equipment and elements, among others, of the installation.

RP2: Select the equipment, elements, and materials of the telephony facilities in the building environment from the specifications report and in compliance with the implementing regulations.

CR2.1 The selected equipment, elements and materials (centralites, radio units, SAI's, terminals, wiring, drives, antennas, among others) respond to the company's internal and sector approval rules.

CR2.2 The model and range of electrical equipment, conductors and accessories meets the required function. CR2.3 The choice of equipment, elements and types of cables is achieved by combining the guarantees of "interchangeability" (compatibility), supply and costs. CR2.4 The equipment, wiring and elements, among others, of the installation are uniquely identified with all the brand references, model, among others, of the manufacturer. CR2.5 The parameters for the selection of the elements of the installation correspond to the technical specifications, characteristics of the assembly and comply with the current regulations. CR2.6 The choice of equipment, elements and wiring of the installation is achieved by combining the guarantees of "interchangeability" (compatibility), supply and costs. CR2.7 The general listing of equipment, elements of the installation and safety means with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and allows the production of budgets, memory, specifications and the basic safety study.

RP3: Elaborate plans of general layout, location and schemes of telephone facilities in the environment of buildings from the sketches and developed schemes, with the required quality.

CR3.1 The representation of the plans and plans of the installation is performed:-With the symbology and standard conventionalisms of application and, if necessary, applying the internal rules of the company.

-Identifying the different telecommunications installations and their components. -Using the system of representation and the scale most appropriate to the contents.

CR3.2 The location of the building is collected in the situation plan indicating type and name of the road, municipality and geographical coordinates, among others.

CR3.3 The graphical layout of the representation of the elements in the schemes of principle, their groupings and the reference and coding systems is realized by allowing to know the relationships established between them, the characteristic values in each circuit and the specifications of equipment and constituent elements of the installation. CR3.4 The location, layout, dimensions and technical specifications of the enclosures, registers, equipment, conductors and wiring, points of access to the user, among others, defined in the descriptive plans and schemes of principle of the installation is done taking into account the safety requirements and complying with the regulations and application ordinances. CR3.5 The details of the installation details of the installations, equipment and elements are made indicating the encounters and steps of the buildings and elements of construction, changes of position, crosses and derivations in the layout of the telecommunications facilities. CR3.6 The general, descriptive, cross-section and principle, connection and assembly plans are carried out in compliance with the current regulations, specifications and design criteria, with the quality levels established. CR3.7 The test protocol, depending on the calculations, is met in the defined implementation. CR3.8 The current regulations concerning the safety of persons, equipment and installations are met in the defined implementation. CR3.9 The general listing of equipment, elements of the installation and means of safety is updated in the event of variations.

RP4: Determine costs of telephony facilities in the building environment by defining the units of work and the quantities of each of them, applying established scales and unit prices, from the technical documentation of the project.

CR4.1 Established units of work are broken down to obtain their cost by applying established procedures, determining:

-The elements that compose it.

-The quantities of each of them. -The measurements with their units. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 The units of work are in accordance with the technical specifications of the project and the specifications.

CR4.3 The set of work units is calculated by contemplating all the jobs to be performed and includes all the materials used. CR4.4 The measurements obtained are specified in the corresponding document with the required precision and are located with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of the budget.

RP5: Elaborate technical specifications of features, tests and trials of reception of the equipment, elements and materials of the telephone facilities in the building environment.

CR5.1 The technical specifications for the supply of materials, products and equipment, correctly define their characteristics, standards, regulations and approvals of construction, quality and safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The storage conditions and handling conditions for the installation of equipment and elements of the installation are extracted from the manufacturer's information. CR5.3 The reception conditions and the testing protocol of the installation are clearly specified in the relevant documentation. CR5.4 Project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction and maintenance manual for telephony facilities in the building environment.

CR6.1 The service instruction manual is made by specifying the conditions of use, operation and safety, for the community and users as well as the actions to be followed in the event of damage or damage. emergency.

CR6.2 The maintenance manual is elaborated by specifying the inspection points for the maintenance, parameters to be controlled, operations to be carried out, means used and periodicity of the performances.

RP7: Develop the basic safety and health study for the execution of the facilities of the telephone facilities in the building environment.

CR7.1 The risk factors associated with the operations (material transport, equipment assembly, among others) of installation execution are accurately identified.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production means: Computer equipment and applications for the design of common telecommunications infrastructure facilities, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator.

Products and results:

Telephony facility project plans. Report of Equipment and Materials Specifications. Costs of installations. Manual of use. Maintenance manuals. Basic safety and health study.

Information used or generated:

Documentation of projects carried out, Schemes and previous plans, Manuals of the different teams, Product Catalogues, Electrotechnical Low-Tension Regulation (REBT). Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT). Regulations on the prevention of occupational risks, Regulations on electromagnetic compatibility. General Plans. Functional planes. Drawings of detail. Report of Equipment and Materials Specifications. Units of work. Costs of telephone facilities. Technical specifications for the testing and testing of telephone installations. Programs for assembly of telephone facilities.

Competition Unit 3: Develop voice and data network infrastructure projects in the building environment

Level: 3.

Code: UC0828_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of the equipment, elements and materials of local data network installations, based on previous design conditions and criteria, implementing regulations. CR1.1 Functional, general and detail schemes are completed by collecting:-Canalizations, enclosures, registers and terminal access bases, among others.

-The signal capture elements (VSAT networks, LMDS, among others), the location and distribution of equipment in enclosures and "racks", the access hardwired, vertical and horizontal and the access points to the user with acotations in meters, among others. -Specific connections and the particular solutions of the laying of pipes and cables, among others.

CR1.2 In the design and sizing of the network (site of the equipment, servers, hubs, switches, routers, user access points, or others), account is taken of the forecast of the demand based on the use of the building (offices, commercial premises, industries), predominant activity class, point extensions and connection with other networks, among others.

CR1.3 In the configuration you consider the type of installation (cable, fiber, mixed, wireless, VSAT, or other), transmission speed, access points, the type of the building or local, the characteristics of the layout, accessibility, among others. CR1.4 The calculations of the magnitudes (attenuation, signal levels, among others) are performed using tables, software and established procedures. CR1.5 The characteristics of the equipment (servers, hubs, switches, routers, among others), and elements (anchorages, supports, masts, among others), are defined according to the requirements of the installation and respond to the requirements of the assembly. CR1.6 The location of the components of the installation (servers, hubs, switches, routers, among others), in the enclosures or cabinets of communications (racks) is defined by optimizing the available spaces, contemplating the current regulations and allowing maintenance. CR1.7 The installation ground network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations. CR1.8 The sketches and schemas accurately collect all the information for the subsequent elaboration of the plans of the installation. CR1.9 The specifications report accurately collects all the data necessary for the design of the project's memory: the purpose, location, drivers, the functional and technical characteristics, as well as the equipment and elements, among others, of the installation.

RP2: Select the equipment, elements, and materials of voice and data network installations from the specifications report and comply with the application regulations. CR2.1 The equipment (routers, switches, servers, among others), peripherals, wiring, access points and antennas for wireless networks and selected materials respond to the company's internal and sector approval rules.

CR2.2 The parameters for selecting the elements of the installation respond to the technical specifications and features of the assembly. CR2.3 The model and range of electrical equipment, conductors and accessories meets the required function. CR2.4 The choice of equipment, elements and wiring is achieved by combining the guarantees of "interchangeability" (compatibility), supply and costs. CR2.5 The equipment, wiring and elements, among others, of the installation are identified (labeled) in an unmistakable way with all the brand references, model among others, of the manufacturer. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and allows you to draw up the memory, specifications, budgets and the basic safety study.

RP3: Develop general layout plans, site and schema of voice and data network installations, with the required quality.

CR3.1 The representation of the installation plans, schemes, among others:-It is carried out with the symbology and standard conventionalisms of application and, where appropriate, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.2 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes, allows:

-Identify the relationships established between them

-Perform sequential monitoring of the operation of the installation. -Identify the equipment and the elements of the installation.

CR3.3 On the site, layout, dimensions and technical specifications of the equipment, user takes, conductors and wiring defined in the general plans of the installation are taken into account the safety standards and the regulations and rules of application.

CR3.4 The layout of the installation takes into account the characteristics and use of the buildings, where it is located and other types of installations. CR3.5 The installation details of the installations, equipment and its elements are carried out:

-Attending to the optimal disposal of the equipment in the racks.

-Indicating the connections of the distribution teams. -Indicating the encounters and steps of the buildings and elements of construction, changes of position, crosses and derivations in the layout of the nets. -Taking into account the anchorages, carrier and equipment supports, the conditions of the building or civil work of the environment and the regulations and ordinances of application.

CR3.6 The defined implementation complies with the current regulations regarding the safety of persons, equipment and facilities.

CR3.7 The connection and assembly planes meet the specifications and determined design criteria, achieving the established quality standards. CR3.8 The general listing of equipment, elements of the installation and means of safety is updated in the event of variations.

RP4: Determine the costs of voice and data network installations in the building environment by defining the work units and the quantities of each unit, applying established unit prices, based on the documentation project technique.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures, determining:-The elements that compose it.

-The quantities of each of them. -The measurements with their units. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 The units of work are in accordance with the technical specifications of the project and the specifications.

CR4.3 The set of work units is calculated by contemplating all the jobs to be performed and includes all the materials used. CR4.4 The measurements obtained are specified in the corresponding document with the required precision and are located with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of the budget.

RP5: Elaborate technical specifications of features, tests and trials of reception of equipment, elements and materials of voice and data network installations in the building environment.

CR5.1 The technical specifications for the supply of materials, products and equipment, correctly define their characteristics, standards, regulations and approvals of construction, quality and safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The storage conditions and handling conditions for the installation of equipment and elements of the installation are extracted from the manufacturer's information. CR5.3 The reception conditions (testing protocol) of the installation are clearly specified in the appropriate documentation. CR5.4 Project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction and maintenance manual for voice and data network installations in the building environment.

CR6.1 The service instruction manual is made by specifying the conditions of use, operation and safety, for the community and users as well as the actions to be followed in the event of damage or damage. emergency.

CR6.2 The maintenance manual is elaborated by specifying the inspection points for the maintenance, parameters to be controlled, operations to be carried out, means used and periodicity of the performances. RP7: Develop the basic safety and health study for the execution of voice and data network facilities in the building environment. CR7.1 The risk factors associated with the operations (transport of materials, assembly of equipment, among others) of the execution of the installation are precisely identified. CR7.2 The risks associated with risk factors are identified and the preventive measures as well as the protections to be used, both individual and collective, are indicated. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production Media: Computer and computer applications for design of voice and data network installations, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator.

Products and results:

Data network facility project plans. Report of Equipment and Materials Specifications. Local data network facility cost report. Maintenance manuals for voice and data network installations.

Information used or generated:

Project documentation done. Previous schemes and plans. Manuals of the different teams. Product catalogues. Electrotechnical Low-Tension Regulation (REBT). Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT). Regulations on the prevention of occupational risks. Regulations on electromagnetic compatibility. ISO standards. EEI/AIA standards. General Plans. Functional planes. Drawings of detail. Report of Equipment and Materials Specifications. Units of work. Costs of installations of local data networks. Technical specifications for the testing and testing of local data network installations.

Training module 1: Development of telecommunication facilities projects for the reception and distribution of radio and television signals in the building environment

Level: 3.

Code: MF0826_3.

Associated with UC: Develop telecommunication facility projects for the reception and distribution of radio and television signals in the building environment.

Duration: 180 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of reception and distribution facilities for radio and television signals to identify their components, relate them to each other and describe the operating parameters of the components and the the installation. CE1.1 Given an installation of reception and distribution of radio and television signals characterized by their plans and technical documentation:-Interpret the plans of the construction project, to identify, the n. of the plants, n. of the houses and the intended use of the building spaces.

-Identify their parts and elements, relating them to the symbols that appear on the planes. -Identify the spaces by which you run and relate the cotas that appear on the planes with reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network. -Describe the structure of the installation and the elements that make it up: Signup elements. Header Equipment. Network.

CE1.2 Analyze the elements of the collection systems, the header equipment and the distribution networks, dispersion and interior of the user, describing their function and technical characteristics.

CE1.3 Describe the technical characteristics of the wiring used in each of the networks from which the installation is composed. CE1.4 From the technical documentation of a reception and distribution installation of radio and television signals in the building environment characterized by their plans and technical memory:

-Verify the application of the regulations in the installation development.

-Develop hypotheses on the effects that would produce, on the operation of the installation, the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation installation.

C2: Develop the schemas and sketches of a radio and television signal reception and distribution facility in a given location by selecting the elements that compose it from a preliminary or conditions under and applying the rules.

CE2.1 From a preliminary draft of a reception and distribution installation of radio and television signals a given location:-Identify for its application the regulations affecting the layout of the installation (REBT, Regulation of common telecommunications infrastructure, municipal ordinances, inter alia).

-Draw on a plane at the corresponding scale the general layout of the installation. -Draw and complete the sketches of principle by collecting in them the description of the line layout, the areas of passage, the situation of the elements of civil work (enclosures, archets, registers, among others).

CE2.2 From the preliminary or given indications of a reception and distribution facility for radio and television signals in a building:

-Identify for your application the regulations that affect the layout of the network (REBT, ICT, municipal ordinances, among others).

-Draw and complete the general and principle schemas by collecting the line layout description, the step zones, the situation of the elements of the line, and the connection schemes. -Complete and calculate the basic parameters of the installation (technical characteristics of conductors, attenuation, signal levels, among others) guaranteeing the regulatory signal levels in the user takes. -Complete and perform the calculation of the mechanical and dimensional magnitudes (masts, supports, turrets, among others).

CE2.3 Select the equipment and elements of the installation from specific catalogs, responding to the characterization of the same.

CE2.4 Develop a list of the equipment, elements and materials sized, using the sector nomenclature and indicating quantities and location in the installation.

C3: Draw with a computer-aided design program the drawings and schemes of a reception and distribution facility for radio and television signals in buildings, starting from the sketches and schemes developed and general listing of equipment and elements of the installation.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Draw using the scale and the most appropriate representation system the plans (site, general, among others) with its views (cross-section and plants), corresponding cotas and complying with the current regulations. CE3.4 Graphically have the elements in the plans in a way that allows us to know the relationships established between them, the sequential monitoring of the operation of the installation and the presence of other installations. CE3.5 Draw using the most appropriate scale and system of representation the electrical and principle schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the drawings and detail schemes (head equipment, electrical equipment, elements of capture, anchorages, among others) of the installation, taking into account their specific constructive forms, dimensions and connections. C4: Determine the units of work and the cost of a reception and distribution facility for radio and television signals in buildings, from the project documentation and taking into account standard scales, or unit prices extracted from catalogues.

CE4.1 Identify the units of work indicating the elements that compose them, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, labor that intervenes and the time required for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work.

C5: Compose the manual of service instructions and maintenance of reception and distribution facilities for radio and television signals in buildings.

CE5.1 Organize and collect information for the elaboration of the service and maintenance instruction manual.

CE5.2 Develop the service instruction manual for the community and the user by specifying the basic operating and security conditions. CE5.3 Prepare the maintenance manual by specifying the inspection points, parameters to be checked, the periodicity of the actions and the general rules in case of failure or emergency.

C6: Compose the basic safety and health study of reception and distribution facilities for radio and television signals in buildings.

CE6.1 Identify the risk factors associated with the operations to be performed.

CE6.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. C6.3 The development of the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Antennas and wave propagation: Electromagnetic waves. Frequency. Wavelength. Propagation:

Antenna principles. Parameters.

Terrestrial antennas for radio and television. Types and technical characteristics. Antennas for satellite television. Appointing.

2. Elements constituting the Common Telecommunications Infrastructure:

Capturing and distribution of terrestrial and terrestrial television.

Enclosures of top and bottom telecommunications installations. Distribution of sound broadcasting and satellite television. Access and distribution of available telephony to the public. Access to broadband telecommunications services. Channelings and distribution infrastructure.

3. Token fetch element set:

Terrestrial television antennas.

Antennas for satellite television. Radio broadcast antennas. Selection of the site and parameters of the receiving antennas. Media types. Frequency plan. Takes of land.

4. Header Team:

Electrical equipment: Protections and grounding.

Power supply. Broadband amplifiers. Single-channel amplifiers. FI amplifiers. Converters. Modulators. Interior units for TVSAT. Filters. Others.

5. Signal Distribution:

Distribution Network.

Scatter network. Internal user network. Drivers: Fiber optics. Waveguides. Coaxial cable. Passive elements. Active elements. Distribution Systems: Distribution by deliverymen. Distribution by derivatives. Distribution by way boxes. Mixed distribution. User access point.

6. Basic operations for the assembly of reception and distribution facilities for radio and television signals:

Specific assembly techniques.

On-premises operating parameters: tuning and tuning. Standards for personal safety and equipment. Preventive maintenance of antenna installations.

7. Projects for reception and distribution facilities for radio and television signals:

Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT): Memory. Flat. Specifications. Budgets and measures. Other documents: end-of-work certificate, installation bulletin and test protocol.

8. Calculation of the parameters of reception and distribution facilities for radio and television signals: choice of elements

Application Regulations.

Calculation of media. Signal levels in user takes. Number of user takes. Amplitude/frequency response. Attenuation. Signal/noise ratio. Intermodulation. Application software. Tables and charts. Others. Characterization and selection of the elements of the installation.

9. Graphic representation bases applied to the representation of radio and television distribution systems:

Interpretation of building plans.

Normalized symbology of the sector. Systems of representation. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Software for the design of television and radio distribution systems.

10. Drawing up of plans and electrical schemes for radio and television distribution systems:

Software for radio and television distribution system design.

Situation plane. Description plans of the installation: Planes of profile. Floor plans. Recommended scales. Schemes of principle. Drawings of detail of construction and construction elements. Electrical schemes: general and related schemes.

11. Development of work units and budgets in the assembly of radio and television distribution systems:

Measurements.

Work units. Definition of milestones. Price tables. Let's look. General and broken down budgets. Application software.

12. Safety in the assembly of radio and television distribution systems:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Preparation of basic safety studies. Collective and individual protective equipment.

13. Service and maintenance manuals:

Technical specifications for radio and television distribution system elements.

Installation conditions in service: testing protocol. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of reception facilities and distribution of radio and television in the building environment, which will be accredited by one of the following forms:-Training Technical Engineer or other top-level academic in this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Formative Module 2: Developing telephony facility projects in the building environment

Level: 3.

Code: MF0827_3.

Associated with UC: Develop telephony facility projects in the building environment.

Duration: 120 hours. Assessment capabilities and criteria:

C1: Analyze the operation of telephony facilities in the building environment to identify their components, relate them to each other, and describe the parameters of the components and the installation. CE1.1 Given a telephone installation in the building environment characterized by its plans and technical documentation:-Interpret the plans of the construction project, to identify, the n. of the plants, n. of the dwellings and the intended use to the spaces of the building will be used.

-Identify their parts and elements, relating them to the symbols that appear on the planes. -Identify the spaces by which you run and relate the cotas that appear on the planes with reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network. -Describe the structure of the installation and the elements that compose it. Power network. Distribution network. Dispersion network. Internal user network. Connection elements.

CE1.2 Analyze the elements that make up each of the networks, describing their function and technical characteristics.

CE1.3 Describe the technical characteristics of the wiring used in each of the networks from which the installation is composed. CE1.4 From the technical documentation of a telephone installation in the building environment characterized by its plans and technical memory:

-Verify the application of the regulations in the installation development.

-Develop hypotheses on the effects that would produce, on the operation of the installation, the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation installation.

C2: Develop the schemas and sketches of a telephony facility in the building environment in a given location by selecting the elements that make it out of a given blueprint or conditions and applying the rules.

CE2.1 From a preliminary draft of a telephone installation in the building environment in a given location:-Identify for its application the regulations affecting the layout of the network (REBT, regulations of common telecommunications infrastructures, municipal ordinances, among others).

-Draw and complete on a plane at the corresponding scale the general layout of installation, enclosures, archets, registers and takes. -Draw and complete the sketches of principle by collecting in them the description of the layout of the installation, enclosures, archets, registers, takes, among others. -Fill in the pairs assignment record.

CE2.2 From the preliminary or given indications of a telephone installation in a building:

-Identify for your application the regulations that affect the layout of the network (REBT, ICT, municipal ordinances, among others).

-Draw and complete the general and principle schemas by collecting the description of the layout of the installation in them, the situation of the elements of the installation, and the connection schemes.

CE2.3 Dada a telephony installation in the building environment, characterized by its technical documentation, complete and perform the calculations relating to the sizing of the network, types of cables, number of sockets, adapting them to the normative values.

CE2.4 Select installation items and items from specific catalogs. CE2.5 Draw up a list of the equipment, elements and materials sized, using the sector nomenclature and indicating quantities and location in the installation.

C3: Draw with a computer-aided design program the drawings and schemes of a telephone installation in the building environment, starting from the sketches and schemes developed and the general listing of equipment and installation elements.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Draw using the scale and the most appropriate representation system the plans (site, general, among others) with its views (cross-section and plants), corresponding cotas and complying with the current regulations. CE3.4 Graphically have the elements in the plans in a way that allows us to know the relationships established between them, the sequential monitoring of the operation of the installation and the presence of other installations. CE3.5 Draw using the most appropriate scale and system of representation the electrical and principle schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the plans and detailed arrangements (feeding network, distribution network, dispersion network, internal user network, connection elements, among others), of the installation, taking into account its constructive forms, dimensions and specific related links.

C4: Determine the work units and the cost of the telephone installation in the building environment, from the project documentation and taking into account standard scales, or unit prices extracted from catalogues.

CE4.1 Identify the units of work indicating the elements that compose them, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, labor that intervenes and the time required for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work.

C5: Compose the service instruction manual and maintenance of the telephony facilities in the building environment. CE5.1 Organize and collect information for the elaboration of the service and maintenance manual.

CE5.2 Develop the service instruction manual by specifying the basic operating and security conditions. CE5.3 Prepare the maintenance manual, specifying the inspection points, parameters to be checked, periodicity of the actions and the general rules in case of failure or emergency.

C6: Compose the basic safety and health study of telephone facilities in the building environment.

CE6.1 Identify the risk factors associated with the operations to be performed.

CE6.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. C6.3 The development of the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Telephone communication networks: Types of communication networks in telephony.

Structure of telephony networks. Switching centres. Local loop or access network. Trunk network. Complementary network.

2. Elements constituting the Common Telecommunications Infrastructure:

Power network.

Distribution Network. Dispersion network. Internal user network. Enclosures of top and bottom telecommunications facilities. Sizing of the networks. Forecast demand. Number of pairs. Electromagnetic compatibility. Access and distribution of available telephony to the public. Access to broadband telecommunications services. Channelings and distribution infrastructure.

3. Telephony transmission:

Transmission systems.

Analog signals. Digital signals. Modulation. Multiplexing. Radio communications. Means of transmission: Pair of copper. Coaxial cable. Optical fiber. Digital user networks. Structure. Digital transport networks. Broadband. Telephone switchboards: Settings. Programming. Radio spectrum. Mobile communications. Cellular telephony. Elaboration of technical specifications of equipment and materials.

4. Basic telephony facility assembly operations:

Specific assembly techniques.

On-premises operating parameters: tuning and tuning. Standards for personal safety and equipment.

5. Telephony installations projects:

Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT): Memory. Flat. Specifications. Budgets and measures. Other documents: end-of-work certificate, installation bulletin and test protocol.

6. Calculation of the telephony facility parameters:

Application Regulations.

Calculation of media. Signal levels in user takes. Number of user takes. Application software. Tables and charts. Others. Characterization and selection of the elements of the installation.

7. Graphical representation fundamentals applied to the representation of telephony systems:

Interpretation of building plans.

Normalized symbology of the sector. Systems of representation. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Software for the design of telephony systems.

8. Drawing up plans and schemes for telephony systems:

Software for design of telephony systems.

Situation plane. Description plans of the installation: Planes of profile. Floor plans. Recommended scales. Schemes of principle. Drawings of detail of construction and construction elements. Electrical schemes: general and related schemes.

9. Processing of units of work and budgets in the assembly of telephony systems:

Measurements.

Work units. Definition of milestones. Price tables. Let's look. General and broken down budgets. Application software.

10. Security in the assembly of telephony systems:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Preparation of basic safety studies. Collective and individual protective equipment.

11. Service manuals in the assembly of telephony systems:

Technical specifications of the telephony distribution system elements.

Installation conditions in service: testing protocol. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of telephone facilities in the building environment, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other top-level issues related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Developing voice and data network projects in the building environment

Level: 3.

Code: MF0828_3. Associated with UC: Develop voice and data network infrastructure projects in the building environment. Duration: 180 hours. Assessment capabilities and criteria:

C1: Analyze the operation of voice and data network installations, to identify the equipment and elements that compose it, to relate them to each other and to describe the parameters of the components and the installation. CE1.1 To classify voice and data networks according to the space they occupy (LAN, MAN, WAN, among others) and according to their topology (ring, star, bus, among others).

CE1.2 Relate the levels of the OSI model with its most significant functions. CE1.3 Describe the means of transmission (cables, optical fiber) connectors and user takes associated with each of them employees in the local networks of data according to category and standard used. CE1.4 To classify the distribution teams that integrate a local area network, indicating its characteristics and applications: Hub's, Switch's, Router's, among others, indicating the physical possibilities of segmenting a local network and its connection with other networks. CE1.5 Describe typical ways to distribute equipment, accessories, and wiring in communications racks and cabinets. CE1.6 Describe typical configurations of cabling systems used in local networks: structured cabling, unstructured wiring. CE1.7 Indicate the typologies, elements that integrate them and the relevant characteristics of the local wireless networks. CE1.8 Given an installation of a data network, with structured cabling, in the environment of buildings characterized by its plans and technical documentation:

-Interpret the plans of the building project, to identify, the n. of the plants and the intended use to which the spaces of the building will be used.

-Identify their parts and elements, relating them to the symbols that appear on the planes. -Identify the spaces by which you run and relate the cotas that appear on the planes with reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network. -To describe the structure of the installation by interpreting the technical documentation of the elements that compose it: Wiring categories. Standards. Structured cabling: vertical, horizontal and campus. Enclosures and communications cabinets: racks, equipment and wiring, power systems, servers. User takes.

CE 1.9 Given an installation of a local wireless data network:, in the building environment characterized by its plans and technical documentation:

-Identify the elements that configure it, relating the elements of the installation to the symbols that appear in the schemas.

-Escorch in functional blocks the installation, describing the function and characteristics of each of the elements that compose it. -Interpret the technical documentation of the specific equipment explaining its function in the network. -Describe the possibilities of connection with other voice and data networks.

C2: Develop the schemas and sketches of an installation of a data network in a given location, selecting the elements that compose it from a given project or conditions and applying the regulations.

CE2.1 From a preliminary draft or conditions given to a local network of data in a given location:-Identify for its application the rules affecting the layout of the network (REBT, regulations of common telecommunications infrastructures, municipal ordinances, EIA/AIA Standards, ISO standards, among others).

-Draw on a plane at the corresponding scale the general layout of the installation. -Draw and complete the sketches and schemes of principle by collecting in them the description of the layout of the net, the areas of passage, the situation of the elements of civil work (enclosures, archets, registers, among others). CE2.2 From the preliminary draft or the conditions under which a local data network is installed in buildings:

-Complete and calculate the basic parameters of the installation (n. number of posts, technical characteristics of conductors, attenuation, signal levels, among others) guaranteeing the regulatory signal levels in the user.

-Complete and perform the calculation of the mechanical and dimensional magnitudes (masts, antenna supports, turrets, among others).

CE2.3 Select installation items and items from specific catalogs.

CE2.4 Develop a list of the equipment, elements and materials sized, using the sector nomenclature and indicating quantities and location in the installation.

C3: Draw with a computer-aided design program the drawings and schemas of a data network in a given location, starting from the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Draw using the scale and the most appropriate representation system the plans (site, general, among others) with its views (cross-section and plants), corresponding cotas and complying with the current regulations. CE3.4 Graphically have the elements in the plans in a way that allows us to know the relationships established between them, the sequential monitoring of the operation of the installation and the presence of other installations. CE3.5 Draw using the most appropriate scale and system of representation the electrical and principle schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the plans and details (distribution of equipment in racks, connections, particular solutions, among others) of the installation.

C4: Determine the units of work and the cost of an installation of a data network, from the project documentation and taking into account standard scales, or unit prices extracted from catalogs.

CE4.1 Identify the units of work indicating the elements that compose them, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, labor that intervenes and the time required for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work.

C5: Compose the manual of service instructions and maintenance of voice and data network installations in buildings.

CE5.1 Organize and collect information for the processing of the service and maintenance manual.

CE5.2 Develop the service instruction manual by specifying the basic operating and security conditions. CE5.3 Prepare the maintenance manual by specifying the inspection points, parameters to be checked, the periodicity of the actions and the general rules in case of failure or emergency.

C6: Compose the basic safety and health study of voice and data network facilities in buildings.

CE6.1 Identify the risk factors associated with the operations to be performed.

CE6.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. C6.3 The development of the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Data networks: Data networks: WAN, MAN and LAN.

Local area network topology. The OSI reference model. Distribution equipment. Means of transmission. IP and VoIP networks. Voice and data integration. LAN and WLAN technologies. Standards.

2. Elements constituting the common telecommunications infrastructure:

Enclosures of top and bottom telecommunications installations.

Distribution of sound broadcasting and satellite television. Access and distribution of available telephony to the public. Access to broadband telecommunications services. Channelings and distribution infrastructure. Regulation of Telecommunications Infrastructure (ICT).

3. Structured cabling:

Standards: EEI/Aunt Standards. ISO standards.

Application: PDS and IDS. Subsystems: areas of work, vertical, horizontal and campus. Communications enclosures and cabinets. Specifications and location. Channelings. Means of transmission: standards and categories. Signage and tagging.

4. Equipment and elements of the voice and data network installation:

Distribution teams: Hub's, switch's, routers, among others.

User Tomas. Connection. Power systems. Servers and user equipment. Elaboration of technical specifications of equipment and materials.

5. Basic voice and data network installation assembly operations:

Specific assembly techniques.

On-premises operating parameters: tuning and tuning. Certifications. Standards for personal safety and equipment.

6. Voice and data network installations projects:

Regulations on common infrastructures for telecommunications services in the interior of buildings (ICT): Memory. Flat. Specifications. Budgets and measures.

Other documents: Test and certification protocol.

7. Calculating the parameters of the voice and data network installations:

Application Regulations.

Number of user takes. Signal levels in user takes. Attenuation. Typical parameters: ACR, NEXT, FEXT, among others. Others.

8. Graphical representation fundamentals applied to the representation of voice and data networks:

Interpretation of building plans.

Normalized symbology of the sector. Systems of representation. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Software for voice and data network design.

9. Drawing up plans and schemes for voice and data networks:

Software for voice and data network design.

Situation plane. Description of the installation: Planes of vertical wiring. Horizontal wiring planes. Campus wiring plans. Enclosure location plans and communications cabinets. Situation plane of user takes. Distribution plane of equipment in cabinets and communications enclosures. Details of the connection details. Electrical schemes: general and related schemes.

10. Processing of units of work and budgets in the assembly of voice and data networks:

Measurements. Units of work. Definition of milestones.

Price Tables. Let's look. General and broken down budgets. Application software.

11. Security in the voice and data network mount:

Safety and hygiene regulations.

Safety plans in the execution of installations projects. Identification of risks and associated risks. Preparation of basic safety studies. Collective and individual protective equipment.

12. Service and maintenance manuals in the voice and data network mount:

Technical specifications for local network elements.

Installation conditions in service: testing protocol. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of voice and data network installations in the building environment, which will be accredited by one of the following forms:-Academic training of engineers Technical or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLIX Professional qualification: Development of electrical installations projects in the building environment and for special purposes

Professional Family: Electricity and Electronics.

Level: 3 Code: ELE259_3

General competition:

Develop power plant projects in the building environment and for special purposes from a preliminary draft or conditions, in accordance with established specifications, regulations and procedures, ensuring the quality and safety of the facilities.

Competition Units:

UC0829_3: Develop low voltage power plant projects in the housing, industries, offices, and public buildings environment.

UC0830_3: Develop low voltage power facility projects in special features and special purpose facilities.

Professional environment: Professional scope:

Develops its professional activity in micro, small and medium-sized companies mainly private, integrating in the technical office in the area of development of electrical installations projects, mainly for account the activity of the Low-Tension Electrotechnical Regulation is regulated.

Productive Sectors:

This professional is located in the sector of production and distribution of electrical energy, in the activities of development of projects of low voltage electrical installations in the environment of buildings of houses, industries, offices, local public concurrency, local special features and special purpose facilities, as assistant to the superior technician being regulated by the Electrotechnical Regulation of Low Tension.

Relevant Occupations and Jobs:

Electrotechnical Projector.

Projecting low voltage electrification facilities for homes and buildings. Project of electrification facilities in low voltage for special premises. Technical in electrotechnical projects. Associated training: (480 hours). Training Modules:

MF0829_3: Development of low voltage power plant projects in the housing, industrial, office and public buildings environment (240 hours).

MF0830_3: Development of low voltage power facility projects in special features and special purpose facilities (240 hours).

Competition Unit 1: Develop low-voltage power plant projects in the environment of concurrency building houses, industries, offices and premises

Level: 3

Code: UC0829_3

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of equipment, elements and materials of low voltage electrical installations in the environment of housing, industrial, office and public buildings concurrency from previous design specifications and criteria and complying with the implementing regulations. CR1.1 The conditions and characteristics of the installation are in line with the current regulations (REBT, complementary technical instructions, particular binding rules, among others).

CR1.2 The configuration of the installation and the forecast of loads takes into account the type of place of consumption (buildings destined mainly to houses, commercial buildings or offices, buildings destined for an industry specifies, buildings intended for a concentration of industries, among others), and where appropriate:

-The degree of electrification and forecast of power in housing.

-The total load for buildings intended for housing. -The total charge for commercial buildings, offices or buildings for one or more industries.

CR1.3 Functional and general schemas are completed and collected:

-The installation site.

-The circuits and elements required for the installation configuration. -The one-party schemes of the installation. -The layout drawings of the installation.

CR1.4 The calculations of the electrical magnitudes of the receivers, conductors, cutting and protection elements (power, voltage drops, intensities, conductor sections, among others), of the installation are carried out using established tables, software and calculation procedures.

CR1.5 The calculations of the luminonic magnitudes of the interior and emergency lighting (luminance, illuminance, total efficiency, spacing criterion, uniformity of illumination, control of the glare, between other), the installation is made using tables, computer programs and established calculation procedures. CR1.6 The layout, uniphilar and developed schemes of the installation specify the circuits and collect the necessary quantities (length, voltage drop, intensity, among others), in the characteristic points. CR1.7 The location of the components of the installation (cabinets, boxes, pipes, among others), makes it possible to optimize the use of the available spaces and contemplates the current regulations. CR1.8 The installation's land network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations. CR1.9 The sketches and diagrams accurately collect all the information for the subsequent elaboration of the plans of the installation. CR1.10 The specifications report accurately collects all the data necessary for the design of the project's memory: the purpose, location, basic characteristics and use to which it is intended, expected power, nominal relation of the receivers and their power, characteristics and sections of the conductors, characteristics of the pipes, the functional and technical characteristics of the installation, the equipment and elements, among others, of the installation.

RP2: Select the equipment, elements and materials of low voltage electrical installations in the environment of housing, industrial, office and public buildings concurrency from the report of specifications and complying with the implementing regulations.

CR2.1 The selected items are in compliance with the company's internal and industry approval rules.

CR2.2 The characteristics of the receiving equipment, cutting and protective devices, channelings, conductors, among others, are selected by responding to the calculations made, to the requirements of the assembly and are the required for the operation of the installation. CR2.3 The choice of the equipment, drivers, pipes and elements of the installation is carried out by combining the guarantees of "interchangeability", costs and supply, among others. CR2.4 The general listing of equipment, elements of the installation and safety means with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and allows the production of general budgets, budgets (if necessary) and the basic safety study.

RP3: Develop general layout plans, location and electrical schemes of low voltage electrical installations in the environment of housing, industrial, office and public buildings concurrency from the specifications and design criteria established with the required quality.

CR3.1 The representation of the schemes and plans of the installation, equipment and tables, among others:-It is carried out with the symbology and standard conventionalisms of application and, where appropriate, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.2 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes (single-filers, developed and wired), allows:

-Identify the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -Identify the characteristic values in each circuit and the specifications of the constituent elements of the installation.

CR3.3 The location of the receivers, equipment, electrical frames, layout, dimensions and technical specifications of the circuits and their elements defined in the plans of the installation take into account the requirements of security and complies with the regulations and ordinances of implementation.

CR3.4 The routing of the pipes allows the installation to be maintained and the characteristics and use of the buildings, where it is located and other types of installations, are taken into account. CR3.5 The detail plans and assembly diagrams of the installations and their elements are drawn:-indicating the encounters and steps of the buildings and elements of construction, changes of position, crosses and derivations in the layout of the channelings. -indicating the exact characteristics of the location (cotas, orientation, among others) and identification.

CR3.6 The drawings and drawings of single-filial, developed, detailed, inter-other schemes comply with the specifications and design criteria determined, achieving the established quality standards.

CR3.7 The defined implementation complies with the current regulations regarding the safety of persons, equipment and facilities.

RP4: Determine the costs of low voltage electrical installations in the environment of concurrency buildings, industries, offices and premises, determining the units of work and the quantities required of each of them, applying scales and established unit prices, based on the technical documentation of the project.

CR4.1 The general listing and partial listings of the elements of the installation are perfectly defined and collect all the data that allows the work units to be defined.

CR4.2 The measurement is collected in the document corresponding to the quantity and the unit of measurement required. CR4.3 The established units of work are broken down, to obtain their cost by applying established procedures and determining:

-The elements that compose it.

-The required quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Time required for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.4 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.5 The work unit set includes all the jobs to be performed.

RP5: Develop test specifications and reception tests of low voltage electrical installations in the environment of concurrency buildings, industries, offices and premises.

CR5.1 The technical specifications for the supply of materials, equipment, and elements are correctly defined with their characteristics, standards, regulations and approvals of construction, quality and safety conditions.

CR5.2 The required reception tests and trials are determined to ensure the level of quality established. CR5.3 The parameters (resistance, isolation, among others) that must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.4 The handling conditions for the assembly of materials and equipment given by the manufacturer are collected for their subsequent application. CR5.5 Installation reception conditions and project milestones (time and result to be obtained) are clearly specified. CR5.6 The test and test specifications are set out in the relevant report.

RP6: Elaborate the manual of service instructions and maintenance of low voltage electrical installations in the environment of buildings of houses, industries, offices and premises of public concurrency. CR6.1 The service instruction manual is prepared by specifying the conditions for commissioning, operation and safety, as well as the action to be taken in the event of a breakdown or emergency.

CR6.2 Operations, maintenance frequencies and procedures for the entertainment and preservation of equipment and facilities are established according to the technical information of the manufacturer. CR6.3 The inspection points for maintenance, parameters to be checked, operations to be carried out, means used and periodicity of the actions are clearly specified. CR6.4 The procedures to be followed for the conduct of the periodic tests are established in each case, as well as their periodicity, in accordance with the implementing safety regulations. CR6.5 The maintenance program of the equipment, frames, luminaires, among others, combines the specifications of the manufacturers with the conditions of use of the installation.

RP7: Elaborate the basic safety and health study for the execution of low voltage electrical installations in the environment of concurrency buildings, industries, offices and premises.

CR7.1 The risk factors associated with the operations to be performed on the installation run are precisely identified.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production means: Computer equipment and applications for electrical installation design in the building environment, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

Projects of electrical installations in the building environment. Technical memories of Ready Design of equipment and materials sized from electrical installations in the building environment. Electrical schemes. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of electrical installations in buildings. Manual of service and maintenance instructions. Basic safety and health study.

Information used or generated:

Electrotechnical Low Voltage Regulation. UNE Standards. CENELEC. ICN rules. Environmental regulations. Current regulations on electrical risk. Standards for electric companies. Projects for electrical installations in buildings. Technical manuals for equipment, machines and materials. Implementing rules and regulations in force. Studies on safety in electrical installations in buildings.

Competition Unit 2: Develop low voltage power facility projects in special feature premises and special purpose facilities

Level: 3

Code: UC0830_3

Professional achievements and performance criteria: RP1: Develop sketches, schemes and determine the characteristics of equipment, elements and materials for electrical installations in local special features and facilities for special purposes, based on specifications and pre-design criteria and complying with the implementing regulations. CR1.1 The conditions and characteristics of the installation are in accordance with the current regulations (REBT, corresponding complementary technical instructions, particular regulations of the installations, environmental regulations, among others).

CR1.2 Installation configuration is performed by taking into account the type of local where it is located and the activity to be developed:

-Locales at risk of fire or explosion.

-Wet and wet premises. -Swimming pools and fountains. -Provisional and temporary installations of works. -Facilities for operating rooms and intervention rooms, and all the premises referred to in the REBT in their corresponding technical instructions.

CR1.3 The configuration of the installation takes into account the forecast of loads, the characteristics of the layout, the purpose to which it is intended and the requirements, of a general and complementary nature, for each type of installation.

CR1.4 The functional and general schemas are completed and collect the necessary circuits and elements for the installation configuration. CR1.5 The calculations of the electrical quantities (currents, voltage drops, powers, conductor sections, among others) are performed using tables, computer programs and established calculation procedures. CR1.6 The calculations of the luminonic magnitudes of the interior and emergency lighting (luminance, illumination, total efficiency, spacing criterion, uniformity of lighting, control of the glare, among others), of the installation is performed using tables, computer programs, and established calculation procedures. CR1.7 The layout, one-line, and other, of the installation are made by specifying the circuits and collecting the necessary quantities (length, voltage drop, intensity, sections of conductors, among others.) characteristic. CR1.8 The location of the components of the installation (cabinets, boxes, general distribution table, secondary tables, channels, among others), are arranged to optimize the use of the available spaces and to contemplate the Current regulations. CR1.9 The installation's land network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations and according to the type of installation. CR1.10 The sketches and diagrams accurately collect all the information for the subsequent elaboration of the plans of the installation. CR1.11 The report of specifications is elaborated by accurately collecting all the data necessary for the writing of the project's memory: the purpose, location, basic characteristics and use to which it is intended, intended power, relation nominal of the receivers and their power, characteristics and sections of the conductors, characteristics of the channelings, the functional and technical characteristics of the installation, the equipment and elements, elements of safety and security among others, of the installation.

RP2: Select the equipment, elements and materials of the electrical installations for special features and special purpose installations, from the list of specifications and complying with the requirements implementing regulations.

CR2.1 The selected items are in compliance with the company's internal and industry approval rules.

CR2.2 The model and range of machines, receivers, equipment, conductors and electrical accessories among others, meets the required function. CR2.3 The characteristics of the equipment and elements of the installation are extracted from the calculations made and the regulations, depending on the type of installation. CR2.4 The parameters for the selection of electrical elements correspond to the technical specifications, assembly characteristics and type of installation. CR2.5 The choice of components is achieved by combining the guarantees of "interchangeability", supply and costs. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and enables the production of general budgets, budgets and the basic safety study.

RP3: Develop general layout plans, location and electrical schemes of electrical installations for special features and special purpose installations from the specifications and criteria Design established with the required quality.

CR3.1 The representation of the plans of the networks, schemes, among others:-It is carried out with the symbology and standard conventionalisms of application and, if necessary, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.2 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes (unified, developed and wiring), allows:

-Identify the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -Identify the characteristic values in each circuit and the specifications of the equipment and constituent elements of the installation.

CR3.3 The location of the receivers, equipment, electrical frames, layout, dimensions and technical specifications of the circuits and their elements defined in the general plans of the installation take into account the security requirements for each type of installation and comply with the regulations and application ordinances.

CR3.4 The routing of the pipes allows maintenance and takes into account the characteristics and use of the premises, where it is located, the end of the installation and other types of installations. CR3.5 The installation details of the installations, equipment and its elements are carried out:

-Indicating the encounters and steps of the buildings and elements of construction, changes of position, crosses and derivations in the layout of the nets.

-Indicating the constructive forms and dimensions of foundations and anchorages of machines, supports of pipelines and equipment and takes into account the conditions of the building or civil work of the environment and the regulations and ordinances application.

CR3.6 The defined implementation complies with the current regulations regarding the safety of persons, equipment or installations.

CR3.7 The layout, connection and assembly plans meet the specifications and determined design criteria, achieving the established quality levels.

RP4: Develop costs of electrical installations for special features and special purpose installations, determining the units of work and the quantities required of each unit, applying prices unit established, based on the technical documentation of the project.

CR4.1 The general listing and partial listings of the elements of the installation are perfectly defined and collect all the data that allows the work units to be defined.

CR4.2 The established units of work are broken down to obtain their cost by applying established procedures, determining:

-The elements that compose it.

-The required quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Time required for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.3 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.4 The work unit set includes all the jobs to be performed. CR4.5 The measurement obtained is clearly specified in the corresponding document, with the required precision and is located with the precise unit of measurement.

RP5: Develop technical specifications of test and test reception of electrical installations, in premises of special characteristics and facilities for special purposes.

CR5.1 The technical specifications for the supply of materials, products and equipment are correctly defined with their characteristics, standards, regulations and approvals of construction, quality, safety conditions and determine the required reception tests and tests to ensure the level of quality established.

CR5.2 Handling conditions for installation of equipment and installation elements are extracted from the manufacturer's information, as well as storage conditions. CR5.3 The parameters (resistance, insulation, among others), which must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.4 The installation reception conditions and project milestones (moment and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the manual of service instructions and maintenance of electrical installations, in premises of special characteristics and installations for special purposes.

CR6.1 The service instruction manual is prepared by specifying the conditions of the commissioning, operation and safety, as well as the actions to be followed in case of failure or emergency.

CR6.2 Operations, frequencies and procedures for the entertainment and conservation of equipment, tables, among others. of the facilities are established according to the technical information of the manufacturer. CR6.3 The inspection points for maintenance, parameters to be checked, operations to be carried out, means used and periodicity of the actions are clearly specified. CR6.4 The procedures to be followed for the conduct of the periodic tests are established in each case, as well as their periodicity, in accordance with the implementing safety regulations. CR6.5 The maintenance program of the equipment, frames, luminaires, among others, combines the specifications of the manufacturers with the conditions of use of the installation.

RP7: Develop the basic safety and health study for the execution of electrical installations, in premises with special characteristics and facilities for special purposes.

CR7.1 The risk factors associated with the operations to be performed on the installation run are precisely identified.

CR7.2 The risks associated with risk factors are identified and the preventive measures are indicated, as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production means: Computer equipment and applications for electrical installations design in local special features, "Plotter" drawing. Scanner. Printers. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

Projects and technical memories of electrical installations design in local special features. List of equipment and materials sized for electrical installations in local special features. Electrical schemes. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of electrical installations in buildings. Manual of service and maintenance instructions. Basic safety and health study.

Information used or generated:

Electrotechnical Low Voltage Regulation. UNE Standards. ICN rules. Standards for electric companies. Environmental regulations. Current regulations on electrical risk. CENELEC. Projects for electrical installations in buildings. Technical manuals for equipment, machines and materials. Implementing rules and regulations in force. Studies on safety in electrical installations in premises with special characteristics.

Training Module 1: Development of low voltage power plant projects in the environment of concurrency building houses, industries, offices and premises

Level: 3

Code: MF0829_3

Associate with UC: Develop low-voltage power facility projects in the housing, industries, offices, and local public buildings environment

Duration: 240 hours. Assessment capabilities and criteria:

C1: Analyze the operation of low voltage electrical installations in the environment of housing, industrial and public buildings to identify their components, relate to each other and describe its operating parameters and those of the installation. CE1.1 Given an electrical installation of low voltage in a building of houses, industrial or commercial premises characterized by its plans and technical memory (technical documentation):-Identify its parts and elements, relating them to the symbols that appear on the planes.

-Identify the spaces by which you run and relate the cotas that appear on the planes to reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the installation.

CE1.2 Analyze in a low voltage electrical installation in a housing, industrial or commercial local building, the elements that compose it, describing its technical characteristics:

-Acommitted.

-Canalizations. -Protection elements. -Drivers. -Land networks. -Other elements of the installation.

CE1.3 Given a low voltage electrical installation in a housing, industrial or local commercial building characterized by its plans and technical memory (technical documentation):

-Calculate the electrical parameters (intensity, voltage drops, power, among others) of the installation, checking that they match those indicated in the documentation.

-Calculate the luminance parameters corresponding to the different types of lighting. -indicate the degree of electrification and the minimum number of circuits with their characteristics, in the case of dwellings, checking that it complies with the regulations. -To analyze the behavior of the installation in view of the possible variations of the electrical parameters.

CE1.4 From the technical documentation of a low voltage electrical installation in a housing or industrial building characterized by its plans and technical memory (technical documentation):

-Verify the application of the regulations in the installation development. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation.

C2: Develop the schemas and sketches of a low voltage electrical installation in a housing building, industrial site or local public concurrency, selecting the elements that compose it from a Preliminary draft or conditions under and applying the rules.

CE2.1 From a preliminary draft or conditions of a low voltage electrical installation in a building of houses, industry or commercial premises:-Identify for its application the regulations affecting the layout of the installation.

-Mark the overall layout of the installation to the corresponding scale. -Draw (complete) the uniphilar and developed schemes of the installation. -Draw (complete) the installation detail schemas.

CE2.2 From a preliminary draft or given conditions of a low voltage facility in commercial homes, industries or premises:

-Perform the calculations of the electrical quantities (maximum allowable intensities, maximum intensities in short circuit, conductor sections, among others.) necessary to size the elements of the installation.

-Perform the calculations of the lighting and emergency lighting measures (luminance, spacing, among others) necessary to size the elements of the installation.

CE2.3 From a preliminary draft of a low voltage facility in commercial homes, industries or premises:

-Draw (complete) (with whatever means) the uniphilar and developed schemes collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the installation (protections, drivers, luminaries, among others), optimizing the available space.

-Draw (complete) the detail schemas of the components of the installation and their connections in those cases where they are needed. -Draw (complete) the croquis of the earth networks according to the regulations, security measures and type of installation.

CE2.4 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Drawing, with a computer-aided design programme, the general layout plans, detail plans and electrical schemes of a low voltage electrical installation in buildings of housing, industrial premises or public premises concurrency, starting from the sketches and schemes developed and the general listing of equipment and elements of the installation.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Draw using the scale and the most appropriate representation system the plans (location, detail, among others), with their corresponding values, values in the most significant points and complying with the current regulations. CE3.4 Represent with the standardized symbology of the sector the elements of the installation. CE3.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C4: Determine the units of work and the average cost of an electrical installation of low voltage in buildings of housing, industries or local public concurrency from the general listing of equipment and elements of the installation and taking into account standard scales, or unit prices extracted from catalogues.

CE4.1 Identify the units of work indicating the elements that make them, measurements, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, manpower that intervenes and the time required for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work. C5: Define the technical specifications for the testing and testing of the reception of the elements and of the low voltage electrical installations in buildings of houses, industries or premises of public concurrency and elaborate the documentation corresponding. CE5.1 From a project of a low voltage electrical installation in a housing, industrial or commercial premises building:

-Define the technical specifications of tests and tests for the supply of materials, products and equipment of the facility.

-Collect information from manufacturers regarding the storage of the elements and materials of the installation. -Define project milestones and reception conditions for the installation.

CE5.2 From a project of a low voltage electrical installation in residential buildings, industries or commercial premises:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones and installation reception conditions.

C6: Develop the manual of service instructions and maintenance of low voltage electrical installations in buildings of homes, industries or public places of public concurrency.

CE6.1 From a project of an electrical installation of low voltage in buildings of houses, industries or commercial premises specify the conditions of commissioning of the installation.

CE6.2 From a project of a low voltage electrical installation in residential buildings, industries or commercial premises, elaborate the service instruction manual specifying the operating conditions and Security. CE6.3 From a project of a low voltage distribution power grid the maintenance manual shall be drawn up specifying the inspection points, parameters to be checked, periodicity of the actions and the general rules in case of breakdown or emergency.

C7: Develop the basic safety study of the facilities of low voltage electrical installations in buildings of houses, industries or public places of public concurrency.

CE7.1 From a project of an electrical installation of low voltage in buildings of houses, industries or commercial premises, identify the risk factors associated with the operations to be carried out.

CE7.2 From a project of a low voltage electrical installation in residential buildings, industries or commercial premises, identify the risks associated with each of the risk factors indicating the measures preventive and the protections to use both individual and collective. CE7.3 Develop the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar. Capabilities whose acquisition must be completed in a real work environment:

Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Electrical installations in the environment of buildings: Classification of places of consumption.

Distribution of electrical energy in buildings. Liaison facilities (general protection box, general line of supply, centralisation of counters, among others) and internal or receiving facilities (distribution of power and lighting circuits). Types of electrical pipes (recessed, buried, in surface assembly, prefabricated, protective channels, trays, among others). Types of protection: Against electrical shocks (direct and indirect contacts), against over-intensities (overloads and short circuits), against over-tensions, among others. Coordination of electrical protection elements. Selectivity and support (back-up). Characteristics of the receiving facilities. Lighting, motors, among others. Forecast of loads: Housing: degree of electrification, concurrency coefficient, total load of the building. Premises of public concurrency, offices or intended for one or more industries. Total load of the building. Grounding facilities. Automated systems, technical management of energy and security for housing and buildings. Types of systems. Common devices and elements. Physical applied to the electrical and emergency lighting installations. Key units. Design criteria. Implementing rules. REBT, particular rules of liaison, among others.

2. Characteristic elements of the installations:

Drivers and cables. Types and designation.

Tubes and protective channels. Applications. Wrappers (cabinets, boxes, boxes). Degrees of protection of an enclosure. Centralization of counters (functional units). Measuring equipment. Electricity tariffs. Control and protection elements (fuses, switches, surge protector, transformer for MBTS and MBTP, among others). Equipment and lighting elements (interior and emergency). Equipment and elements of automated systems in housing and buildings (wiring, regulators and controllers, sensors and actuators, among others). Mechanisms and sockets. Accessories and accessories. Grounding. Schemes. Drivers. Resistance of the earth takes. Procedures, means and materials.

3. Basic operations for the assembly of electrical installations in the building environment:

Specific assembly techniques.

On-premises operating parameters: tuning and tuning. Standards for personal safety and equipment.

4. Projects of electrical installations in the building environment:

Justification and general data.

Features of items and materials. Blueprints and sketches. Schemes. Calculations. Implementing rules. Others.

5. Calculations of the parameters of the installations: selection of elements of the electrical installations in the environment of the buildings:

Loads forecast.

Housing (degree of electrification, power and total load). Commercial buildings, offices and industries. Total load. Supply: Monophasic and Triphasic. Load balancing in phases. Distribution of circuits. Power. Power factor. Improved power factor. Conductors and cables. Type, section, intensities, voltage drop. Protective elements. Characteristic type and values. Dimensions and characteristics of the pipes. Dimensions and characteristics of boxes and boxes. Interior and emergency lighting. Magnitudes and relationships. Distribution of luminaires (types and characteristics). Net of land. Selection of items in commercial catalogs. Standard procedures for the calculation of BT installations. Regulation and electrotechnical regulation. Application software. Tables and charts. Others.

6. Basis of graphic representation applied to the representation of electrical installations in the building environment:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Constructive elements of civil work. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). Software for the design of electrical distribution networks in medium voltage.

7. Drawing up of plans and electrical schemes for electrical installations in the environment of buildings:

Software for the design of low voltage distribution power grids in buildings. Libraries.

Placement Planes. Recommended scales. Drawings of detail of construction and construction elements. Single-pin schemes. Sketch sketches. Grounding schemes. Others.

8. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Elaboration of Technical Specifications of Equipment and Materials. Price tables. Let's look. General and broken down budgets. Application software. Quality specifications.

9. Safety in the assembly of electrical installations in the environment of buildings:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Development of basic safety and health studies. Collective and personal protective equipment.

10. Service and maintenance manuals for electrical installations in the building environment:

Testing and testing of the reception of elements of electrical installations in the buildings environment.

Conditions for the installation of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Recommendations of the distribution companies. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of low voltage electrical installations, in buildings of houses, industries or public places of public concurrence, which will be accredited by one of the forms The following are the following:-Academic training of Technical Engineer or others of higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Development of low voltage power plant projects in special features and special purpose facilities

Level: 3

Code: MF0830_3

Associate to UC: Develop low-voltage power facility projects in special feature locations and special purpose facilities

Duration: 240 hours. Assessment capabilities and criteria:

C1: Analyze the operation of low voltage electrical installations in local special features to identify their components, relate them to each other and describe the operating parameters of the components and the installation. CE1.1 Given a low voltage electrical installation in a special feature site characterized by its plans and technical memory (technical documentation):-Identify the type of local and the regulations that affect it.

-Identify their parts and elements, relating them to the symbols that appear on the planes. -Identify the spaces by which the installation runs and relate the cotes that appear on the planes with the reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the installation.

CE1.2 Analyze in a low voltage electrical installation in a local of special characteristics, the elements that compose it, describing its technical characteristics:

-Canalizations.

-Lighting. -Protection elements. -Drivers. -Land networks. -Other elements characteristic of the installation.

CE1.3 Given a low voltage electrical installation on a special feature site characterized by its drawings and technical memory (technical documentation):

-Calculate the electrical parameters (intensity, voltage drops, power, among others) of the installation, checking that they match those indicated in the documentation.

-Calculate the luminance parameters corresponding to the different types of light. -To analyze the behavior of the installation in light of the variation of the electrical parameters.

CE1.4 From the technical documentation of an electrical installation in a local of special characteristics characterized by its plans and technical memory (technical documentation):

-Verify the application of the specific regulations, at the local type, in the installation development.

-Develop hypotheses about the effects that would produce, in the operation of the network, the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation.

C2: Develop the schemas and sketches of a low voltage electrical installation in local special features, selecting the elements that make it up from a preliminary draft or given conditions and applying the rules.

CE2.1 From a preliminary draft or conditions of a low voltage electrical installation in a local special characteristics:-Identify for its application the regulations that affect the layout of the installation.

-Mark the overall layout of the installation to the corresponding scale. -Draw (complete) the uniphilar and developed schemes of the installation. -Draw (complete) the installation detail schemas.

CE2.2 From a preliminary draft or given conditions of a low voltage installation on a special feature local:

-Perform the calculations of the electrical quantities (intensities, conductor sections, voltage drops, power, among others) necessary to size the elements of the installation.

-Perform the calculations of the lighting and emergency lighting measures (luminance, spacing, among others) necessary to size the elements of the installation.

CE2.3 From a preliminary draft or given conditions of a local low voltage installation of special features:

-Draw (complete) the uniphilar and developed schemes by collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the installation (protections, drivers, luminaries, among others), optimizing the available space.

-Draw (complete) the detail schemas of the components of the installation and their connections in those cases where they are needed. -Draw (complete) the croquis of the earth networks according to the regulations, security measures and type of installation.

CE2.4 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Drawing, with a computer-aided design programme, the general layout plans, site plans, detail plans and electrical schemes of a low voltage electrical installation in special features, starting from the developed sketches and schemes and the general listing of equipment and elements of the installation.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Represent with the normalized symbology of the sector the elements of the installation. CE3.4 Draw using the scale and the most appropriate representation system the plans (site, detail, among others), with their corresponding values, values in the most significant points and complying with the current regulations. CE3.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C4: Determine the units of work and the average cost of a low voltage electrical installation in local special features from the general listing of equipment and elements of the installation, taking into account standard scales, or unit prices extracted from catalogues.

CE4.1 Identify the units of work indicating the elements that make them, measurements, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, manpower that intervenes and the time required for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work.

C5: Define the technical specifications of test and test reception of the elements and low voltage electrical installations in local special features and elaborate the corresponding documentation.

CE5.1 From a project of a local low voltage electrical installation of special features:

-Define the technical specifications of tests and tests for the supply of materials, products and equipment of the facility.

-Collect information from manufacturers regarding the storage of the elements and materials of the installation.

-Define project milestones and installation reception conditions.

CE5.2 From a project of a low voltage electrical installation in a special feature local:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones and installation reception conditions.

C6: Develop the manual of service instructions and maintenance of low voltage power facilities in special features.

CE6.1 From a project of a low voltage electrical installation in local special features specify the conditions of commissioning.

CE6.2 From a project of a low voltage electrical installation in local special features, elaborate the service instruction manual specifying the operating and safety conditions. CE6.3 From a project of a low voltage distribution grid, the maintenance manual shall be drawn up specifying the inspection points, the parameters to be checked, the frequency of the actions and the general rules in case of breakdown or emergency.

C7: Develop the basic safety study of electrical installations in local special features.

CE7.1 From a project of a low voltage electrical installation in local special features, identify the risk factors associated with the operations to be performed.

CE7.2 From a project of a low voltage electrical installation in local special characteristics identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. CE7.3 From a project of a low voltage electrical installation in local special characteristics, to elaborate the basic safety and health study taking into account the risk factors, the associated risks, the measures of protection, handling conditions given by the manufacturer and other safety studies of similar characteristics.

Capabilities whose acquisition must be completed in a real work environment: Other capabilities:

Adapt to the organization of the company integrating in the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Electrification facilities in premises with special characteristics and for special purposes: Distribution of electrical energy in buildings. Liaison facilities (general protection box, general line of supply, centralisation of counters, among others) and internal or receiving facilities (distribution of power and lighting circuits).

Types of electrical pipes (embedded, buried, in surface assembly, prefabricated, protective channels, among others). Types of protection: Against electrical shocks (direct and indirect contacts), against over-intensities (overloads and short circuits), against over-tensions, among others. Coordination of electrical protection elements. Selectivity and support (back-up). Characteristics of the receiving facilities. Lighting, motors, among others. Load forecasting. Local special features. Types and characteristics. Total load of the local. Special purpose installations. Types and characteristics. Automated systems, technical management of energy and security for housing and buildings. Types of systems. Common devices and elements. Physical applied to the electrical and emergency lighting installations. Key units. Design criteria. Implementing rules. REBT, particular rules of liaison, among others. Facilities at local public concurrency: Classification. Power of the security services. Emergency lighting (security and replacement lighting). Places of installation of the emergency lighting. General requirements. Facilities in premises at risk of fire and explosion: Classification of sites. Equipment requirements. General requirements. Class I and II sites. Wiring systems. Installations in premises of special characteristics (wet and wet premises, batteries of accumulators, among others). Classification. Types and characteristics. Special purpose facilities (swimming pools and fountains, temporary and temporary work facilities, operating rooms and intervention rooms, among others). General requirements. Channelings. Protections. Work box. Other installations covered by the REBT.

2. Characteristic elements of electrification facilities in premises with special characteristics and for special purposes:

Drivers and cables. Types and designation.

Tubes and protective channels. Applications. Wrappers (cabinets, boxes, boxes). Degrees of protection of an enclosure. Centralization of counters (functional units). Measuring equipment. Electricity tariffs. Control and protection elements (fuses, switches, surge protector, transformer for MBTS and MBTP, among others). Equipment and lighting elements (interior and emergency). Equipment and elements of automated systems in housing and buildings (wiring, regulators and controllers, sensors and actuators, among others). Mechanisms and sockets. Accessories and accessories. Grounding. Schemes. Procedures, means and materials.

3. Basic operations for the assembly of electrical installations in premises with special characteristics and special purpose installations:

Specific assembly techniques.

On-premises operating parameters: tuning and tuning. Standards for personal safety and equipment.

4. Projects for electrical installations in premises with special characteristics and special purpose installations:

Justification and general data.

Features of items and materials. Blueprints and sketches. Schemes. Calculations. Implementing rules. Others.

5. Calculations of the parameters of the facilities: selection of elements of the premises of special features and facilities for special purposes:

Loads forecast.

Supply: Monophasic and Triphasic. Load balancing in phases. Distribution of circuits. Power. Power factor. Improved power factor. Conductors and cables. Type, section, intensities, voltage drop. Protective elements. Characteristic types and values. Dimensions and characteristics of the pipes. Dimensions and characteristics of boxes and boxes. Interior and emergency lighting. Magnitudes and relationships. Distribution of luminaires (types and characteristics). Net of land. Selection of items in commercial catalogs. Standard procedures for the calculation of BT installations. Characterization of equipment and elements of the facilities. Regulation and electrotechnical regulation. Application software. Tables and charts.

6. Basis of graphic representation applied to the representation of electrical installations in special features and special purpose installations:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Constructive elements of civil work. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). Software for the design of electrical distribution networks in medium voltage.

7. Drawing up of plans and electrical schemes for electrical installations in premises with special characteristics and special purpose installations:

Software for the design of low voltage distribution power grids in buildings. Libraries. Site plans. Recommended scales. Drawings of detail of construction and construction elements. Single-pin schemes. Sketch sketches. Grounding schemes. Others.

8. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Price Tables. Let's look. General and broken down budgets. Application software.

9. Safety in the assembly of installations of electrical installations in premises with special characteristics and special purpose installations:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Development of basic safety and health studies. Collective and personal protective equipment.

10. Service and maintenance manuals:

Testing and testing of the reception of elements of the medium voltage networks.

Conditions for the installation of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Recommendations of the distribution companies. Training context parameters: Spaces and facilities:

-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of low voltage electrical installations, in premises of special characteristics, which will be accredited by one of the following forms:-Academic training Technical Engineer or other top-level engineers related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX cclx

Professional qualification: Development of low-and high-voltage power grid projects

Professional Family: Electricity & Electronics

Level: 3. Code: ELE260_3.

General competition:

Develop low-and high-voltage power grid projects, transformation centers and outdoor lighting facilities from a preliminary draft, type or conditions, according to the specifications, standards, ordinances and procedures, ensuring the quality and safety of the facilities and environmental conservation.

Competition Units:

UC0831_3: Develop low voltage power grid projects.

UC0832_3: Develop high-voltage power network projects. UC0833_3: Develop projects of electrical installations of transformation centers. UC0834_3: Develop projects for outdoor lighting installations.

Professional environment:

Professional scope: Develop your professional activity in small, medium and large, mostly private companies by integrating into the technical office as assistant to the top-level technician in the areas of development projects for low and high voltage power grids, conversion centres and outdoor lighting installations, either for their own or for hire or for hire or hire, the activity of the Low-Tension Electrotechnical Regulation, the Rules of Procedure, being regulated Air Power of High Tension and the Regulation on Technical Conditions and Security guarantees in Electrical Central, Substations and Transformation Centers and International Lighting Committee (ICN).

Productive Sectors:

This professional is located in the sector of production and distribution of electrical energy, in the activities of definition and development of projects of distribution networks in low and high voltage, centers of transformation and lighting outside.

Relevant Occupations and Jobs:

Electrotechnical Projector.

Projecting electrical power lines in medium and low voltage and transformation centers. Projectors of outdoor lighting installations. Technical in electrotechnical projects.

Associated training: (650 hours).

Training Modules: MF0831_3: Development of low voltage power grid projects (150 hours).

MF0832_3: High voltage power network project development (200 hours). MF0833_3: Development of power plant projects of transformation centres (150 hours). MF0834_3: Development of projects of outdoor lighting installations (150 hours).

Competition Unit 1: Develop low voltage power grid projects

Level: 3.

Code: UC0831_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemas, and determine the characteristics of equipment, elements, and materials of low voltage power grids from prior design specifications and criteria (project or project) type) or conditions given and complying with the implementing regulations. CR1.1 The conditions and characteristics of the network are in line with the related legislation (REBT and Technical Instructions Complementary, among others) and provide for environmental protection rules.

CR1.2 Functional and general schemas are completed, collecting:

-The line layout description indicating the step zones.

-The location of ditches, archets, galleries, among others. -The ratio of crosses, parallels and proximity (with other lines of low voltage, with lines of telecommunication, with lines of high voltage, with roads and railways, among others) and other regulated situations, with the data for its location, identification of owner, entity and body concerned. -Circuits and elements (conductors, isolations, supports, insulators, signalling elements, among others) necessary for the configuration of the network.

CR1.3 In the network configuration account is taken of the type of connection (aerial, underground or mixed) and the type of installation: aerial (inn on facade, tensed on post, among others) or underground and the characteristics of the layout.

CR1.4 The calculations of the magnitudes (maximum allowable intensities, maximum intensities in short circuit, correction factors, voltage drops, among others) are performed using tables, software and established procedures. CR1.5 In the layout diagrams, the installation is specified the circuits and the necessary quantities are collected (length, voltage drop, intensity, among others) in the characteristic points. CR1.6 The characteristics of the equipment and elements are those required according to the type of the installation (aerial, underground directly buried, in galleries, among others.) and respond to the requirements of the assembly. CR1.7 The installation ground network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations. CR1.8 The information for the preparation of the plans of the installation is collected with precision in the sketches and schemes. CR1.9 The specifications report accurately collects all the data necessary for the design of the project's memory: the purpose, location, sections of the drivers, the functional and technical characteristics, as well as the equipment and elements, inter alia, of the installation.

RP2: Select the equipment, elements, and materials of the low voltage power grids from the specifications report, previous design criteria, and complying with the application regulations. CR2.1 The elements of the installation are selected in response to the current regulations, to the norms of approval of the sector and internal of the company.

CR2.2 The model and range of electrical machines, equipment, conductors and accessories meets the required function. CR2.3 The parameters for the selection of electrical elements correspond to the technical specifications and characteristics of the installation and type of installation. CR2.4 The choice of components is achieved by combining the guarantees of "interchangeability", supply and costs. CR2.5 The elements of the installation are uniquely identified with all the brand references, model among others of the manufacturer as well as with the approval rules to which it responds. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and enables the production of general budgets, budgets and the basic safety study.

RP3: Elaborate plans of general layout, location, detail and functional schemes of the installations and of the electrical frames of the distribution networks in low voltage from the developed schemes and sketches, the list of specifications and meeting the design criteria established with the required quality.

CR3.1 The representation of the plans of the networks, schemes, among others:-It is carried out with the symbology and standard conventionalisms of application and, if necessary, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.2 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes, allows:

-Know the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -To know the characteristic values in each circuit and the specifications of the equipment and the constituent elements of the installation.

CR3.3 The location of the equipment, dimensions and technical specifications of the circuits and their elements defined in the general plans of the installation take into account the safety requirements and comply with the requirements regulations and enforcement ordinances.

CR3.4 The layout of the networks allows for the maintenance of the installation and takes into account the place where it runs and other types of installations. CR3.5 The arrangement of supports and anchorages prevent mechanical stresses and unwanted deformations in the equipment and conductions. CR3.6 The installation details of the installations, equipment and their components:

-Contains the constructive shapes and dimensions of foundations and anchors, carrier and equipment supports and takes into account the conditions of the environment.

-The defined cutting elements allow for its transport, the passage through the accesses and the manipulation with the available means and in the safety conditions required in work. -The elements of civil work necessary for the installation, such as ditches, galleries, sunsets, registry archets, among others, are dimensionally defined as well as their specifications and requirements.

CR3.7 The defined implementation complies with the current regulations regarding the safety of persons, equipment and facilities.

CR3.8 The layout, connection and assembly plans meet the specifications and determined design criteria, achieving the established quality levels. CR3.9 The general listing of equipment, elements of the installation and means of safety is updated in the event of variations.

RP4: Determine the costs of low voltage power grid installations by defining the units of work and the quantities of each of them, applying established scales and unit prices, from the list general of equipment and elements of the installation.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures and determining:-The elements that make up them.

-The measurements with their units. -The quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.3 The work unit set includes all the jobs to be performed. CR4.4 The measurement obtained is clearly specified in the corresponding document with the required precision and is reflected with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of both the general budget and the budget of the works in the parts in which they are subject to intervention by the various bodies.

RP5: Develop technical specifications of test and test reception of elements and installations of low voltage power grids, based on the technical documentation of the project, quality plan and the plan security.

CR5.1 The technical specifications for the supply of materials, products and equipment are defined with their characteristics, standards, regulations and approvals of construction, quality and safety conditions and are determined receipt tests required to ensure the level of quality established.

CR5.2 The storage and handling conditions for the installation of equipment and installation elements are extracted from the manufacturer's information. CR5.3 The parameters (resistance, isolation, among others) that must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.4 The installation reception conditions and project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction manual and maintenance of low voltage power grid installations.

CR6.1 The service instruction manual is prepared by specifying the conditions of the commissioning, operation and safety, as well as the actions to be followed in case of failure or emergency.

CR6.2 The maintenance manual is made by specifying the stopping and commissioning procedures, the inspection points for maintenance, parameters to be controlled, operations to be performed, means used and periodicity of the actions.

RP7: Develop the basic safety and health study for the execution of low voltage power grid installations.

CR7.1 The risk factors associated with the operations (transport of materials, work in height, hoisting of supports, foundation of the supports, tensioning of drivers, among others) of execution of the installation are identified with accuracy.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production Media: Computer and computer applications for design of low voltage power grid installations, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

Low voltage power grid installations projects. List of equipment and materials sized for low voltage networks. Electrical schemes. Schemes and sketches of low voltage networks. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of low voltage network installations. Records and records. Manual of service and maintenance instructions. Basic safety study.

Information used or generated:

Electrotechnical Low Voltage Regulation. UNE Standards. Standards for electric companies. CENELEC. Low voltage power grid installations projects. Technical manuals of equipment, elements and materials. Implementing rules and regulations in force. Studies on safety in the installations of low voltage power grids.

Competition Unit 2: Develop high-voltage power grid projects

Level: 3.

Code: UC0832_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of equipment, elements and materials of high-voltage power grids, based on prior design specifications and criteria and complying with regulations application.

CR1.1 The conditions and characteristics of the network are in accordance with the related regulations (RAT, Regulations on Technical Conditions and Safety Guarantees in Electrical Central, Substations and Transformation Centers, between other) and provide for environmental protection rules.

CR1.2 Functional and general schemas are completed by collecting:

-The line layout description indicating the affected provinces and municipal terms.

-The location of ditches, archets, galleries, among others. -The relationship of cross-breeding, parallelism and other regulated situations, with the data for its location, identification of owner, entity and organism concerned. -The circuits and elements (conductors, isolations, supports, crutches signalling elements, among others) necessary for the configuration of the network.

CR1.3 In the network configuration, the type of installation (aerial or underground), the forecast of loads, the type of terrain by which it runs and the characteristics of the layout, among others, are taken into account.

CR1.4 Electrical magnitudes calculations (maximum allowable current density, apparent reactance, voltage drops, power to carry, power losses, among others) and mechanical (safety coefficients, tenses maxima, nominal support efforts, drivers 'traction, drivers' arrow, regulation vans, among others) and safety distances (distances from drivers to the ground, maximum distance between drivers, minimum distances between drivers, crosses, parallels, among others) perform using tables, software, and established procedures. CR1.5 The layout patterns of the installation are performed and collect the necessary magnitudes (length, voltage drop, intensity, among others) in the characteristic points. CR1.6 The characteristics of the equipment and elements (conductors, earth cables, fittings, insulators, supports, braces, among others) are identified, being the ones required according to the type of installation (aerial, underground) and respond to the requirements of the assembly. CR1.7 The placement and type of the support allows to optimize the use of the spaces and contemplates the current regulations. CR1.8 The elements of protection of the avifauna are taken into account in the protected zones and the lines are marked with anti-collision devices in the usual areas of passage. CR1.9 The installation ground network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations and takes into account the type of installation (on support or underground). CR1.10 The information for the preparation of the plans of the installation is collected with precision in the sketches and schemes. CR1.11 The specifications report accurately collects all the data necessary for the design of the project's memory: the purpose, location, sections of the drivers, the functional and technical characteristics, as well as the equipment and elements, inter alia, of the installation.

RP2: Select the equipment, elements, and materials of high-voltage power grids, from the report of specifications and previous design criteria and complying with the implementing regulations.

CR2.1 The elements of the installation are selected in response to the current regulations, to the approval rules of the sector and internal to the company.

CR2.2 The model and range of electrical machines, equipment, conductors and accessories are selected according to the required function. CR2.3 The parameters of the electrical elements are selected by responding to the technical specifications, assembly characteristics and type of installation. CR2.4 The choice of components is achieved by combining the guarantees of "interchangeability", supply and costs. CR2.5 The elements of the installation are identified with all the brand references, model, ranges, among others, of the manufacturer and with the information determined by the applicable standard or approval. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and It allows for the production of general budgets, budgets, basic safety study and the project's memory.

RP3: Develop general layout plans, site, detail and functional schemes of the installations of high-voltage power grids, based on the specifications and design criteria established with the quality required.

CR3.1 The situation plans are performed at a sufficient scale so that the site of the line is perfectly defined.

CR3.2 The planes of the longitudinal profile and the plant are performed at the minimum scales indicated in the RAT, placing in plant all the services that exist at the regulated distance, indicating the situation and numbering of the supports, its type, system of fixing of the conductors, the scale of the kilometers, the lengths of the vanians, angles of layout and the altitude of the main points of the profile, among others. CR3.3 The detail plans relating to crosses, parallelisms, steps and other regulated situations are made explicitly and numerically the fulfilment of the minimum separations imposed on each of them. CR3.4 The drawings of each type of support, their foundations, insulators, fittings, earth sockets or the different sets used are carried out and completed using the appropriate scale. CR3.5 The representation of the plans of the networks, schemes, among others:

-It is done with the standard symbology and conventionalisms of application and, where appropriate, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.6 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes, allows:

-Know the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -To know the characteristic values in each circuit and the specifications of the equipment and the constituent elements of the installation.

CR3.7 The placement of the supports, equipment, layout, dimensions and technical specifications of the circuits and their elements defined in the general plans of the installation are carried out taking into account the requirements of security and complying with the regulations and ordinances of implementation.

CR3.8 The layout of the networks is carried out in such a way as to permit the maintenance of the installation and taking into account the characteristics of the terrain, where it is located and other types of installations. CR3.9 The defined implementation complies with the current regulations regarding the safety of persons, equipment and facilities. CR3.10 The design, connection and assembly plans meet the specifications and design criteria, achieving the established quality standards. CR3.11 The general listing of equipment, elements of the installation and means of safety is updated in the event of variations.

RP4: Determine the costs of installations of high-voltage power grids, defining the units of work and the quantities of each of them, applying established scales and unit prices, from the list general of equipment and elements of the installation.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures, determining:-The elements that compose it.

-The measurements with their units. -The quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.3 The work unit set includes all the jobs to be performed. CR4.4 The measurements obtained are reflected in the corresponding document with the required precision and are expressed with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of both the general budget and the budget of the works in the parts in which they are subject to intervention by the various bodies.

RP5: Develop technical specifications of test and test reception of the installations of high-voltage power grids, based on the technical documentation of the project, quality plan and safety plan.

CR5.1 The technical specifications for the supply of materials, products and equipment, correctly define their characteristics, standards, regulations and approvals of construction, quality and safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The storage and handling conditions for the installation of equipment and installation elements are extracted from the manufacturer's information. CR5.3 The parameters (resistance, isolation, among others) that must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.4 The installation reception conditions and project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction manual and maintenance of high voltage power grid installations.

CR6.1 The service instruction manual is prepared by specifying the conditions of the commissioning, operation and safety, as well as the actions to be followed in case of failure or emergency.

CR6.2 The maintenance manual is made by specifying the stopping and commissioning procedures, the inspection points for maintenance, parameters to be controlled, operations to be performed, means used and periodicity of the actions.

RP7: Develop the basic safety and health study for the execution of high-voltage power grid installations.

CR7.1 The risk factors associated with the operations (transport of materials, work in height, hoisting of supports, foundation of the supports, tensioning of drivers, among others) of the execution of the installation are identified with precision.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production Media: Computer and computer applications for the design of high-voltage power grid installations, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

High voltage power grid installations projects. List of equipment and materials sized for high voltage networks. Electrical schemes. Schemes and sketches of high voltage networks. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of high voltage network installations. Records and records. Manual of service and maintenance instructions. Basic safety study.

Information used or generated:

High voltage overhead electric line regulation. UNE Standards. Standards for electric companies. CENELEC. High voltage power grid installations projects. Technical manuals of equipment, elements and materials. Implementing rules and regulations in force. Studies on safety in the installations of high-voltage power grids.

Competition Unit 3: Develop power facility projects for transformation centers

Level: 3. Code: UC0833_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of the equipment, elements and materials of the transformation centers from previous design specifications and criteria and complying with the regulations of the application. CR1.1 The conditions and characteristics of the transformation centre are in line with the related legislation (REBT, Regulations on Technical Conditions and Safety Guarantees in Electrical Power Stations, Substations and Processing Centres). Additional Technical Instructions and Regulation of High-Tension Air-Power Lines, among others).

CR1.2 Functional and general schemas are completed, collecting:

-The location and access of the transformation center so that it can be identified without error (street, road, paraje, among others).

-The points and lines to which you connect indicating the type and characteristics of these. -The characteristics of the supports, envelopes, foundations and armed, among others, necessary for the configuration of the center of transformation. -The characteristics of the transformer, devices of maneuver in high voltage, protection against surges, protection of low tension and systems of grounding among others. -Electrical circuits and elements (drivers, fuses, BT modular frames, Celtic-traffic interconnection, BT-frame interconnection, grounding installation, ventilation systems, signalisations and safety equipment, between other) required for the configuration of the CT.

CR1.3 The calculations of the electrical magnitudes (short circuit power, pass and contact voltage, intensities, power losses, among others) and mechanical (sizing of the barrages, safety coefficients, Surface of ventilation grids, among others) and safety distances (distances from drivers to the ground, minimum distances between drivers, among others) are carried out using tables, software and procedures established.

CR1.4 The layout patterns of the electrical installation are performed and collect the necessary magnitudes (length, intensity, among others) in the characteristic points. CR1.5 The characteristics of the equipment and elements (transformer, relays, frames, conductors, earth cables, fittings, insulators, among others) are determined for the operation of the installation and respond to the requirements of the assembly. CR1.6 The land networks of the facility are configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations and takes into account the type of transformation center. CR1.7 The information for the subsequent elaboration of the plans of the installation is collected in the sketches and diagrams with precision. CR1.8 The specifications report accurately collects all the data necessary for the design of the project's memory: the purpose, location, accesses, sections of the drivers, the functional and technical characteristics, as well as the equipment and elements, inter alia, of the installation.

RP2: Select the equipment, elements, and materials for the assembly of transformation centers from the specification report, previous design criteria, and complying with the application regulations.

CR2.1 The elements of the installation are selected in response to the current regulations, to the approval rules of the sector and internal to the company.

CR2.2 The model and range of electrical machines, equipment, conductors and accessories are selected according to the required function. CR2.3 The parameters of the electrical elements are selected by responding to the technical specifications, assembly characteristics and type of installation. CR2.4 The choice of components is achieved by combining the guarantees of "interchangeability", supply and costs. CR2.5 The elements of the transformation centre are identified with all the brand references, model, ranges, inter alia, of the manufacturer and with the information to be determined by the relevant application standard or approval. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and It allows for the production of general budgets, budgets, basic safety study and the project's memory.

RP3: Develop general layout plans, location, detail and functional schemes of the transformation center installations from the specifications and design criteria established with the required quality.

CR3.1 The situation plans are performed at a sufficient scale so that the site of the transformation center and the accesses are perfectly defined.

CR3.2 The planes of insulators, fittings, earth sockets or the different sets used are completed and completed using an appropriate scale. CR3.3 The representation of the plans of the networks, schemes, among others:

-It is done with the standard symbology and conventionalisms of application and, where appropriate, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.4 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes, allows:

-Know the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -To know the characteristic values in each circuit and the specifications of the equipment and the constituent elements of the installation.

CR3.5 The location of the equipment, the layout, the dimensions and technical specifications of the circuits and their elements defined in the general plans of the installation are carried out taking into account the requirements of security and complying with the regulations and ordinances of implementation.

CR3.6 The equipment and wiring arrangement is performed in such a way as to allow the installation to be maintained and to take into account the safety regulations. CR3.7 The arrangement of supports and anchorages prevent mechanical stresses and unwanted deformations in the equipment and conductions. CR3.8 The defined implementation complies with the current regulations concerning the safety of persons, equipment or installations. CR3.9 The layout, connection and assembly plans meet the specifications and determined design criteria, achieving the established quality standards. CR3.10 The general listing of equipment, elements of the installation and means of safety is updated in the event of variations.

RP4: Determine the costs of the transformation center facilities by defining the units of work and the quantities of each unit, applying established scales and unit prices, from the general listing of equipment and elements of the installation.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures and determining:-The elements that compose it.

-The measurements with their units. -The quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.3 The work unit set includes all the jobs to be performed. CR4.4 The measurements obtained are reflected in the corresponding document with the required precision and are expressed with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of both the general budget and the budget of the works in the parts in which they are subject to intervention by the various bodies.

RP5: Develop technical specifications of test and test reception of the facilities of the transformation centers from the technical documentation of the project, quality plan and safety plan.

CR5.1 The technical specifications for the supply of materials, products and equipment, correctly define their characteristics, standards, regulations and approvals of construction, quality and safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The parameters (resistance, isolation, among others) that must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.3 The storage and handling conditions for the installation of equipment and elements of the installation are extracted from the manufacturer's information. CR5.4 The installation reception conditions and project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction manual and maintenance of the facilities of the transformation centers.

CR6.1 The service instruction manual is prepared by specifying the conditions of the commissioning, operation and safety, as well as the actions to be followed in case of failure or emergency.

CR6.2 The maintenance manual is made by specifying the stopping and commissioning procedures, the inspection points for maintenance, parameters to be controlled, operations to be performed, means used and periodicity of the actions.

RP7: Develop the basic safety and health study for the execution of the facilities of transformation centers.

CR7.1 The risk factors associated with the operations (transport of materials, jobs in height, foundations, tensioning of drivers, among others) of the execution of the installation are precisely identified.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production Media: Computer and computer applications for design of transformation center installations, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

Transform center facility projects. List of equipment and materials sized for the transformation centers. Electrical schemes. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of facilities for processing centres. Manual of service and maintenance instructions. Basic safety study.

Information used or generated:

Electrotechnical Low Voltage Regulation. Regulation of High-voltage Air Power Lines. CENELEC. UNE Standards. Technical Conditions and Security Guarantees in Central Electrical Substations and Transformation Centers. Standards for electric companies. Projects for facilities for processing centres. Technical manuals for equipment, machines and materials. Implementing rules and regulations in force. Studies on safety in the facilities of transformation centres.

Competition Unit 4: Develop outdoor lighting installations projects

Level: 3.

Code: UC0834_3.

Professional realizations and realization criteria:

RP1: Develop sketches, schemes and determine the characteristics of the equipment, elements and materials of the exterior lighting installations from previous design specifications and criteria and comply with the requirements implementing regulations. CR1.1 The conditions and features of the installation are in line with the related regulations (REBT and Technical Instructions, ICN, among others) and provide for environmental protection rules.

CR1.2 Functional and general schemas are completed by collecting:

-The description of the zones to be illuminated with indication of the situation and characteristics.

-The optimal arrangement of the points of light (unilateral, three-bolted, paired, suspended, among others) depending on the area (driveways, squares, roundabout, gardens, tunnels, among others) to illuminate. -The location of ditches, archets (derivation and crossing) and supports. -The layout and characteristics of the control centers and the power circuits. -The grounding lines.

CR1.3 The installation configuration is complete and the type of installation (motorways and highways, bypass rounds, streets, gardens, among others) is taken into account in the forecast of loads, the type of land by which discurre, the characteristics of the layout and the volume of traffic, among others.

CR1.4 The calculations of the electrical magnitudes (allowable current, conductor sections, electrical moment, voltage drops, power losses, among others) are performed using tables, software and established procedures. CR1.5 The maximum, mean and minimum illuminance and luminance calculations, as well as the extreme and longitudinal mean uniformity in their case, luminaire-specific index, annoying glare control, threshold increase corresponding to the Disruptive glare, among others, are performed for each type of installation using tables, software and established procedures. CR1.6 The layout patterns of the installation are realized and collect the necessary quantities both electric and light in the characteristic points. CR1.7 The layout of the installations is carried out in such a way as to allow maintenance and taking into account the characteristics of the terrain and other types of installations. CR1.8 The installation ground network is configured according to the electrical safety measures required and prescribed by the current electrotechnical regulations and takes into account the type of installation. CR1.9 The information for the preparation of the plans of the installation is collected with precision in the sketches and schemes. CR1.10 The purpose, functional and technical characteristics of the installation, equipment and elements is contained in the specifications report.

RP2: Select the equipment, elements and materials of the lighting installations from the specifications report, previous design criteria and complying with the implementing regulations.

CR2.1 The elements of the installation are selected in response to the current regulations, to the company's internal and sector approval rules and to the application ordinances.

CR2.2 The model and range of the media, luminaires, conductors and electrical accessories, among others are selected according to the required function. CR2.3 The parameters of the electrical elements are selected by responding to the technical specifications, assembly characteristics and type of installation. CR2.4 The choice of components is achieved by combining the guarantees of "interchangeability", supply and costs. CR2.5 The elements of the installation are identified with all the brand references, model, ranges, among others, of the manufacturer and with the information determined by the applicable standard or approval. CR2.6 The general listing of equipment, elements of the installation and the means of safety with all technical references, approval rules, identification of manufacturers and unit prices, among others, is included in the relevant report and It allows for the production of general budgets, budgets, basic safety study and the project's memory.

RP3: Develop general layout plans, location, detail and functional schemes of exterior lighting installations based on the specifications and design criteria established with the required quality.

CR3.1 The situation and general orientation plans are performed at a sufficient scale so that the site of the line is perfectly defined.

CR3.2 The detail plans relating to crosses, parallelisms, steps and other regulated situations are performed explicitly and numerically the fulfilment of the minimum separations imposed on each of them. CR3.3 The planes of supports, foundations, types of luminaires, earth sockets, among others or of the different sets used are carried out and completed using the appropriate scale. CR3.4 The representation of the installation plans:

-It is done with the standard symbology and conventionalisms of application and, where appropriate, with the internal rules of the company.

-Allows the identification of the different circuits or systems and their components. -It uses the system of representation and the scale most appropriate to the contents.

CR3.5 The graphical layout of the representation of the elements, their groupings and the reference and coding systems in the different planes, allows:

-Know the relationships established between them.

-Perform sequential monitoring of the operation of the installation. -To know the characteristic values in each circuit and the specifications of the equipment and the constituent elements of the installation.

CR3.6 The placement of the supports, bacles, equipment and its elements defined in the general plans of the installation are carried out taking into account the safety requirements and complying with the regulations and ordinances application.

CR3.7 The layout of the installation is performed in such a way as to allow maintenance and taking into account the characteristics of the terrain, where it is located and other types of installations. CR3.8 The defined implementation complies with the current regulations concerning the safety of persons, equipment or installations. CR3.9 The layout, connection and assembly plans meet the specifications and determined design criteria, achieving the established quality standards.

RP4: Determine the costs of the installations by defining the units of work and the quantities of each unit, applying established unit prices, based on the general listing of equipment and elements of the installation.

CR4.1 The established units of work are broken down to obtain their cost by applying established procedures, determining:-The elements that compose it.

-The measurements with their units. -The quantities of each of them. -The operations to be performed. -The conditions of assembly. -Labor that intervenes. -Estimated time for execution. -The required quality conditions. -Total cost of each unit of work. -Total cost of the installation.

CR4.2 All units of work conform to the technical specifications of the project and to those of the specification.

CR4.3 The work unit set includes all the jobs to be performed. CR4.4 The measurements obtained are reflected in the corresponding document with the required precision and are expressed with the precise unit of measurement. CR4.5 The information obtained is reflected in the relevant document and allows for the preparation of both the general budget and the budget of the works in the parts in which they are subject to intervention by the various bodies.

RP5: Elaborate technical specifications of tests and trials of reception of outdoor lighting installations, based on the technical documentation of the project, quality plan and safety plan.

CR5.1 The technical specifications for the supply of materials, products and equipment are correctly defined with their characteristics, standards, regulations and approvals of construction, quality, safety conditions and determine the required reception tests to ensure the level of quality established.

CR5.2 The storage and handling conditions for the installation of equipment and installation elements are extracted from the manufacturer's information. CR5.3 The parameters (resistance, isolation, among others) that must be met by the earth networks are clearly specified with their maximum and minimum values. CR5.4 The installation reception conditions and project milestones (time and result to be obtained) are clearly specified in the relevant documentation.

RP6: Develop the service instruction and maintenance manual for outdoor lighting installations.

CR6.1 The service instruction manual is prepared by specifying the conditions of the commissioning, operation and safety, as well as the actions to be followed in case of failure or emergency.

CR6.2 The maintenance manual is made by specifying the stopping and commissioning procedures, the inspection points for maintenance, parameters to be controlled, operations to be performed, means used and periodicity of the actions.

RP7: Develop the basic safety and health study for the execution of outdoor lighting installations.

CR7.1 The risk factors associated with the operations (material transport, mounting of the bacles, mounting of luminaires, among others) of the execution of the installation are precisely identified.

CR7.2 The risks associated with risk factors are identified and indicated by preventive measures as well as the protections to be used, both individual and collective. CR7.3 The basic safety and health study is developed taking into account the instructions for handling equipment and materials supplied by the manufacturer, as well as the experience gained in works of similar characteristics.

Professional context:

Production means: Computer and computer applications for design of outdoor lighting network installations, "Plotter" drawing. Printers. Scanner. Reproduction of plans. Drawing instruments. Calculator. Computer software for calculation and simulation. Tables and charts.

Products and results:

External lighting network installations projects. List of equipment and materials sized from the exterior lighting networks. Electrical schemes. Schemes and sketches of the exterior lighting networks. Floor plans. Drawings of detail. Units of work. Cost of the facilities. Technical specifications for testing and testing of outdoor lighting installations. Records and records. Manual of service and maintenance instructions. Basic safety study.

Information used or generated:

Electrotechnical Low Voltage Regulation. ICN rules. Standards for electric companies. CENELEC. Projects for outdoor lighting installations. Technical manuals of equipment, elements and materials. Implementing rules and regulations in force. Studies on safety in outdoor lighting installations.

Form 1: Development of low voltage power grid projects

Level: 3.

Code: MF0831_3. Associated with UC: Develop low voltage power grid projects. Duration: 150 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of low voltage power grids to identify their components, relate them to each other and describe the operating parameters of the components and the installation. CE1.1 Given an installation of a low voltage electrical network characterized by its plans and technical memory (technical documentation):-Identify its parts and elements, relating them to the symbols that appear on the planes.

-Identify the spaces by which you run and relate the cotas that appear on the planes to reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network.

CE1.2 Analyze the function, in a low voltage power grid, of the elements that compose it, describing its technical characteristics:

-Apoyos and postecillos.

-Insulators. -Cimentations. -Drivers and cables. -Materials and accessories. -Zangas, archets, galleries. -Elements of maneuver and protection. -Net of land. -Other elements of the installation.

CE1.3 From the technical documentation of a low voltage power grid:

-Identify facilities that affect the network and verify that the rules on cross-over, parallelism, and proximities are met.

-Indicate the possible dislevels in your entire journey. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation.

C2: Develop the schemas and sketches of a low voltage power grid in a given location and select the elements that compose it from a given project or conditions and applying the regulations.

CE2.1 From a preliminary draft or conditions given a low voltage network, in a given location:-Identify for its application the regulations affecting the layout of the network (REBT, regulations of the companies of the electricity distribution, municipal ordinances, among others).

-Mark the overall layout of the line on a plane at the corresponding scale. -Draw and complete the general schemes (hoaxes and plants), collecting in them the description of the line layout, the areas of passage, the situation of the elements of civil work (ditches, archets, galleries, among others, the crosses, proximity and parallels with other distribution lines, telecommunication lines, among others.

CE2.2 From a project or conditions given from a low voltage network in a given location:

-Complete and perform the calculations of the electrical quantities (maximum allowable intensities, electric moment, maximum intensities in short circuit, conductor sections, among others) necessary to size the elements of the installation, adapting them to the standard values.

-Complete and perform the calculations of the mechanical magnitudes (tenses, efforts, tractions, among others) necessary to size the elements of the installation, adapting them to the normalized values. -Characterize the elements of the installation according to the calculated parameters. -Select from catalogues the elements of the network that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE2.3 From a preliminary draft of a low voltage network, in a given location:

-Draw and complete the functional schemes of the network by collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (supports, drivers, among others), optimizing the available space.

-Complete and draw the detail schemas of the network components in those cases where they are needed. -To complete and draw the schemes of the affected according to its type (aerial, underground or mixed) and the type of installation (aerial or underground). -Complete and draw the croquis of the earth networks according to the regulations, security measures and type of installation.

CE2.4 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Develop the schemas and sketches of a low voltage power grid in a given location and select the elements that make it up from a type project and apply the regulations.

CE3.1 From a project type of a low voltage network in a given location:-Identify for its application the regulations affecting the layout of the network (REBT, municipal ordinances, regulations of the companies of the power distribution among others).

-Identify the differences between the type project and the network installation to be developed. -Draw and complete the general schemes, reflecting in them the description of the line layout, the areas of passage, the situation of the civil works elements (ditches, archets, galleries, among others, the crosses, proximities and parallels with other lines of distribution, lines of telecommunications, among others, not included in the type project.

CE3.2 From a project type of a low voltage network:

-Complete and perform the calculations of the electrical quantities (maximum permissible intensities, maximum intensities in short circuit, sections of conductors, among others) necessary to size the elements of the installation, not covered by the type project.

-Complete and perform the mechanical calculations (tenses, efforts, tractions, among others) necessary to size the elements of the installation, not contemplated in the type project. -Characterize the elements of the installation according to the calculated parameters. -Select from catalogues the elements of the network that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE3.3 From a project type of a low voltage network:

-Draw and complete the functional schemes of the network, collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (supports, drivers, among others), optimizing the available space.

-Draw and complete the detail schemas of the components of the network, not contemplated in the type project, with its dimensions in those cases where they are necessary. -Draw and complete the schemes of the affected, not contemplated in the type project, according to its type (aerial, underground or mixed) and the type of installation (aerial or underground). -Draw and complete the drawings of the land networks, not covered by the type of project according to the regulations, security measures and type of installation.

CE3.4 Develop the final specification report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C4: Draw, with a computer-aided design program, the general layout plans, site, detail and functional schemes of a low voltage power grid in a given location, starting from the sketches and schemes developed and the general listing of equipment and elements of the installation.

CE4.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE4.2 Draw the drawings and schemes of the installation in the corresponding format and with the standard graphic specifications of the sector. CE4.3 Represent with the standardized symbology of the sector the elements of the installation. CE4.4 Drawing using the scale and the most appropriate representation system the plans (site, detail, among others) with its views (floor, flat), corresponding bounds, values in the most significant points and complying with the regulations in force. CE4.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE4.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE4.7 Having the elements in the planes in such a way as to allow the installation to be maintained. CE4.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C5: Determine the units of work and the cost of an installation of a low voltage power grid, from the project documentation and taking into account standard scales, or unit prices extracted from catalogues.

CE5.1 Identify the units of work indicating the elements that make up them, measurements, the quantities of each of them, the operations to be carried out, the conditions of assembly, the manpower involved and the necessary time for execution.

CE5.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE5.3 Draw up the total cost of the installation taking into account the number of units of work.

C6: Define the technical specifications of test and test reception of the elements and the power grid installations of low voltage and elaborate the corresponding documentation.

CE6.1 Define the technical specifications of tests and tests for the supply of materials, products and equipment of a low voltage network.

CE6.2 From a project of a low voltage power grid:

-Collect information from manufacturers regarding the storage of the elements and materials of the facilities.

-Define project milestones. -Define the conditions of reception of the installation.

CE6.3 From a project of a low voltage power grid:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones. -To draw up the documentation corresponding to the conditions of reception of the installation.

c7: Compose the manual of service instructions and maintenance of low voltage power grid installations from the documentation of a project.

CE7.1 Organize and collect information for the elaboration of the service and maintenance instruction manual.

CE7.2 Develop the service instruction manual by specifying the starting, operating, and security conditions. CE7.3 The maintenance manual shall be drawn up specifying the inspection points, parameters to be checked, the frequency of the actions and the general rules in the event of a breakdown or emergency.

C8: Compose the basic safety and health study of low voltage power grid installations from the documentation of a project.

CE8.1 Identify the risk factors associated with the operations to be performed.

CE8.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. CE8.3 To develop the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Low voltage power grids: Distribution of the electrical energy in low voltage. Aerial and underground networks.

Drivers and cables. Types and characteristics. Insulators. Attachment accessories. Supports. Types and characteristics. Tyrants and turning points. Protective elements: fuse, magnetothermic, among others. Signalling elements. Takes of land. Standardized symbology.

2. Basic low voltage network mounting operations:

Canalizations and ditches.

Cimentations. Hoist and plaid of supports. Tensioning and laying of cables. Protection and signalling elements.

3. Low voltage power grid projects. Documentation:

Technical and administrative documentation: Projects: Characteristics of elements and materials. Blueprints and sketches. Calculations. Implementing rules. Others. Type projects. Design Technical Memory: Elements that compose it. Installation and verification certificates.

4. Calculations of electrical and mechanical parameters: selection of elements of low voltage power grids: Mechanical calculations: Application standards. Loads and overloads. Influential factors. Maximum permissible traction. Burst load. Maximum arrow. Climatological areas. Supports. Distance of the naked conductors to the ground and protection zones of the buildings. Minimum separation between naked conductors and between these and the walls or walls of buildings. Crosses and parallels. Application software. Tables and charts. Electrical calculations: Application standards. Electric moment. Maximum permissible intensities. Correction factors. Sections of the drivers. Maximum allowable short circuit intensities in the conductors of the cables. Earth networks. Application software. Tables and charts. Selection of elements of the sized installations.

5. Graphical representation bases applied to the representation of low voltage power grids:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). Software for the design of low voltage distribution power grids.

6. Drawing up plans, and electrical schemes for low voltage network installations:

Software for the design of low voltage power grids. Libraries.

General layout plans. Plant and standard. Drawings of detail and assembly. Electrical schemes: general and related schemes. Drawings of elements of civil work. Others.

7. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Elaboration of Technical Specifications of Equipment and Materials. Price tables. Let's look. General and broken down budgets. Application software.

8. Safety in the assembly of low voltage power grid installations:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Development of basic safety and security studies. Collective and personal protective equipment.

9. Service and maintenance manuals:

Testing and testing of reception of elements of low voltage networks.

Conditions for the installation of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Recommendations of the distribution companies.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Mastery of knowledge and techniques related to the development of low voltage power grid projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Development of high-voltage power grid projects

Level: 3.

Code: MF0832_3. Associated with UC: Develop high-voltage power grid projects. Duration: 200 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of high-voltage power grids to identify their components, relate them to each other and describe the operating parameters of the components and the installation. CE1.1 Given an installation of a high voltage electrical network characterized by its plans and technical memory (technical documentation):-Identify its parts and elements, relating them to the symbols that appear on the planes.

-Identify the spaces by which you run and relate the cotas that appear on the planes to reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network.

CE1.2 Analyze the function, in a high voltage power grid, of the elements that compose it, describing its technical characteristics:

-Supports.

-Insulators. -Herrages. -Cimentations. -Drivers and cables. -Zangas, archets, galleries. -Elements of protection and maneuver. -Land networks. -Other elements of the installation.

CE1.3 From the technical documentation of a high voltage electrical distribution network characterized by its plans and technical memory (technical documentation):

-Identify facilities that affect the network and verify that the rules on cross-over, parallelism, and proximities are met.

-Indicate the possible dislevels in your entire journey. -To verify the application of the regulations in the development of the network. -to develop hypotheses on the effects which, in the operation of the network, would produce the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation.

C2: Develop the schemas and sketches of a high-voltage power grid in a given location and select the elements that compose it from a given project or conditions and apply the regulations.

CE2.1 From a preliminary draft of a high voltage network:-To identify for its application the regulations affecting the layout of the network (Regulation of the Electric Lines of High voltage), Regulation on technical conditions and guarantees of safety in high-voltage power lines, standards of electric power distribution companies, municipal ordinances, among others.

-Mark the overall layout of the line on a plane at the corresponding scale. -Draw and complete the general schemes (hoaxes and plants), collecting in them the description of the line, the areas of passage, the situation of the elements of civil work (ditches, archets, galleries, among others), the crosses, proximity and parallels with other distribution lines, telecommunication lines, among others.

CE2.2 From a project or conditions given from a high voltage network in a given location:

-Complete and perform the calculations of the electrical quantities (maximum permissible intensities, maximum intensities in short circuit, sections of conductors, among others) necessary to size the elements of the installation, adapting them to the standard values.

-Complete and perform the calculations of the mechanical magnitudes (tenses, efforts, tractions, among others) necessary to size the elements of the installation. -Characterize the elements of the installation according to the calculated parameters. -Select from catalogues the elements of the network that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE2.3 From a project or conditions given from a high voltage network in a given location:

-Draw and complete the functional schemes of the network by collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (supports, drivers, among others), optimizing the available space.

-Draw and complete the detail schemas of the components of the installation elements with their dimensions in those cases where they are needed. -Draw and complete the croquis of the earth network according to the regulations, security measures and type of installation.

CE2.4 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Develop the schemas and sketches of a high-voltage power grid in a given location and select the elements that make it up from a type project and apply the regulations.

CE3.1 From a project type of a high voltage network in a given location:-Identify for its application the regulations affecting the layout of the network (municipal ordinances, Regulation on technical conditions and security guarantees in high-voltage power lines, standards of power distribution companies among others).

-Identify the differences between the type project and the network installation to be developed. -Draw and/or complete the general schemes, collecting in them the description of the layout of the line, the areas of passage, the situation of the elements of civil work (ditches, archets, galleries, among others), the crosses, proximities and parallels with other lines of distribution, lines of telecommunications, among others. -Draw and complete the functional schemes of the network, not collected in the type project, reflecting the necessary circuits and elements, for the configuration of the network (supports, drivers, among others), optimizing the available space. -Draw and complete the croquis of the earth network according to the regulations, security measures and type of installation.

CE3.2 From a project type of a high voltage network in a given location:

-Complete and perform the calculations of the electrical quantities (maximum permissible intensities, maximum intensities in short circuit, sections of conductors, among others) necessary to size the elements of the installation, not covered by the standard project, by adhering to the standard values.

-Complete and perform the mechanical magnitudes (tenses, efforts, actions, among others) necessary to size the elements of the installation, not contemplated in the type project. -Characterize the elements of the installation according to the calculated parameters. -Select from catalogues the elements of the network that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE3.3 From a project type of a high voltage network:

-Draw and complete the functional schemes of the network, not contemplated in the type project, collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (supports, drivers, among others), optimizing the available space.

-Draw and complete the detail schemas of the components of the network, not contemplated in the type project, with its dimensions in those cases where they are necessary. -Draw (complete) the croquis of the rede of the earth, not contemplated in the draft type according to the regulations, measures of safety and type of installation.

CE3.4 Elaborate the final specification report, contemplating all the sketches and developed schemes, as well as the general listing of equipment and elements of the installation sized, not contemplated in the type project. C4: Drawing, with a computer-aided design programme, the general layout plans, site plans, detail plans and electrical schemes of a high voltage electrical grid in a given location, starting from the croquis and developed schemes and the general listing of equipment and elements of the installation.

CE4.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE4.2 Draw the drawings and schemes of the installation in the corresponding format and with the standard graphic specifications of the sector. CE4.3 Represent with the standardized symbology of the sector the elements of the installation. CE4.4 Drawing using the scale and the most appropriate representation system the plans (site, detail, among others) with its views (floor, flat), corresponding bounds, values in the most significant points and complying with the regulations in force. CE4.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE4.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE4.7 Having the elements in the planes in such a way as to allow the installation to be maintained. CE4.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C5: Determine the work units and the average cost of an installation of a high voltage electrical grid, from the project documentation and taking into account standard scales, or the unit prices extracted from catalogues.

CE5.1 Identify the units of work indicating the elements that compose them, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, labor that intervenes and the time required for execution.

CE5.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE5.3 Draw up the total cost of the installation taking into account the number of units of work.

C6: Define the technical specifications of test and test reception of the elements and installations of high-voltage power grids and elaborate the corresponding documentation.

CE6.1 Define the technical specifications of tests and tests for the supply of materials, products and equipment for a high voltage distribution network.

CE6.2 From a project of a high voltage distribution power grid:

-Collect information from manufacturers regarding the storage of the elements and materials of the facilities.

-Define project milestones. -Define the conditions of reception of the installation.

CE6.3 From a project of a high voltage distribution power grid:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones. -To draw up the documentation corresponding to the conditions of reception of the installation.

C7: Compose the manual of service instructions and maintenance of high voltage electrical network installations from the documentation of a project.

CE7.1 Organize and collect information for the elaboration of the service and maintenance instruction manual.

CE7.2 Develop the service instruction manual by specifying the starting, operating, and security conditions. CE7.3 The maintenance manual shall be drawn up specifying the inspection points, parameters to be checked, the frequency of the actions and the general rules in the event of a breakdown or emergency.

C8: Compose the basic safety and health study of high-voltage power grid installations from the documentation of a project.

CE8.1 Identify the risk factors associated with the operations to be performed.

CE8.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. CE8.3 To develop the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Power grids in high voltage: Distribution of electrical energy in high voltage. Typology and structure of the network.

Air and underground networks. Field of application. Characteristics of the elements of the installations: Drivers and cables. Isolations. Supports. Types and characteristics. Signage of the supports. Numbering of supports. Crucetas. Situation and rates. Insulators: Chains of insulators. Elements of protection, manoeuvring and detection. Grounding. Protection of the avifauna. Standardized symbology. Safety distances: Distance from drivers to the ground. Maximum vanages for separation between conductors. Minimum distance between the conductors and their fittings in tension and support. Crosses and parallels. Implementing rules.

2. Basic high voltage network assembly operations:

Canalizations and ditches.

Cimentations. Hoist and plaid of supports. Tensioning and laying of cables. Protection and signalling elements.

3. High voltage power plant projects:

Type projects.

Justification and general data. Characteristics of elements and materials. Blueprints and sketches. Calculations. Implementing rules. Others.

4. Calculations of electrical and mechanical parameters: selection of elements of high voltage power grids:

Mechanical Calculations: Application Regulations. Loads and overloads. Influential factors. Maximum permissible traction. Burst load. Laying tables. Maximum arrow. Laying tables. Years of regulation. Repose templates. Isolation levels. Support utilization tables. Minimum distance between the conductors and their fittings in tension and support. Special requirements. Application software. Tables and charts.

Electrical Calculations: Application Regulations. Maximum permissible current density. Maximum permissible intensities. Correction factors. Sections of the drivers. Maximum allowable short circuit intensities in the conductors of the cables. Voltage drop. Apparent reactance. Power to transport. Power losses. Earth networks. Application software. Tables and charts. Selection of elements of the sized installations.

5. Graphical representation bases applied to the representation of high-voltage power grids:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Constructive elements of civil work. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). Software for the design of high-voltage power grids.

6. Drawing up of plans and electrical schemes for high voltage network installations:

Software for the design of high-voltage power grids. Libraries.

Situation Planes: Longitudinal profile and plant. Recommended scales. Drawings of detail of construction and construction elements. Electrical schemes: general and related schemes. Drawings of elements of civil work. Support foundations. Grounding planes. Others.

7. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Price Tables. Let's look. General and broken down budgets. Application software.

8. Safety in the assembly of high voltage power grid installations:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Development of basic safety and health studies. Collective and personal protective equipment.

9. Service and maintenance manuals:

Testing and testing of the reception of elements of high voltage networks.

Conditions for the installation of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Recommendations of the distribution companies.

10. Environmental impact study:

Analysis of the impact of Electrical Lines on avifauna. Signage. Anti-collision elements.

Manual for risk assessment and solutions.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of high-voltage power grid projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 3: Development of Power Facilities for Transformation Centers

Level: 3.

Code: MF0833_3. Associated with the UC: Develop projects of electrical installations of transformation centers. Duration: 150 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of the transformation centers to identify their components, relate them to each other and describe the parameters of operation of the components and the installation. CE1.1 Given an installation of a center of transformation characterized by its plans and technical memory (technical documentation):-Identify its parts and elements, relating them to the symbols that appear in the plans.

-Identify the location and access zones by relating the cotas that appear on the planes to the reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the transformation center.

CE1.2 Analyze the function, in transformation center, of the elements that compose it, describing its technical characteristics:

-Cells and elements of protection, maneuver and measurement.

-Inside and weathering transformers. -Equipment of measurement. Telemedida and telecontrol. -Power factor correction equipment. -Low voltage table. -Signalling and lighting. -Land networks. -Other elements of the installation.

CE1.3 From the technical documentation of a transformation center characterized by its plans and technical memory (technical documentation):

-Identify the different installations that make up the transformation center and verify that the rules are met.

-Develop hypotheses on the effects that would result, in the operation of the transformation centre, on the modification of the characteristics of the elements of the installation or on the malfunction of one or more parts of the the installation.

C2: Develop the schemas and sketches of a transformation center in a given location and select the elements that make it out of a given blueprint or conditions and apply the rules.

CE2.1 From a preliminary draft of a transformation centre:-Identify for its application the regulations affecting the processing centre (REBT, ordinances, regulations on technical conditions and security guarantees in the power plants, substations and processing centres, standards of electric power distribution companies, among others).

-Mark the location of the transformation center on a plane at the corresponding scale. -Draw and complete the general schemes (raised and plants) collecting the areas of passage, the situation of the elements of civil work, arrangement of the elements of the center of transformation, among others.

CE2.2 From a blueprint or given conditions of a transformation center:

-Complete and perform the calculations of the electrical quantities (maximum permissible intensities, maximum intensities in short circuit, sections of conductors, among others) necessary to size the elements of the installation, adapting them to the standard values.

-Complete and perform the calculations of the mechanical magnitudes (tenses, efforts, surface of grids, tractions, among others) necessary to size the elements of the installation. -Characterize the elements of the installation according to the calculations made. -Select from catalogues the elements of the transformation center that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE2.3 From a blueprint or given conditions of a transformation center:

-Draw and complete the functional schemas of the transformation center by collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the installation (supports, conductors, The invention also includes:

-Draw and complete the detail schemas of the components of the installation elements in those cases where they are needed, with their dimensions. -Draw and complete the croquis of the earth networks according to the regulations, security measures and type of installation.

CE2.4 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Develop the schemas and sketches of a transformation center in a given location and select the elements that compose it from a type project and apply the rules.

CE3.1 From a project type of a transformation center:-Identify for its application the regulations affecting the center of transformation (REBT, regulation on technical conditions and security guarantees in central power, substations and transformation centres, RLAT standards of electric power distribution companies, municipal ordinances, among others).

-Identify the differences between the type project and the installation to be developed. -Draw and complete the general schemes, not collected in the type project, collecting in them the areas of passage, the situation of the elements of civil work (ditches, archets, among others, the crosses, proximities and parallels with others distribution lines, telecommunication lines, among others.

CE3.2 From a project type of a transformation center:

-Perform and complete the calculations of the electrical quantities (maximum allowable intensities, maximum intensities in short circuit, conductor sections, among others) necessary to size the elements of the installation, not covered by the standard project, adapting them to the standard values.

-Perform and complete the calculations of the mechanical magnitudes (ventilation, drilling, efforts, tractions, among others) necessary to size the elements of the installation, not contemplated in the type project. -Characterize the elements of the installation, not contemplated in the type project according to the calculations made. -Select from catalogues the elements of the transformation center that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references, not contemplated in the type project.

CE3.3 From a project type of a transformation center:

-Draw and complete the functional installation schemes, collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (supports, conductors, transformers, among others), optimizing the available space.

-Draw and complete the detailed schemas of the components of the transformation center, not contemplated in the type project, with its dimensions in those cases where they are necessary. -Draw and complete the drawings of the land networks, not covered by the type of project according to the regulations, security measures and type of installation.

CE3.4 Elaborate the final specification report, contemplating all the sketches and developed schemes, as well as the general listing of equipment and elements of the installation sized, not contemplated in the type project.

C4: Drawing, with a computer-aided design program, the general layout plans, site plans, detail plans and electrical schemes of a transformation center in a given location, starting from the sketches and schemes developed and the general listing of equipment and elements of the installation. CE4.1 Draw the plans and schemes of the facilities giving a response to the sketches and developed schemes and to the general listing of equipment and elements of the installation.

CE4.2 Draw the drawings and schemes of the installation in the corresponding format and with the standard graphic specifications of the sector. CE4.3 Represent with the standardized symbology of the sector the elements of the installation. CE4.4 Drawing using the most appropriate scale and system of representation the plans (site, detail, isometric, among others) with its views (plant, standard), corresponding values, values in the most significant points and fulfilling the rules in force. CE4.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE4.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE4.7 Having the elements in the planes in such a way as to allow the installation to be maintained. CE4.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C5: Determine the units of work and the average cost of an installation of a transformation center, based on the project documentation taking into account standard scales, or unit prices extracted from catalogs.

CE5.1 Identify the units of work indicating the elements that make them, measurements, the quantities of each of them, the operations to be carried out in each of them, conditions of assembly, manpower that intervenes and the time required for execution.

CE5.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE5.3 Draw up the total cost of the installation taking into account the number of units of work.

C6: Define the technical specifications for the testing and testing of the reception of the elements and the facilities of the transformation centres and prepare the corresponding documentation.

CE6.1 Define the technical specifications of tests and tests for the supply of materials, products and equipment for the installation of a transformation center.

CE6.2 From a project in a transformation center:

-Collect information from manufacturers regarding the storage of the elements and materials of the facilities.

-Define project milestones. -Define the conditions of reception of the installation.

CE6.3 From a transformation center project:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones. -Draw up the documentation of the conditions of reception of the installation.

c7: Compose the manual of service instructions and maintenance of electrical installations in transformation centers from the documentation of a project.

CE7.1 Organize and collect information for the elaboration of the service and maintenance instruction manual.

CE7.2 Develop the service instruction manual by specifying the starting, operating, and security conditions. CE7.3 The maintenance manual shall be drawn up specifying the inspection points, parameters to be checked, the frequency of the actions and the general rules in the event of a breakdown or emergency.

C8: Compose the basic safety and health study of electrical installations in transformation centers from the documentation of a project.

CE8.1 Identify the risk factors associated with the operations to be performed.

CE8.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. CE8.3 To develop the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Distribution of electrical energy. Typology and structure of networks:

2. Types of transformation centers:

Inside and weathering.

Client and company.

3. Elements of the transformation centres:

Buildings and supports for transformation centers.

Types and characteristics of the cells in the transformation centers. High Tension Cells. Transformers. Nameplate. Characteristic values. Correction of the power factor. Nameplate. Protection of transformers. Related. Coupling conditions and opening and closing operations. Measuring transformers. Protective and manoeuvring apparatus. Low voltage general picture. Measuring and correcting equipment of the power factor. Telemedida and telecontrol. Grounded. Signage, safety material and lighting.

4. Basic transformation center assembly operations:

Team and element conexion.

Hoisting and aplomb of supports. Foundation. Control, protection and signalling elements.

5. Projects of the electrical installations of processing centres:

Type projects.

Justification and general data. Characteristics of elements and materials. Blueprints and sketches. Calculations. Implementing rules. Others.

6. Calculations of the electrical and mechanical parameters: selection of elements of the facilities of the transformation centres:

Mechanical Calculations: Application Regulations. Ventilation: sizing of grids. Dimensioned of the barrel. Efforts. Tenses. Application software. Tables and charts. Others.

Electrical Calculations: Application Regulations. Intensities. Sections of drivers. Power. Correction of the power factor. Self-valves. Land: tensions of passage and contact. Application software. Tables and charts. Others. Selection of elements of the sized installations.

7. Basis of graphical representation applied to the representation of electrical installations of transformation centres:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Constructive elements of civil work. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). CAD for design of electrical installations in transformation centers.

8. Drawing up of plans and electrical schemes for electrical installations in processing centres:

Transform center facility design software. Libraries.

Isometric Planes. Drawings of detail of construction and construction elements. Electrical schemes: general and related schemes. Drawings of elements of civil work. Grounding planes. Others.

9. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Price Tables. Let's look. General and broken down budgets. Application software.

10. Security in the assembly of installations of the facilities of transformation centres:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Collective and personal protective equipment. Development of basic safety and health studies.

11. Service and maintenance manuals:

Technical specifications for equipment and materials.

Testing and testing of the reception of elements of the transformation centres. Conditions for placing in service of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals. Recommendations of the distribution companies.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of transformation center projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or others of higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 4: Development of exterior lighting installations projects

Level: 3.

Code: MF0834_3. Associated with UC: Develop projects for outdoor lighting installations. Duration: 150 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of exterior lighting installations to identify their components, relate them to each other and describe the operating parameters of the components and the installation. CE1.1 Given an exterior lighting installation characterized by its drawings and technical memory (technical documentation):-Identify its parts and elements, relating them to the symbols that appear on the planes.

-Identify the spaces by which you run and relate the cotas that appear on the planes to reality. -Describe the general operation of the installation. -Establish the working relationships between the different systems and elements of the installation. -Verify compliance with the application regulations in the design of the network.

CE1.2 Analyze the function, in an exterior lighting installation, of the elements that compose it, describing its technical characteristics:

-Bacles and columns.

-Luminaries and lamps. -Equipment and components. -Drivers and accessories. -Tables of command. Elements of command and protection. -Zangas, archies. -Protection elements. -Land networks. -Other elements of the installation.

CE1.3 From the technical documentation of an exterior lighting installation characterized by its drawings and technical memory (technical documentation):

-Identify installations that affect the installation and verify that the rules on cross-over, parallelism, and proximities are met.

-Verify the application of the regulations in the installation development. -to develop hypotheses on the effects which the modification of the characteristics of the elements of the installation or the malfunction of one or more parts of the installation would produce in the operation of the installation.

C2: Develop the schemas and sketches of an outdoor lighting installation in a given location and select the elements that compose it from a given project or conditions and apply the regulations.

CE2.1 From a preliminary draft of an exterior lighting installation:-Identify for its application the regulations that affect the layout of the network (REBT, CIE municipal ordinances, among others).

-Mark the overall layout of the installation to the corresponding scale. -To draw and complete the general schemes by collecting in them the description of the layout of the installation, the location of bacles and columns, the situation of the elements of civil work (ditches, archets, among others), among others.

CE2.1 From a preliminary draft or given conditions of an exterior lighting installation:

-Perform and complete the calculations of the electrical magnitudes (intensities, sections, voltage drops, electrical moment, among others.) necessary to size the elements of the installation.

-Perform and complete the calculations of the luminonic magnitudes (matrices of illuminance and luminance, isolineas of illuminance and luminance, luminance and 3D illuminances, among others) necessary to size the elements of the installation. -Characterize the elements of the installation that respond to the defined characterization. -Select from catalogues the elements of the installation that respond to the defined characterization, producing a list of the selected elements with their technical specifications and references.

CE2.1 From a preliminary draft of an exterior lighting installation:

-Draw and complete the functional schemes of the installation by collecting the circuits and elements with their dimensions and values in the characteristic points, for the configuration of the network (bacles, conductors, luminaires, between other), optimizing the available space.

-Draw and complete the detail schemas of the components of the installation with their dimensions in those cases where they are needed. -Draw and complete the croquis of the earth networks according to the regulations, security measures and type of installation

CE2.1 Develop the final specifications report, contemplating all the sketches and schemas developed, as well as the general listing of equipment and elements of the installed installation. C3: Drawing, with a computer-aided design programme, the general layout plans, site plans, detail plans and electrical schemes of an external lighting installation at a given location, starting from the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.1 Draw the plans and schemes of the installations in response to the sketches and developed schemes and the general listing of equipment and elements of the installation.

CE3.2 Draw the drawings and schemas of the installation in the corresponding format and with the standard graphic specifications of the sector. CE3.3 Represent with the normalized symbology of the sector the elements of the installation. CE3.4 Draw using the scale and the most appropriate representation system the plans (site, detail, among others) with its views (floor, flat), corresponding levels, values in the most significant points and complying with the regulations in force. CE3.5 Draw using the scale and the most appropriate representation system the electrical schemes of the installation. CE3.6 To have the elements in the plans in such a way as to permit to know the relations established between them and to carry out the sequential follow-up of the installation. CE3.7 To have the elements in the planes in such a way as to allow the installation to be maintained. CE3.8 Draw the installation details of the installation, the equipment and its elements, taking into account its constructive shapes and dimensions.

C4: Determine the units of work and the average cost of an installation of an outdoor lighting installation, based on the general listing of equipment and elements of the installation and taking into account standard scales, or unit prices extracted from catalogues.

CE4.1 Identify the units of work, indicating the elements that make up them, measurements, the quantities of each of them, the operations to be carried out, the conditions of assembly, the manpower involved and the necessary time for execution.

CE4.2 Elaborate the costs of the units of work, taking into account the standard scales used in the sector or the unit prices extracted from catalogues. CE4.3 Draw up the total cost of the installation taking into account the number of units of work.

C5: Define the technical specifications of tests and tests for the reception of the elements and the exterior lighting installations and prepare the corresponding documentation.

CE5.1 Define the technical specifications of tests and tests for the supply of materials, products and equipment for an outdoor lighting installation.

CE5.2 From a project of an exterior lighting installation:

-Collect information from manufacturers regarding the storage of the elements and materials of outdoor lighting installations.

-Define project milestones. -Define the conditions of reception of the installation.

CE5.3 From a project of an exterior lighting installation:

-Develop the documentation corresponding to the technical specifications of tests and tests for the supply of materials, products and equipment.

-Develop the documentation for project milestones. -To draw up the documentation corresponding to the conditions of reception of the installation.

C6: Compose the manual of service instructions and maintenance of the exterior lighting installations from the documentation of a project.

CE6.1 Organize and collect information for the elaboration of the service and maintenance instruction manual.

CE6.2 Develop the service instruction manual by specifying the starting, operating, and security conditions. CE6.3 Prepare the maintenance manual by specifying the inspection points, parameters to be checked, periodicity of the actions and the general rules in case of failure or emergency.

c7: Compose the basic safety and health study of outdoor lighting installations from the documentation of a project.

CE7.1 Identify the risk factors associated with the operations to be performed.

CE7.2 Identify the risks associated with each of the risk factors indicating the preventive measures and the protections to use both individual and collective. CE7.3 Develop the basic safety and health study taking into account the risk factors, the associated risks, the protective measures, the handling conditions given by the manufacturer and other safety studies similar.

Capabilities whose acquisition must be completed in a real work environment:

Other skills: Adapting to the organization of the company integrating into the system of technical-labor relations.

Successfully execute the instructions you receive by taking responsibility for the work you do, communicating effectively with the right person at any time. Show an attitude of respect towards colleagues, procedures and norms of the company.

Contents:

1. Physical applied to electric installations of exterior lighting: Fundamental units used in luminaires.

Fundamental Laws. Coordinate systems. Types of outdoor lighting: Public lighting and lighting with projectors. External lighting design criteria.

2. Elements of outdoor lighting installations:

Posts, bacles, and columns.

Luminaires and lamps: Types and characteristics. Arrangement of luminaires. Equipment and components: Types and characteristics. Connections. Drivers and accessories. Tables of command and protection. Measuring equipment. Protective elements. Connection boxes and luminaire protections. Goalies, channelings and foundations. Grounding.

3. Basic operations for the assembly of electric lighting installations:

Canalizations and ditches.

Cimentations. Hoisting and aplomb of supports and bacles. Protection and signalling elements.

4. Calculations of the electrical and luminance parameters: selection of elements of the exterior lighting installations:

LuminXX_ENCODE_CASE_CAPS_LOCK_Off-Technical Calculations: Implementing Rules. Illuminance. Luminance. 3-D matrices. Quality criteria: coefficients of uniformity, glare, among others. Dispersion. Separation between luminaires. Application software. Tables and charts. Others.

Electrical Calculations: Application Regulations. Intensities. Electric moment. Sections. Land. Application software. Tables and charts. Others. Selection of installed elements of the installation.

5. Basis of graphic representation applied to the representation of electric lighting installations:

Normalized symbology of the sector.

Representation systems. Acutation. Tolerances. Types of lines, letters, scales, and standard formats. Margins and box in the planes. Basic concepts of standardised views. Recommendations for the elaboration of sketches. Plan folding recommendations. Constructive elements of civil work. Interpretation of topographic and urban planning. Interpretation of the technical documentation of civil and urbanisation projects (plans, memory, technical specifications and measurements). Software for the design of electric lighting installations.

6. Drawing up of plans and electrical schemes for electrical installations in electric lighting installations:

Software for the design of electric lighting installations. Libraries.

Situation Plans. Drawings of detail of construction and construction elements. Electrical schemes: general and related schemes. Drawings of elements of civil work. Grounding planes. Others.

7. Projects of electric lighting installations:

Justification and general data.

Features of items and materials. Blueprints and sketches. Calculations. Implementing rules. Others.

8. Processing of units of work and budgets:

Measurements. Units of work. Definition of milestones.

Price Tables. Let's look. General and broken down budgets. Application software.

9. Safety in the assembly of electrical power grid installations:

Safety and hygiene regulations.

Security type projects. Safety plans in the execution of projects of the facilities. Identification of risks and associated risks. Individual and collective protective equipment. Preparation of basic safety studies.

10. Service and maintenance manuals:

Testing and testing of the reception of elements of outdoor lighting installations.

Conditions for the installation of the facilities. Implementing rules. Documentation of the manufacturers. Inspection points for maintenance and parameters to be checked. Processing of records and records. Development of service and maintenance manuals.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-80 m2 project Aula.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of projects of outdoor lighting installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or others of higher level related to this professional field.

-Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent administrations.