Royal Decree 1127/2010, of 10 September, establishes the title of Superior Technician in Electrotechnical and Automated Systems and its minimum teachings, in accordance with Royal Decree 1538/2006 of 15 December, which regulates the general management of vocational training in the education system, and defines in Article 6 the structure of vocational training qualifications, on the basis of the National Catalogue of Vocational Qualifications, the guidelines laid down by the European Union and other aspects of social interest.

Organic Law 2/2006, of 3 May, of Education provides in Article 6.4 that the educational administrations will establish the curriculum of the different teachings regulated in the Law, which will form part of the basic aspects referred to in Article 6 (1) above. The teaching centres shall develop and complete, where appropriate, the curriculum of the different stages and cycles in use of their autonomy as set out in Chapter II of Title V of that Law.

The Organic Law of 19 June on Qualifications and Vocational Training sets out in Article 10.2 that the educational administrations, in the field of their competences, will be able to extend the content of the corresponding vocational training qualifications.

Royal Decree 1127/2010, of 10 September, in its Single Derogation Provision, repeals Royal Decree 192/1996 of 9 February establishing the curriculum of the higher education cycle corresponding to the title Superior Technician in Electrotechnical Facilities, established under the Organic Law 1/1990, of 3 October, of General Management of the Educational System.

In accordance with the above and once the Royal Decree 1127/2010, of September 10, has set the professional profile of the title of Superior Technician in Electrotechnical and Automated Systems, its minimum teachings and those other aspects of the academic organisation which constitute the basic aspects of the curriculum which ensure a common training and guarantee the validity of diplomas throughout the national territory, it is now appropriate to determine, in the field of management of the Ministry of Education, the extension and contextualization of the contents of the modules professionals included in the title of Superior Technician in Electrotechnical and Automated Systems, respecting the professional profile of the same.

The needs of an integrated labour market in the European Union require that vocational training courses pay particular attention to the languages of the Member States, incorporating them into their training offer. In this sense, this training cycle incorporates in the curriculum training in the English language, in response to the provisions of Royal Decree 1538/2006 of 15 December, establishing the general management of vocational training educational system.

addition, the curriculum of this training cycle is established from the respect of the pedagogical, organizational and management autonomy of the centers that provide professional training, promoting these the work in the team of the teachers and the development of training, research and innovation plans in their teaching field and actions to promote the continuous improvement of training processes.

On the other hand, the vocational training centres will develop the curriculum established in this Order, taking into account the characteristics of the students, with special attention to the needs of people with disability.

Finally, it should be specified that the curriculum of this formative cycle integrates the scientific, technological and organizational aspects of the teachings established to achieve that the students acquire an overall view of the processes own production of the professional profile of the Superior Technician in Electrotechnical and Automated Systems.

In the process of drawing up this Order, the State School Board has issued a report.

For all of the above, in your virtue,

DISPONGO

CHAPTER I

General provisions

Article 1. Object.

This Order aims to determine the curriculum of the higher grade training cycle corresponding to the title of Superior Technician in Electrotechnical and Automated Systems established in Royal Decree 1127/2010, of 10 of September.

Article 2. Scope.

The curriculum set out in this Order will be applicable in the territorial management area of the Ministry of Education, in accordance with the provisions of Article 149.3 of the Constitution.

CHAPTER II

Curriculum

Article 3. Curriculum.

1. The curriculum for vocational training of the educational system corresponding to the title of Superior Technician in Electrotechnical and Automated Systems established in Royal Decree 1127/2010, of 10 September, is determined in the terms set in this Order.

2. The professional profile of the curriculum, which is expressed by the general competence, the professional, personal and social skills and the qualifications and the competence units of the National Catalogue of Professional Qualifications, is the included in the title of Superior Technician in Electrotechnical and Automated Systems referred to in the previous point.

3. The general objectives of the training cycle curriculum, the objectives of the professional modules expressed in terms of learning outcomes and their assessment criteria are those included in the title of Higher Technician in Systems Electrotechnical and Automated referred to in point 1 of this Article.

4. The contents of the professional modules that make up the present curriculum, adapted to the socioeconomic reality as well as to the perspectives of economic and social development of the environment, are those set out in Annex I of this Order.

Article 4. Duration and sequencing of professional modules.

1. The total duration of the lessons for this training cycle, including the vocational training module in the workplace, is 2000 hours.

2. The professional modules of this training cycle, when offered in face to face, will be organized in two academic courses and will be adjusted to the weekly sequencing and distribution determined in Annex II of this Order.

3. The first academic year will be fully developed in the educational center. In order to be able to take the second course, it will be necessary to have completed the professional modules which, as a whole, represent at least eighty percent of the hours of the first course and, in any case, all the professional modules included in the same one, marked as such in Annex II.

4. The right of registration of those who have passed any professional module in another Autonomous Community shall be guaranteed in the terms laid down in Article 31.3 of Royal Decree 1538/2006.

5. In general, during the third quarter of the second year, and once the positive evaluation has been achieved in all the professional modules carried out in the educational centre, the vocational training module will be developed in job.

6. Exceptionally, and in order to facilitate the adaptation of the number of persons registered to the availability of training positions in enterprises, approximately half of the second-year students will be able to develop this vocational training module. training in workplaces during the second quarter of the second year, provided they have positively overcome all the professional modules of the first academic year.

7. Without prejudice to the foregoing and as a result of the temporality of certain economic activities which may prevent the development of the vocational training module in the workplace from being in accordance with the above assumptions, this may be organise in other periods coinciding with the development of the economic activity of the professional profile of the title.

8. In any case, the evaluation of the vocational training module in the workplace will be conditional on the positive evaluation of the rest of the professional modules of the training cycle.

Article 5. Project Professional Module.

1. The professional module of the project has an interdisciplinary character and incorporates the technological and organizational variables related to the essential aspects of the professional competence of the title of Superior Technician in Electrotechnical Systems and Automated.

2. In general, this module will be taught by the teachers who are tutoring training in job centers.

3. The project professional module will be developed during the same period as the vocational training module in the workplace. The teachers responsible for their development should anticipate the teaching and learning activities that will facilitate the further development of the module.

4. The development and monitoring of the project's professional module should combine individual and collective mentoring. In any case, at least 50% of the total duration will be carried out in an in-person manner, by completing with remote tutoring using information and communication technologies.

5. The evaluation of this professional module will be conditional on the positive evaluation of the rest of the professional modules of the training cycle, including the training in job centers.

Article 6. Bilingual teaching.

1. The curriculum of this training cycle incorporates the English language in an integrated way, at least in two professional modules, from among those that make up the whole of the training cycle. These modules will be taught by teachers with teaching assignment in them and, in addition, they will have the language enablement corresponding to level B2 of the Common European Framework of Reference for Languages.

2. In order to ensure that bilingual education is delivered in the two academic courses of the training cycle, professional modules of both courses will be chosen.

3. The modules which may be imparted in the English language are those listed in Annex III.

4. As a result of the greater complexity of the transmission and reception of teaching in a language other than the mother tongue, professional modules taught in the English language will increase their time load in three hours a week. for modules that are delivered in the first year and two hours for which they are developed during the second course. In addition, the teachers who provide these professional modules will be assigned on their individual schedule, at least three hours a week for their preparation. These hours will have the same character as the reading hours.

5. Exceptionally and on a transitional basis up to the year 2020, when teachers with teacher allocation do not have the required level of English in these professional modules, they will share a total of three hours per week for modules that are In the first year and two hours for those who develop during the second course with a teacher or a teacher of the English specialty. In this case, the programming of this module shall include at least one unit of work or teaching which shall be carried out exclusively in the English language and the other teaching units shall incorporate teaching activities exclusively in English at that time allocated.

6. Exceptionally, in the case of students or students with disabilities who may be able to present difficulties in their oral expression (cerebral palsy, deafness, etc.), measures of relaxation and/or alternatives will be established. in the requirement for the provision of modules in the English language, so as to enable all the teaching of professional modules in their mother tongue to be cured.

Article 7. Spaces and equipment.

The spaces and facilities to be gathered by vocational training centres to enable the development of teaching activities in compliance with the rules on equal opportunities, design for all and universal accessibility, on the prevention of occupational risks, as well as the regulations on safety and health at the workplace, are those set out in Annex IV of this Order.

Article 8. Qualifications and accreditation of teacher requirements

1. The specialties of teachers with teaching assignment in the professional modules which constitute the teachings established for the title referred to in Article 1 of this Order, as well as the equivalent degrees to the effect of teaching, are those collected respectively in Annexes III A and III B of Royal Decree 1127/2010 of 10 September 2010 establishing the title of Senior Technician in Electrotechnical and Automated Systems.

2. In order to ensure compliance with Article 12. 3 of Royal Decree 1127/2010, of 10 September, establishing the title of Superior Technician in Electrotechnical and Automated Systems, for the delivery of the professional modules that make up it, must be accredited that it is met with all the requirements set out in that Article, providing the following documentation:

(a) Photocopy of the official academic title required, in accordance with the qualifications included in Annex III C of Royal Decree 1127/2010 of 10 September 2010. Where the degree presented is linked to the professional module to be delivered, it shall be deemed to include the objectives of that module itself. Otherwise, the documents referred to in subparagraph (b) or (c) shall be provided in addition to the titration.

(b) In the event that it is necessary to justify that the teachings leading to the titration provided encompass the objectives of the professional modules that are intended to be taught:

Personal academic certification of studies performed, original or photocopied, issued by an official center, in which the teachings are recorded detailing the subjects.

Programs of the studies provided and submitted by the person concerned, original or photocopy of the studies, sealed by the corresponding official or authorized official or official University or Center.

(c) In the event that it is necessary to justify by working experience that at least three years has developed its activity in the sector related to the professional family, its duration shall be credited by the document supporting officer for which you will be added:

Certification of the employer or employer in which the activity developed by the person concerned is specifically recorded. This activity must be implicitly related to the learning outcomes of the professional module that is intended to be delivered.

For those who are self-employed, a statement of the person concerned with the most representative activities related to learning outcomes.

CHAPTER III

Curriculum adaptations

Article 9. Adaptation to the socio-productive environment.

1. The curriculum of the training cycle regulated in this Order is established taking into account the socio-economic reality and the geographical, socio-productive and labour characteristics of the environment for the implementation of the title.

2. Vocational training centres shall have the necessary educational, organisational and economic management autonomy for the development of the teaching and their adaptation to the specific characteristics of the socio-economic, cultural and professional.

3. The centres authorised to provide this training cycle will concretize and develop the organizational and curricular measures that are most appropriate to the characteristics of their students and their productive environment, in a flexible way and in the use of their Pedagogical autonomy, in the general framework of the educational project, in the terms established by the Organic Law 2/2006, of Education.

4. The curriculum of the training cycle regulated in this Order will be developed in the didactic programs or curricular development, strengthening or creating the culture of prevention of occupational risks in the spaces where the different modules are delivered professionals, as well as promoting a culture of environmental respect, excellence in work, compliance with quality standards, creativity, innovation, gender equality and respect for equal opportunities, design for all and universal accessibility, especially in relation to people with disability.

Article 10. Adaptation to the educational environment.

1. The vocational training centres managed by the Ministry of Education will develop the curriculum set out in this Order, taking into account the characteristics of pupils and the environment, in particular with regard to persons with disabilities. disability, in conditions of accessibility and with the necessary support resources to ensure that this student can heal these teachings under the same conditions as the rest.

2. Also, the lessons of this cycle will be taught with a flexible and open methodology, based on self-learning and adapted to the conditions, abilities and personal needs of the students, in order to allow the reconciliation of the learning with other activities and responsibilities.

CHAPTER IV

Other offerings and mode of these teachings

Article 11. Distance offering.

1. Professional modules offered at a distance, when required by their characteristics, will ensure that students achieve all the objectives expressed in learning outcomes, through face-to-face activities.

2. The Provincial Directorates and the Board of Education shall take the necessary measures and shall give the precise instructions to the centres which are authorized to provide this training cycle under pressure for implementation and operation of the offer from the same distance.

3. Centres authorised to teach vocational training at a distance shall have appropriate curriculum materials which shall be adapted to the provisions of the fourth additional provision of the Organic Law No 2/2006 of 3 May 2006. Education.

Article 12. Combined offering.

In order to respond to personal needs and interests and to provide the possibility to reconcile training with work activity, with other activities or situations, the offer of these teachings for people adults and young people in special circumstances may be combined between face-to-face and distance learning systems at the same time, provided that the same modules are not cured in both modes at the same time.

Article 13. Offer for adults.

1. The professional modules of this training cycle associated with the competence of the National Catalogue of Professional Qualifications may be the subject of a modular offer for adults.

2. This training will be developed with an open and flexible methodology, adapted to the conditions, capabilities and personal needs that enable them to reconcile learning with other activities and responsibilities, in compliance with the Chapter VI of Royal Decree 1538/2006 of 15 December. In addition, such training shall be capitalizable in order to obtain a professional training certificate, in order to obtain evidence of the established access requirements.

3. In order to reconcile learning with other activities and responsibilities, the Provincial Directorates and the Board of Education may establish specific measures for adults to comply with the provisions of Article 20. of Royal Decree 1538/2006 of 15 December, and to enable a simultaneous and face-to-face offer.

4. In order to promote training throughout life, the Directorate-General for Vocational Training of the Ministry of Education may authorise the Provincial Directorates and the Ministry of Education to give them, in the centres of their competence, of professional modules organized in training units of shorter duration. In this case, each learning result, with its evaluation criteria and its corresponding block of contents, will be the minimum and indivisible unit of partition.

Additional disposition first. Authorization to impart these teachings.

The Provincial Directorates and the Board of Education will deal with the Directorate-General for Vocational Training with the authorization to provide the teaching of this training cycle, in full or in part, in (a) in-person and at a distance from the centres which so request and comply with the requirements laid down in the legislation in force.

Additional provision second. Implementation of these teachings.

1. In the course of 2011-2012, the first course of the training cycle referred to in Article 1 of this Order will be implemented and the lessons of the first course covered by the Organic Law 1/1990 of 3 October, of Ordination will be imparted. General of the Educational System, corresponding to the Superior Technician in Electrotechnical Facilities.

2. In the course of 2012-2013, the second course of the training cycle referred to in Article 1 of this Order will be implemented and the second course teachings covered by the Organic Law 1/1990 of 3 October will be stopped General Management of the Educational System, corresponding to the Title of Superior Technician in Electrotechnical Facilities.

Additional provision third. Linguistic enablement of bilingual teaching faculty.

Teachers who are to be taught in English must be in possession, before the date of commencement of each academic year, of the relevant language qualification, to which the Ministry of Education, perform an enabling procedure before the start of each course.

Additional provision fourth. Training of bilingual teaching staff.

The Provincial Directorates and the Board of Education will schedule courses and training activities in the English language for all teachers of vocational training to be taught in professional modules. which may be taught in the English language, who will have the obligation to assist them until they obtain the required qualification. These measures shall apply until at least the year 2020.

The training to be offered will be three types:

a) Intensive training, through a course, preferably in face-to-face mode, during the month of September.

b) Long-term training throughout the school year, by means of a course that combines in-person and online form, which will be performed outside of the mandatory time in the training center. During the period of completion of the vocational training module at Work Centres, this course will be intensified and will be carried out, as far as possible, within the hours of compulsory stay in the centre.

(c) Training in English-speaking country, through courses, which will be possible to include cultural visits and conferences, and which will be carried out at the end of the course after the completion of school activities in the training centres.

Single transient arrangement. Replacement of titles related to these teachings.

1. The students who, at the end of the school year 2010-2011, meet the conditions required for the second course of the Title of Superior Technician in Electrotechnical Facilities covered by the Organic Law 1/1990, of October 3, of Ordination General of the Educational System, and which has not exceeded any of the professional modules of the first course of the aforementioned title, will have two calls in each of the two successive years in order to be able to overcome these professional modules. After that period, in the school year 2013-2014, the convalidations, for the modules exceeded, established in article 15 of the Royal Decree 1127/2010, of 10 September, for which the title of Technician is established, will be applied. Superior in Electrotechnical and Automated Systems, regulated by Organic Law 2/2006, of 3 May, of Education.

2. To the students who, at the end of the school year 2010-2011, do not meet the conditions required to pursue the second course of the Title of Superior Technician in Electrotechnical Facilities covered by the Organic Law 1/1990, of October 3, General Management of the Educational System, the convalidations set out in Article 15 of Royal Decree 1127/2010, of 10 September, establishing the Title of Superior Technician in Electrotechnical Systems and Automated, regulated by Organic Law 2/2006, of 3 May, of Education.

3. The students who, at the end of the school year 2011-2012, do not meet the conditions required to obtain the Title of Superior Technician in Electrotechnical Facilities covered by the Organic Law 1/1990, of October 3, of General Ordination of the Education system will have two calls in each of the two successive years to be able to overcome these professional modules, with the exception of the training module in the workplace for which an additional school year will be available. The students who have passed that period have not obtained the title will be applied to the convalidations, for the superimposed modules, established in article 15 of the Royal Decree 1127/2010, of 10 September, for which the Title of Superior Technician in Electrotechnical and Automated Systems, regulated by Organic Law 2/2006, of May 3, of Education.

Final disposition first. Application of the Order.

The Directorate-General for Vocational Training, in the field of its powers, is authorised to take the measures and to issue the instructions necessary for the implementation of the provisions of this Order.

Final disposition second. Entry into force.

This Order shall enter into force on the day following that of its publication in the Official Gazette of the State.

Madrid, 2 November 2010.-The Minister of Education, Angel Gabilondo Pujol.

ANNEX I

Professional modules

1. Professional Module: Processes in Telecom Common Infrastructure Facilities

Code: 0517

Contents:

a) Characterization of Telecom Common Infrastructure (ICT) Facilities:

ICT application, installation, and maintenance regulations.

Technical rule for RTV. Working bands. RTV channels to be distributed. Standards of radiation and immunity. Technical standards for cable telecommunications (TLCA). Technical standard for telephony. Regulation on the regulation and updating of telecommunications services. Technical Regulation. Regulations on equipment and materials. Technical standards for building. Technical standard for RTV. Radiation and immunity standards.

Types of ICT Installations. Reception and distribution facilities for television and radio Facilities for internal telephony and intercom.

Telephony systems. Telephone exchanges. Interphony systems.

ICT Enclosures and Records. Channelings and distribution infrastructure.

Catch elements. Header Items, Components. Collection and distribution of terrestrial and terrestrial television. Enclosures of top and bottom telecommunications facilities. Distribution of sound broadcasting and satellite television.

Antennas. Antenna principles and parameters. Terrestrial antennas for radio and television. Types and technical characteristics. Antennas for satellite television. Appointing. Selection of the site and parameters of the receiving antennas. Types and technical characteristics. Association of antennas. Types and technical characteristics. Types of mechanical supports and accessories. Criteria for the selection of the site and the type of the collector system. Frequency plan. Land grabs.

Header Team. Electrical equipment: protection and grounding. Power supply. FI amplifiers. Converters. Modulators. Transmodulators. Broadband, single-channel, FI, among others.

Distribution of tokens. Distribution network. Scatter Network and Internal User Network.

Drivers. Coaxial cable. Passive elements. Active elements.

Distribution systems. Distribution by delivery men. Distribution by wrappers. Distribution by way boxes. Mixed distribution.

Transmission lines: Optical fiber, coaxial cable, twisted pair, waveguides, among others.

Distribution equipment: deliverymen, wrappers, take boxes, attenuators, among others.

Distribution systems. Distribution. Distribution by delivery men. Distribution by wrappers. Distribution by way boxes. Mixed distribution.

Simbology at the ICT facility. Internal telephony and intercom. Telephony systems: basic concepts and scope of application. Telephone exchanges: typology, characteristics and hierarchies. Interphony systems: basic concepts and scope of application. Digital networks and emerging technologies.

b) Configuring ICT Installations:

Technical specifications of ICT. Magnitudes and fundamental units.

The radio spectrum. Communications bands and services.

ICT and REBT regulations. Application to the configuration of the installations.

Calculation of the parameters of the common telecommunications infrastructures. Implementing rules. Signal levels in user takes. Choice of distribution system. Amplitude/frequency response. Attenuation of the distribution and dispersion network. Choice of network equipment. Signal/noise ratio. Amplification required. Choice of amplifiers.

Gain needed on the antennas. Choice of the collector system. Calculation of media. Application software. Tables and charts.

Types of communication networks in telephony. Local loop or access network. Trunk network. Complementary network. Structure of telephony networks

Selection of equipment and elements for the ICT assembly. Mechanical criteria for the selection of assembly equipment. Environmental criteria for the selection of equipment and elements.

Software for radio and television distribution system design.

Configuring and sizing elements and equipment for radio and television installations. Manufacturers ' catalogues.

Configuring and sizing items and equipment for common telephony installations. Manufacturers ' catalogues. Search for technical information.

c) Installing Telecom Infrastructures:

ICT facility mount plans.

Programming of mount activities. Basic assembly processes. Key technical procedures.

Antenna installation and distribution techniques for Television and Radio networks. Elements to be installed. The repose of telecommunications facilities.

Mount of fetch elements. Assembly of header elements. Assembly of distribution elements. Deliverymen and wrappers. Amplifiers.

Specific techniques for the assembly of telephony installations. Elements to be installed. Installation of Automatic Porters. Cupboards. Accessories.

Mount of pipes and checkboxes. Placement and location of common items. Tools and tools for mounting. Running times. Resources. Security conditions. Identification of critical paths in the execution of the mount.

Laying of conductors. Optical fiber connection techniques. Job features. Connection of the conductors. Terminals and pointers. Small machine tools, Crimpers, among others.

Conditions of Work. Pipe connection.

Personal and team security rules. Building standards applied to common facilities. Specific rule of common facilities in buildings.

d) Verification of the operation of ICT installations:

Put in service of the ICT installation.

Put into service plan. Protocol of measures.

Operating parameters in the ICT installations.

Tuning and tuning. SMAT/CATV and Telephony measures.

Parameters. Signal level.

Channel amplitude/frequency response. Network amplitude/frequency response. S/N and C/N. Digital television signal measurements (BER, MER, echoes, constellations, among others).

Measurement instruments and procedures in ICT installations.

Orientation of the token fetch elements. Measures.

Significant parameters in the setting of ICT installations

Regulatory verifications. Documentation. Verification of the materials used. Verifying the correct installation of the infrastructure.

Test protocol. RTV and satellite measurements. Telephonia measures. Cable Telecommunication Measures.

e) Maintenance of Telecom Common Infrastructure Facilities:

Preventive maintenance of installations. Criteria for planning and organisation. Predictive and preventive maintenance in radio and television signal reception facilities. Predictive and preventive maintenance in telephony facilities. Preventive and predictive maintenance of doorman and video doorman facilities.

Inspection points for maintenance and parameters to be controlled. Acceptance values. Manufacturers ' graphics and information.

Crafting service and maintenance manuals.

Measurement instruments applied to maintenance. Errors. Measurement techniques.

Location of breakdowns and dysfunctions in telecommunications infrastructure equipment and installations. Typical breakdowns in ICT installations. Criteria and points of review. Repair of telecommunications infrastructure facilities in buildings. Tools and tools for repair and maintenance of ICT. Protocols for action. Approved procedures.

Documentation applied to maintenance. Processing of records and records. Historical breakdowns. Maintenance reports and maintenance plan enhancements. Prevention of occupational risks and environmental protection. IT applications applied to maintenance and historical breakdown management.

Prevention of work risks in assembly and maintenance processes.

f) Prevention of risks, safety and environmental protection:

Workplace risk prevention regulations for common telecommunications infrastructures.

Prevention of work risks in assembly and maintenance processes.

Personal protection equipment. (Characteristics and criteria for use). Collective protection. Means and protective equipment.

Regulatory regulations in waste management.

2. Professional module: Techniques and processes in electrical installations

Code: 0518

Contents:

a) Reposing electrical installations and power grids:

Typology and features of indoor electrical installations.

Facilities for buildings primarily intended for housing. Facilities at local public concurrency. Facilities in premises for industries. Installations in special feature premises.

Electrical supplies. Types of supplies

Committed. Types and installation. General protection box. Power line. Counters. Types. General command and protection devices. Mechanisms and receivers. Link installation.

Canalizations. Drivers. Individual derivations.

Counters. Operation. Types. Individual and centralized schemes. Lighting of stairs, exterior and garages, among others.

Log Boxes. Joining and mounting elements. Protective elements. Receivers.

Indoor facility electrical circuits.

Specific symbology applied to electrical installations and networks.

Regulatory Prescriptions. REBT as a facility guideline. Other regulations. Regulatory provisions for the protection of the health and safety of workers in the face of electrical risk.

Specific techniques for marking and reposing electrical installations in dwellings. Marking techniques and repose of facilities at local and special premises. Techniques for marking and reposing of electrical distribution and exterior lighting networks.

b) Processing of electrical installations assembly processes:

The Power Facilities Assembly Plan. "Planning" of the work.

Material and element scope for installation of installations. Tasks to perform.

Material provision.

Progress control procedures for the mount and quality to be obtained. Work documentation. Key elements of the work control.

Security applied to the assembly of electrical installations and systems. Protective equipment. Protective elements. Basic precautions.

Planning for security and commissioning tests.

Monitoring the assembly of electrical installations in buildings:

Mount processes. Repose of the work, measurements and quantities. Resource allocation.

Provision of equipment, machines, and tools.

Yields of required times per unit of work. Planning management.

Quality Plan. Quality assurance. Phases and procedures.

c) Assembly of indoor electrical installations:

Interior Electrical Installations Schemes. Interpretation, typology and characteristics. Conventionalisms of representation.

Normalized symbology in electrical installations.

Standardized schema typology.

Assembly procedure in indoor electrical installations.

Mount and connection of the link facilities. Specific assembly and connection techniques of: General protection box. Power line. Centralization of counters. General maneuvering switch assembly, security fuses, counters and moped. Individual derivations.

Installation techniques for the installation of stairway lighting and general lighting of the building. Installation conditions. Record caps.

Electrical installation mechanism assembly techniques in housing.

Precautions for mounting protection elements in homes and premises.

Installation of circuits and features. Assembly of electrical installations in local public concurrency. Installation conditions. Gutters and ducts. Register boxes. General requirements for the installation.

Locals containing bathtub or showers.

Security lighting installations (for evacuation, environment or anti-panic and high-risk areas). Lighting of site. Prescriptions for different types of premises. Pumping systems. Elevator. Circuit and emergency lighting.

Installation of receivers. Heating apparatus. Rectifiers. Capacitors.

Application of the low voltage electrotechnical regulation, of the particular standards of the supply companies and the UNE Standards in electrical installations in buildings.

d) Electrical network and exterior lighting assembly techniques:

Specific assembly procedures and phases of distribution networks. Specific procedures and phases of outdoor lighting installations. Specific procedures for auxiliary and luminaire equipment.

Assembly and connection techniques for elements of power distribution networks. Laying of drivers. Laying of channelings. Underground cable laying techniques. Specific techniques for laying overhead cables. Municipal and regional regulations.

Specific assembly and connection techniques for outdoor lighting installations. Assembly of bacles and supports. Luminaire assembly.

Machinery used in the pipe assembly. Machinery and tool used in the connection of conductors. Heavy machinery, features and preventions.

Tools in the assembly of luminaires and lighting equipment. Specific elements for the assembly of luminaires (mechanical tools, assembly tools).

e) Verification of facilities for buildings intended for housing, public or industrial premises:

Techniques and procedures for the commissioning of electrical installations. Execution and processing of files.

Verifications and control points of electrical installations in buildings and premises. Control and verification points in facilities at risk of fire or special. Verification and control points of distribution networks. Verification and control points of outdoor lighting installations. Minimum acceptance values.

Specific measures for the verification and commissioning of electrical installations. Measures of tension, intensity and continuity. Electrical measures of basic magnitudes in electrical installations in buildings. Electrical measurement. Magnitudes, instruments and procedures.

Measures of electrical powers and power factor. Measures of dielectric rigidity. Measures of terrain resistivity and grounding resistance. Measures of sensitivity of cutting and protective equipment. Isolation measures. Measures with network analyzer. Quality of electrical values. Historical control.

Use of measuring devices. Technical specifications for measuring devices depending on the type of installation and the use regulations. Correction of errors in electrical measures. History of measures. Measurement and historical control computing methods.

Protections and grounding checks.

f) Diagnosis of breakdowns in electrical installations:

The electrical fault. Diagnosis of breakdowns, determination and control. Type breakdowns in electrical buildings of buildings. Breakdowns in drivers, causes. Breakdowns in mechanisms, causes. Breakdowns inherent in the system, use and abuse of facilities. Mounting breakdowns, detection.

Repair of breakdowns. Materials and equipment intended for repair. Compatibility of elements and mechanisms.

Electrical safety regulations. Maintenance regulations.

Elements and systems capable of producing power plant breakdowns.

Disfunctions and distorting elements in electrical installations. Harmonics. Electrical noise. Interference. Radiocommunications.

Techniques for detecting breakdowns caused by parasitage and electrical noise.

Specific measurements of control of dysfunctions and breakdowns. Analyzed from networks. Analyzed from spectrum.

Historical breakdown control.

g) Repair of elements and systems breakdowns used in electrical installations:

Planning the process of repairing and replacing elements and systems. Phases and procedures.

Causes and dysfunctions produced in electrical installations. Methods of analysis of dysfunctions.

Control or IT tools for item repair and replacement.

Element compatibility. Recognition of element characteristics. Specific characteristics of the compatibility of the joints and registers. Frequent errors in replacing elements and mechanisms in installations. Magnetothermic and differential compatibility, selection criteria.

Receiver and system tuning techniques. Values of tension, resistance, intensity, among others. Putting into service. Control documents.

h) Maintenance in electrical installations in buildings:

Maintenance of electrical installations. Function, objectives, types.

Preventive maintenance. Predictive maintenance. Corrective maintenance. Maintenance companies. Organization.

Preparing maintenance work on electrical installations.

Security in the maintenance of electrical installations. Organisation of maintenance in electrical installations.

Forecast of breakdowns, inspections and periodic reviews. Organisation of interventions. Human and material resources. Proposed modifications.

Planning for the maintenance of electrical installations. Relationship of maintenance activities.

Duration Estimate.

Resources and materials assigned.

Specific maintenance in housing and local facilities of all kinds. Liaison facilities. Housing facilities. Premises of local public concurrency. Installations in industrial use premises.

Equipment intended for maintenance. Measuring devices used in the maintenance of electrical installations of buildings. Maintenance programs. Types and characteristics. Electrical safety regulations. Maintenance regulations. Technical regulations.

i) Prevention of risks, safety and environmental protection:

Labor risk prevention regulations regarding the maintenance of electrical installations in buildings.

Prevention of work risks in assembly and maintenance processes.

Factors and situations of risk.

Determination of occupational risk prevention measures.

Personal protection equipment. (Characteristics and criteria for use). Collective protection. Means and protective equipment.

Regulatory regulations in waste management.

Workplace risk prevention regulations.

Environmental protection regulations.

3. Professional module: Technical documentation in electrical installations

Code: 0519

Contents:

a) Identification of technical and administrative documentation of installations and systems:

Preliminary draft or basic project.

Project types. Administrative project or administrative technical project.

Executive or constructive project.

Basic documents. General index, memory, annexes, plans, specifications, measurement status, budget, studies with own entity, among others.

Starting documentation, calculations, tables, catalogs, among others.

Studies with own entity (prevention of occupational risks, environmental impact, quality, energy efficiency, among others)

Instructions manuals.

regulations. Processing and legalization. Paperwork with industry and supply companies.

Registry of installations. Request for provisioning.

Installation and verification certificates.

End-of-play certificates. Instruction manuals.

b) Representation of electrical installations:

General croking rules. ISO standards.

Techniques and Croking Process. Hand-raised croquing.

Symbology. Electrical symbols. Mechanical symbols.

Proportions. Scales. Cotas.

Acutation. Standards. Free tag out.

c) Elaboration of the graphical documentation of electrotechnical installations projects:

Computer-aided design. Introduction and installation of software. User interface. Start, organization, and save. Control of the drawing views. Choice of the work process. Creating and modifying objects. Annotation of drawings. Drawing and publication of drawings. Graphical palette. Printers, types and features. Printing techniques.

Graphic documentation. General rules of representation. Binding systems. Computer systems for the presentation of documentation (DVD and USB sticks, among others). Project presentation methods (Project presentation software).

Building Project Plans. Location and location. Foundation and structure plants. Distribution plants and cotes. Furniture plants. Carpentry memories. Cover plant. Cuts. Winged. Constructive section detail.

Civil work project plans. Situation. Topographic plane. Drawing plane. Zoning and parcelation. Longitudinal and transverse profiles. Type sections. Application rules.

d) Managing the graphical documentation of electrotechnical installations projects:

Types of documents. Formats. Bending of planes.

Graphical output peripherals. Plotter. Professional printing.

Files. Content and structure. Types of formats. Word formats. PDF formats.

Encoding rules. Documentation management techniques.

e) Budget Garment:

Work units. Measurements. Significant elements to consider.

Price Tables. Catalogue of manufacturers.

Labor costs.

Budgets. Making and methods of making.

Cost Analysis. Search for information. Specific cost analysis techniques.

Budgeting software (Excel and Access, among others).

f) Elaboration of project documents:

Application regulations.

Formats for document processing.

Annex of calculations. Structure. Features. Specific software.

Memory document. Structure. Features.

Basic safety and health study. Methods of performing and minimal information.

Statement of Conditions. Parts and conditions.

Quality assurance. Quality systems applied to projects. ISO 9000 standards.

Computer applications for documentation processing.

g) Making plans, manuals and studies:

Emergency Plan. Types and features.

Prevention Plan. Types and features.

Security and protection teams. Signage and alarms.

Application regulations.

Basic security and safety studies. Implementing rules. International standards.

Quality and Maintenance Plan. Quality management systems applied to electrical installations. Application ISO standards.

Quality in running installations or systems. Quality Management Regulations.

Environmental Management Plan. Environmental impact studies.

Environmental Management Regulations.

Crafting manuals. Service Manual. Manual of measurements.

Technical specifications of the installations elements.

Start or service conditions.

Maintenance Manual. Historic maintenance. History of breakdowns.

Test protocols. Processes in specific tests.

4. Professional module: Electrical systems and circuits

Code: 0520

Contents:

a) Determination of characteristic parameters in alternating current circuits (c.a.):

Alternating current. Electrical magnitudes in c.a. Types of alternating currents. Advantages over the c.c.

Generation of alternate streams. Characteristic values of the c.a.

Electrical symbology.

Monophasic C.a. Circuits. Behavior of elementary receivers in monophasic c.a.

Monophasic c.a. Powers. Cos φ. Resonance.

Three-phase systems. Characteristics of the three-phase systems.

Advantages versus single-phase systems.

Distribution to three and four threads. Connection of three-phase receivers. Correction of the cos φ of a three-phase installation. Calculation of line and phase magnitudes in three-phase systems. Powers in three-phase systems. Calculation of the battery of capacitors in single-phase and three-phase systems.

Correcting the cos φ of a three-phase installation.

Measures in c.a. Voltage, Intensity, Power, Frequency, and Power Factor circuits.

Harmonics: causes and effects

Characteristic parameters of the harmonics in the electrical magnitudes: Intensity, tension, frequency, distortion, power factor, cos φ, among others. Harmonic filtering.

b) Identification of the fundamental characteristics of the rotating machines of c.a.

Classification of rotating electric machines.

Machine connection schemes.

Triphasic alternator. Coupling of alternators

Alternator applications.

The operating principle of the alternator.

Triphasic asynchronous engine; Constitution and types. Rotating field.

Operating characteristics of AC electric motors. Torque-speed characteristics. Performance-power feature, feature revolution-power, among others.

Engine boot systems. Speed regulation of three-phase engines.

Monofasic engines.

Special engines. Step-step engine. Magnetic reluctance motor.

c) Transform characterization:

Characteristics of the transformers. Plate of transformer characteristics. Constitution. Electrical and magnetic circuits. Standardized symbology of transformers.

Monophasic Transformer. Principle of operation of the transformer.

Autotransformer. Electrotechnical types and applications.

Three-phase transformer. Triphasic transformer connection schemes. Connection Groups. Bench of three transformers.

Parallel coupling of transformers. Types of coupling and compatibility.

Trials: conditions and conclusions. Test in vacuum

Test in short circuit. Short circuit accident intensity. Load index.

Characteristic calculations. Coefficient of regulation. Voltage drop. Performance, among others. Energy balance.

Commercial Catalogs.

Selection of transformer based on application type.

d) Measurement techniques for electrotechnical installations:

Measurement teams. Classification. Errors.

Measurement systems. Connection schemes.

Measurement instruments. Characteristics and principle of operation of the measuring devices.

Multimeter, multifunction clamp, tellurometer, isolation meter, leak current meter, voltage detector, power and power recorder for alternating current. Equipment verifier of the sensitivity of the firing of the differential switches, luxometer, network analyser, of harmonics and of network disturbances, device checker of the device of surveillance of the level of isolation in facilities IT, Step and contact voltage meter.

Oil dielectric stiffness meter, thermographic camera, field meter, among others.

Measurement Procedures. Measures of resistance, tension, intensity, power, energy, coss0, power factor.

Grounding resistance measures, terrain resistivity, low and medium voltage insulation resistance, soil and wall insulation resistance, dielectric stiffness measurement, leakage current measurement. Harmonic measures, network disturbances.

Continuity of protective drivers.

Checking the trigger intensity of the differentials. Loop impedance measurement, phase sequence checking, step and contact voltage measurement, thermographic measurements, measures in ICT, among others).

Techniques and equipment for diagnosis and location of breakdowns in electrical installations.

Reports of the measures taken.

Calibration of measurement equipment. Requirements of the quality and/or regulatory system. Storage conditions for media equipment.

Security regulations in performing the measures.

Characteristics and components of analog electronic circuits:

Electronic components. Types and characteristics. Passive components. Active components. Optoelectronic components.

Rectification. Filtering. Amplification. Stabilization.

Power supplies. Fundamentals and Functional Blocks.

Linear fonts. Stabilization and regulation with integrated devices

Switched sources. Fundamentals and Functional Blocks

Power control. Components. Thyristor, SCR, diac and triac, among others.

Operational Amplifiers. Fundamentals of amplification.

Applications with integrated devices

Signal generators

Oscillators. Types. CR, LC, among others. Integrated oscillators

Multivibrators. Types. Monostable, bi-stable and astable.

Computer applications for circuit simulation.

Controlled power systems.

f) Characteristics of digital electronic circuits:

Introduction to digital techniques. Digital systems. Numbering systems. Digital element symbology.

Symbology of digital elements.

Analysis of circuits with logical doors. Types of logical doors. Types of logical doors. NOT, OR, AND, NOR, NAND, and EXOR.

Combinational logical circuits. Encoders and Decoders.

Multiplexers and Demultiplexers. Comparators.

Sequential logical circuits. Biestable (asynchronous and synchronous). R-S, and D, among others. Counters. Displacement records.

Logical families. Applications.

5. Professional module: Techniques and processes in domotic and automatic installations

Code: 0521

Contents:

a) Characterization of industrial facilities and automatic systems:

Industrial installation.

Industrial automation. Structure of an industrial plant (electric frame, control circuit, power circuit, among others). Industrial applications.

Industrial automation processes. Variables of an industrial process (pressure temperature, speed, consumption, among others).

Automation technologies. Design specifications (receiver maneuver, basic operations, among others). Elements of an industrial installation.

Classification of installations and automations. Types and characteristics. Application.

Protections (Guard or circuit breaker, thermal relay, fuses, among others). Sizing criteria. Precautions.

Sensors (inductive detectors, capacitive detectors). Selection criteria.

Actuators (contactors, auxiliary relays, timed relays, electro-valves, among others). Installation and assembly of speed variators, electronic starters, and servo-drives.

Automation of manoeuvres and starts of electric motors. Key features of engine starts. Precautions and standards.

Automation with pneumatic engines (compressed air, plunger, among others). Basic characteristics and acceptance criteria in industrial facilities.

Pneumatic Cylinders. Pneumatic actuators. Types and applications.

b) Planning to mount automatic installations:

Phases of the specific assembly of automatic installations. Specific procedures for tables, installations, among others.

Organization of the frame mount. Specific techniques in industrial automatic installations. Coordination of the assembly of the domotic and inmotic systems. Implementing rules. Precautions. Electromagnetic compatibility standards.

Specific characteristics of the elements of the industrial installations. Assembly and precautions of programmable automatons. Assembly and precautions of elements of domotic and inmotic systems. Assembly of elements. Wiring assembly. Pipe mounting.

Communication bus assembly. Precautions and techniques.

Assembly of wireless systems. Precautions and techniques.

Specific tools for the assembly of electric frames, programmable automatons, domotic systems and inmotic systems. Specific measurement equipment.

Computer systems applied to the assembly, planning, and verification of automatic systems and installations.

c) Automatic installation assembly:

Command and power schemes (driver marking, border marking, cross references). Symbology.

Elements of automatic installations, protections, sensors, actuators, wiring and signage. Selection and adjustment of protections. Selection of sensors according to environment and applications. International standards. Type of cabling and features according to environment and application. Signage, national and international regulations.

Protection of automatic installations. Types of magnetothermic. Features and selection. Differential applied to the industry, characteristics and precautions. Thermal relay, classes and utilization. Adjustments and selection. Connection schemes. Concurrency.

Electrical tables, types, and features. Criteria for the assembly and machining of electric frames. Frame machining.

Assembly and connection of wired automatisms. Techniques and signage.

Functional tests (visual test, continuity test, test of operation of the protections, among others).

Assembly of electro-pneumatic automatisms. Sequence of movements. Pneumatic and electro-pneumatic representation schemes. Assembly and connection of electro-pneumatic automatisms. Functional tests (visual test, continuity test). Adjustments and verifications. Criteria for the acceptance of the facilities. Measures.

d) Implementation and characteristics of scheduled industrial automatisms:

Process sequence and flow chart (GRAPHIC, among others).

Token types (digital, analog). Signal converters. Interpretation of signals, acceptance criteria.

Numbering and conversion systems between systems. Specific modules applied to home automation and industry.

Encoding systems. Standard codes.

Logical functions applied to programmable automatons programming. General characteristics. Models of logical functions according to manufacturers.

Logical Schemas. Types and implementation in programmable automatons.

programmable automata. Analog I/O modules. Specific modules. Communication modules. Central process unit. Storage systems. Industrial and domestic network modules.

Programming of programmable automatons. Standard programming. Specific programming.

Programmable automaton connection schemes. Connection types, connection terminals, and connectors, among others.

e) Installing and assembling automatisms in homes and buildings:

Domotic and inmotic applications. Domotica and Inmotica. Structure of an installation. System integration.

Application areas. Access control. Lighting control. Security control (intrusion, fire, gas, medical alarms among others). Control of mechanisms. Air conditioning control. Communications Management

Sensors. Receivers. Types. Features. Types of mechanisms according to system and application area. Receiver types according to system and application area.

Communication typologies (BUS, ring, star, mesh, among others). Standard communication buses. Industrial buses and domestic buses.

Domotic installations with carrier currents. Principle of operation. Characteristics (communication, security, advantages, disadvantages, among others). Structure and topology. Specific elements. Connection and configuration of items. Procedures for assembly and supervision. Functional testing. Auxiliary elements. Specific protections. Parasitage in facilities with carrier currents. Application rules

Automated housing facilities with programmable automatons. Structure and topology. Connection of elements. System programming. Procedures for assembly and supervision. Operational verification processes. Functional tests (visual test, signal continuity test, among others). Advantages and disadvantages. Specific elements for domotic and inmotic installations (microautomatons, touch screens, domestic sensors and communication modules, among others).

Domotized installations with BUS system. Principle of operation. Features. Connection and configuration of items. System programming. Procedures for assembly and supervision. Functional tests (visual test, signal continuity test, among others). Comparative with other systems. Advantages and disadvantages. Specific elements and modules. Integration modules with other systems.

Wireless installations. Principle of operation. Characteristics (communication, security, advantages, disadvantages, among others). Structure and topology. Specific elements. Connection and adjustment and/or configuration of items. Procedures for assembly and supervision. Operational verification processes. Functional tests (visual test, signal continuity test, among others). Drawbacks of electrical noise in wireless facilities. Protections and precautions. Specific elements.

Implementation of technologies in inmotic systems. Advantages of combining different technologies Combination parameters: communication protocols, signal types, among others. Connection and adjustment of elements. System programming. Procedures for assembly and supervision. Operational verification processes. System and area settings. Integrated control systems, Scada systems, and display systems (screens).

f) Diagnosis of breakdowns in industrial installations and automatic systems:

Key elements and systems in electrical installations. Breakdowns in industrial systems. Breakdowns in domotic systems. Breakdowns in inmotic systems.

Recognition of Measurement Instruments Applied to Prevention. Interpretation of values. Historical of measures. Spectrum analyzer. Network analyzer. Oscilloscope. Spectrometer.

Diagnosis and location of breakdowns. Specific procedures.

Automatic system adjustment techniques, protection element settings, programmable element settings, I/O element settings, own IT systems for setting installations, elements, and systems.

Breakdowns records. History of breakdowns.

Current regulations. International, national and regional standards.

g) Realizing predictive and preventive maintenance in automatic installations:

Maintenance operations in industrial facilities. Specific characteristics. Specific elements of the installations. Predictive maintenance in industrial facilities. Critical points.

Maintenance operations on industrial automatic systems. Maintenance of protections. Maintenance of programmable systems. Maintenance of sensors and actuators. Preventive and predictive maintenance in industrial automation systems. Critical points.

Maintenance operations on domotic and inmotic systems. Maintenance of systems in the areas of comfort, communication and alarms, among others. Maintenance of I/O elements of the domotic and inmodic installations. Critical points of the different systems. Critical points of the different areas.

Maintenance of communication systems in domotic and inmotic installations. Communication network maintenance standards. Specific tools.

Operating procedures in the maintenance of automated systems and installations. Precautions.

Adjustment of elements and systems. Program adjustments. Tuning I/O modules and breakdown types. Dysfunctions.

Display, control, and parameter verification software. Telecontrol systems.

h) Prevention of risks, safety and environmental protection:

Labor risk prevention regulations regarding the maintenance of electrical installations in buildings.

Prevention of work risks in assembly and maintenance processes.

Factors and situations of risk.

Determination of occupational risk prevention measures.

Personal protection equipment. (Characteristics and criteria for use). Collective protection. Means and protective equipment.

Regulatory regulations in waste management.

Workplace risk prevention regulations.

Environmental protection regulations.

6. Professional module: Development of power grids and transformation centers

Code: 0522

Contents:

a) Recognition of electrical network elements:

The electrical system. Typologies of the networks. Categories. Air and underground. Connection types. Transmission of information: telemedida, telemando and telecontrol. Microwave. Carrier currents. Optical fiber.

Drivers and cables. Types and features.

Isolators. Chains. Attachment accessories.

Supports. Types and characteristics. Crutches.

Tirantes and tornapuntas. Protection and signalling elements. Protection of the avifauna.

Tomás de tierra.

Network mount operations.

Application Regulations and Rules.

b) Characterization of power grids, structure and enforcement regulations:

Specific symbology of the networks.

Characteristic planes. Topographical drawings.

Longitudinal profile.

Features Features. (Powers, voltage drop, electrical moments, among others).

Protections. Types of protections. Coordination of protections in electrical networks. Automatic coordination systems.

Regulations (Technical Regulation of High-Tension and REBT Air Electrical Lines, among others)

Crosses and parallels. Distances and separations.

c) Configuring distribution networks:

Previous network design criteria. Data of departure. Feasibility. Accessibility.

Selection of materials. Technical characteristics. Approval and certification. Transport on foot.

Calculations. Electric. Mechanic. Basic configuration criteria for distribution networks. Calculations of mechanical elements. Calculations of insulating elements.

Plotting drawings.

Elaboration of schemas. Material listings. Software for the calculation and design of electrical networks. Specific graphical software.

d) Characterization of transformation centers (CT):

Characteristics of the transformation centers. Types and operation. Types of CT. Features. Fundamentals. Use. Applications.

Elements of the transformation centers. Cells.

Distribution transformers. (Features, protections, connections, coupling, among others).

Power factor correction.

Measure transformers. Features and selection.

Protective and maneuvering apparatus. Configuration and assembly.

Grounding. Types. Specific specifications for land in transformers. Precautions. Neutral to ground.

CT mount operations. Ditches, embedded, connected, among others.

Application Regulations and Rules.

Characteristics of the transformation centers. Types and operation. Key parts. Prefabricated transformation centers.

Civil work of the transformation centers. Civil works plans. Locations and accesses. Foundations and channelings.

Drawings and specific schemas of transformation centers. Symbology. Necessary views on the planes. Specific rules for electricity generating companies.

Graphical representation of elements of the transformation centers. Drawing up of schemes. Electrical schemes in detail.

Grounding Planes, detail plans. Regulatory distances. Land configuration schemes. Planes of pics and plates of land.

Lighting. Ventilation. Fire protection.

Put into service. Discards.

Application rules.

Transform center design and calculation software.

e) Configuring transformation centers:

Previous design criteria. Foreprojects and type projects. Characteristic magnitudes of the CTs.

Calculation of the characteristics of the CT: Interior and weather.

Dimensional of equipment and elements. Cell elements of interior and weathering transformation centers. Elements of transformation. Protective elements. Mechanical elements.

Team selection. Conditions and criteria. Technical characteristics. Compatibility and interchangeability. Approval of elements. Rules applicable to the selection of items.

Schemas of the transformation centers. Symbology. Elements of transformation cells. Measure cell elements. Input and distribution cell elements. Protective elements. Precautions. And features.

CT calculations. Grounding. Electrical and mechanical calculations. Calculations of in-can and low protection. Power expansion calculation. Calculation of capacitors ' batteries.

f) Definition of tests and trials of transformers and transformation centres:

Technical characteristics of cell elements. Characteristics of the elements in the measurement cell. Characteristics of the protection cells. Characteristics of the items in the distribution cells.

Technical characteristics of the transformers. Technical characteristics of the measuring equipment.

Transformer vacuum test. Short circuit test. Test in load. Calculations and acceptance values. Equipment for testing of transformers.

Test of systems elements of the transformation center. Equipment for testing of elements of transformation centres.

Transformer maintenance test. Test of oils. Test equipment for oils and insulators. Environmental standards. Aparamenta tests. Battery and accumulator testing. Battery and accumulator test equipment. Environmental standards.

Measuring contact pass stresses.

UNE standards for application to the testing of transformers and transformation centres.

UNE standards of application to the development of transformation center projects, other application standards.

Installation and verification certificates for distribution and CT networks.

Management, testing, and maintenance software for transformation and transformer centers.

7. Professional Module: Configuring domotic and automatic installations

Code: 0523

Contents:

a) Characterization of automation installations and devices:

Structure of automated facilities in housing, buildings and industry. General concepts of automation.

Automatic applications in the areas of comfort, security, energy management, telecommunications and industrial. Domotic systems generalities. Inmotic systems generalities. Industrial automation generalities.

Automation levels. User levels. Full automation. Integration of automatic housing systems. Integration of industrial systems, levels of automation.

Elements of the automated installation. Types. Features. Input/output elements. Power elements. Modular systems.

Sensors, actuators and receivers used in automatic systems, classification. Operation. Technical characteristics. Digital and analog actuators. Receivers (electro valves, blinds motors, among others). Types of sensors. Application. Types of actuators. Application. Small-power receivers. Power control receivers.

Communication typologies (BUS, ring, star, mesh, among others). Communication networks used in domestic systems. Industrial networks. Standards and Systems of your own.

Communication with existing cabling, specific cabling, wireless systems, among others). Media. Carrier systems, X10.

Techniques and media for this type of facility.

Applications and foundation of domotic and inmotic installations.

Specific features of automatic systems. Domotic applications. Inmotic applications. Industrial applications. Industrial automation, technical characteristics. Automation of housing, technical characteristics. Automation of large areas (hotels, shopping centres and public spaces, among others).

Automatic systems. Systems with programmable automata. Automatic systems of self-purpose. Specific systems. Specific programming and configuration techniques for automatisms with programmable automatons.

Representation of control schemes, power of installations and automatic systems. Power schemes. Control schemes. Connection schemes. Cross references. Element situation plans.

Parts of the installation. Power block. Control block. Display block. Block of memories. I/O Block

Compatibility between systems. The interconnection of elements. Connection bridges.

Significant elements of the automatic systems. Man-machine elements. Visualizers.

Technologies applicable to the automation of homes and buildings.

New trends in automatic systems in buildings and industry. Applications in energy management. Applications in integrated systems with renewable energy.

b) Determining the characteristics of the elements of the domotic systems:

Operation and characteristics of the elements of the different existing technologies. Elements of traditional automatic systems. Elements of carrier currents. Elements of own systems. Comfort areas. Areas of communication. Security area. Power management area.

Dimensional of elements. Configuration of passive elements. Configuration of control systems. Configuration of installations.

Item and Equipment Selection Criteria. Values. Use and feature of the installation. Environment and usage.

Dimensioning of security items. Protections. Electromagnetic compatibility. Interconnection with external security systems.

Interconnections between the areas of comfort, security, energy management and telecommunications. System compatibility.

Technical instructions for the REBT. Regulations on buildings. Regulations on energy efficiency.

c) Characterization of industrial automatisms based on programmable automatons technology:

Structure used in industrial systems with programmable automatons. Configuration of programmable automatons.

Industrial characteristics of the sensors. Types, particularities. International standards. Aggressive input.

programmable automata. Features. Operation. Dimensioned. Selection criteria. Specific modules (I/O, communication buses, machine control and positioning, among others).

Auxiliary elements of the installation. Tables. Drivers, Connectors. Channelings. Protections.

Power elements. Electronic starters. Frequency variators. Servo-drives. Characteristics of connection and location of variators and Servoacciations. Basic parameter settings for starters and speed variators.

d) Configuring domotic systems:

Operation and characteristics of carrier current technology. Benchmarking with other technologies.

Structure of the carrier stream system. Fundamental parts of the system. Electrical precautions.

Connection of elements. Configuration of systems and elements of carrier currents and wireless technology. Item adjustments. Programming techniques and software.

Dimensioning the security elements of these systems. Precautions and inconvenience of carrier streams.

Configured for comfort, security, energy management, and telecommunications modules. Specific elements. Sizing of installations. Specific modules. Special modules. I/O elements to the modules.

e) Features of automation facilities in buildings and large premises.

Automatic installations of commercial buildings or premises. System implementation.

Control and management parameters in buildings and large surfaces. Energy control. Energy efficiency. Rules.

Principle of operation of domestic communication buses. Characteristics of use. Industrial buses in inmotic installations. Structured cabling.

Configured the technologies pipeline elements. System configuration. Interlinked. Adjustments and parameterization.

Combination of areas of comfort, security, energy management and telecommunications to be combined. Basic combination parameters: communication protocols, signal types, among others. Area automation feasibility studies. Connection elements between systems.

Electromagnetic compatibility rules. International standards.

Monitoring system. SCADA system. Own systems. Touch screens. Visualizers.

8. Professional module: Configuring electrical installations

Code: 0524

Contents:

a) Identification of low voltage electrical installations in the environment of concurrency buildings, industries, offices and premises:

regulations. REBT, Technical Building Code (CTE), Specific Standards of the Supply Companies and UNE Standards, among others. Energy certification.

Low voltage distribution systems. Generalities. Underground networks. Air networks.

Structure of the installations. Link installation. Internal or receiving installation. Parts and regulations liaison facilities. Internal and receiving facilities parts and regulations.

General protection device (CGP, CPM, among others). Power line. Counters. Location and installation systems. Individual referrals. General and individual control and protection devices. Power control elements (ICP, maximeter, among others).

Measurement teams. Electricity tariffs. Counters. Electronic counters.

Interior or receiving facilities. General characteristics. General requirements. Installation systems.

Interior installations in housing and buildings. General prescriptions.

Facilities in public concurrency. Classification. Special requirements for electrical installations of premises with a risk of fire or explosion. Special purpose installations.

Emergency lighting (security and replacement lighting). Installations with emergency lighting.

Characteristic elements of the installations. Conductors and cables. Protective tubes and channels. Protections.

Enveloping degrees of protection of an enclosure. Elements of command and protection. Power control elements (ICP, maximeter, among others). Mechanisms and sockets.

b) Characterisation of low voltage electrical installations in special feature premises and special purpose facilities:

Facilities in premises at risk of fire and explosion. General requirements. Classification of sites. Class I and II sites. Elements of the installation.

Facilities in premises of special characteristics (wet and wet premises, batteries of accumulators, among others). Classification. Types and characteristics. Environmental standards.

Facilities for special purposes (swimming pools and fountains, temporary and temporary work facilities, operating rooms and intervention rooms, among others). General requirements. Features. Swimming pools, fountains. Lifting and transport machines. Temporary and temporary works installations. Fairs t stands. Agricultural and horticultural establishments.

Work Box. Protective elements. Power elements.

c) Determining the characteristics of elements in electrical installations:

Loads forecast. Criteria for calculation. Maximum power.

Determining the number of circuits in housing facilities and in the building environment. Calculation of circuits.

Concurrency Coefficients. Housing protections. Concurrency.

Section Calculations. Criteria for calculation. Voltage drop. Current density. Short circuit current. Calculation tables. Calculation criteria.

Calculation of sections in buildings and housing. Types of drivers, applications. UNE Standards. Tables and charts. Calculation criteria t selection.

Calculation and sizing of pipes. Types and applications. Tables.

Size of boxes and boxes. Characteristic types and values. Tables.

Sizing the protection elements. Magnetothermic classes. Magnetothermic firing curves. Differential shot curves. Characteristics of the neutral. Types of configurations.

Sizing the centralization of counters. Features and location. Electronic counters. Pricing.

Sizing of the grounding system. Types of land-taking in buildings. Ring structure. Type of plates and pics.

d) Configuring low voltage electrical installations:

Design specifications. Regulations. REBT. CTE. UNE rules, among others.

Distribution of circuits. Distribution of items. Calculation of number of circuits. Calculation of sections. Calculation of pipes and trays.

Selection of equipment and materials. Commercial catalogues. Selection criteria.

Plotting and location of items. Specific symbology. UNE standard. ISO standard.

Quality in the design of facilities. Energy efficiency in buildings and housing. Application rules.

Details of electrical installations dedicated to buildings, premises and external installations.

Reception tests and trials. Type approval characteristics of mechanisms and receivers.

Put in service of the facilities. Procedures for putting into service. Precautions and acceptance criteria.

Technical Memory. Features. Administrative management of electrical installations.

e) Setting up outdoor lighting installations:

Fundamentals of lighting and lighting installations. Lighting installations. Types. Features. Interior lighting. Exterior lighting. Emergency lighting.

Elements of the light installation. Luminaires. Lamps. Auxiliary equipment and components. Regulation and control units. Control and protection frames in lighting installations. Elements of command and protection. Specific features of use. Energy efficiency in outdoor lighting installations.

Posts, bacles, columns, among others. Installation of grounding. Techniques of hoisting. Calculation of posts and bacles. Environmental protections. Types of grounding. Differential protection in outdoor lighting installations.

Physical parameters of light. Nature and characteristics.

Physical parameters of the color. Nature and characteristics. Generalities. Classification. Color Temperature (Tc). Color Performance Index (IRC). Psychic effects of colors and their harmony. Luminonic magnitudes. Light sources. Types and Features.

Public lighting. Types. Features. Sizing and design criteria.

Lighting with projectors. Types of projectors. Types of luminaires. Utilities

Lighting with fiber optics. Optical fiber projectors. Ornamental lighting.

Luminous labels. Technical instructions for application. Fluorescent lighting. Fluorescent, folded and connected tubes.

Lighting control and control equipment. Conventional reactances. Electronic reactances. Energy saving.

Efficiency and energy saving. International standards. National rules. Regional and local rules.

LuminXX_ENCODE_CASE_CAPS_LOCK_Off-Technical Calculations In Exterior Lighting. Lighting levels. Spaces.

Electrical installation in exterior lighting. Sizing. Electrical and mechanical calculations. Grounding. Protection of outdoor lighting installations.

External lighting facility regulations.

Computer applications for lighting installation design.

f) Characterization of Solar PV Installations:

Classification of photovoltaic solar installations.

Isolated solar installation. Electrogens. Specifications.

Network-connected photovoltaic solar installation. Specifications. Connection point request. Quality of supply parameters. Energy measurement system. Energy input.

Low voltage generating facilities. General conditions. Conditions for the connection. Connection cables. Waveforms.

Protections. Grounding facilities. Commissioning.

Solar Panels. Types, operation and constitution.

Reflective panels.

Photovoltaic panel feature plate.

Types of accumulators. Maintenance. Location. Precautions. Connection.

Protections. Against overloads, against direct and indirect contacts, against over-tensions, among others. Maximeter.

Regulators. Characteristic function and parameters. Configuration of parameters.

converters. Programming. Blocks. Maintenance.

Solar tracking systems. Support structures. Servo-drives.

Connection systems of the neutral and of the masses in power distribution networks. Neutral protections.

Support facilities. Features. Schemas and symbology.

Telemanagement of PV installations.

Application regulations. (REBT, UNE, Regulatory Regulation for the production of electrical energy by photovoltaic solar technology. Network connection rules, among others).

g) Configuring photovoltaic solar installations:

Design conditions. Manufacturers ' catalogues.

Calculations. Radiation levels. Units of measurement. Climatic zones. Solar map. Solar performance. Orientation and inclination. Determination of shadows. Coefficients of losses. Calculation of batteries. Voltage drops and conductor section. Calculations of the grounding system. Accumulators. Installation protections. Accumulator system protections.

Features of equipment and items. Calculation of regulators. Protection of regulators and batteries.

Administrative processes in photovoltaic solar installations. Facilities that need project. Installations that require technical memory.

Regulatory framework for grants. Legislation and calls. Processing of grants. International standards.

9. Professional Module: Managing the assembly and maintenance of electrical installations

Code: 0602

Contents:

a) Organization of the installation provisioning process in electrical installations:

Project parts applicable to the mount. Descriptive memory. Measurements. Budget. Annexes. Technical characteristics.

Work Certification. Technical certifications. Product approvals. International standards.

Provisioning of electrical installations. Methods. Provisioning processes. Procurement planning techniques. Management of provisioning. Management of the control.

Installation element encoding techniques. Coding standards (UNE and ISO, among others).

Graphical representation. Flowcharts. Detection of needs in the provisioning of equipment and items.

Application of the mount plan to the provisioning organization. Control sheets. Albaranes. Provisioning planning. Specific provisioning planning and control software.

b) Defining the reception and supply characteristics of materials and media for assembly:

Store types in electricity companies. Enterprise warehouses. Temporary warehouses. Emergency stores.

Warehouse Techniques. Storage criteria. Organization criteria.

Technical documentation for warehouse control. Management of albarans and input documentation.

Basic accounting knowledge (discounts, rating, among others). Basic economics concepts applied to the warehouse.

Supply and stock control techniques.

The work store. Features. Location. Precautions.

Resources and documentation.

c) Planning for the assembly of electrical installations in housing and distribution lines:

Technical characteristics of electrical projects applicable to assembly.

procedural techniques for project management.

The project. Development of electrical projects. Phases and planning.

Technical and regulatory features for the pipeline assembly. Specific technical instructions. Manufacturers ' instructions.

Technical and regulatory features for assembly. Regional and local rules.

Tools and measuring equipment used in the assembly of electrical installations. Specific tools for the assembly of electrical installations. Civil works tools. Basic equipment of measures according to REBT.

Machinery used in the installation of installations.

Planning techniques applied to the installation of installations. Management of mount, phases, and planning.

Timing of mounting processes. Planning techniques for the assembly. Process coordination.

d) Characteristics of the electrical installations assembly processes:

Mount plan contents (general data, needs, order calendar and material receipt, performance calendar, among others).

Human and material resource management techniques. Organisation of human resources. Planning. Organisation charts of companies in the electricity sector.

Computer tools for the management of human and material resources. General software for the management of assembly, human and material resources (Word, Access, Excel and Autocad, among others). Specific software.

Procedures and management indicators. Criteria for the acceptance of installations. Criteria for the acceptance of materials. Criteria for the acceptance of technicians. Indicators of assembly and installation processes (quality of installation, adaptation to REBT, adaptation to the project and fulfillment of delivery times, among others). Performance indicators. Indicators of satisfaction.

Current regulations. REBT. Building technical code. International standards (ISO 9000, ISO 14000 and EFQM, among others).

(e) Organization for the placing in service of electrotechnical installations in housing and premises:

Measuring devices (insulation measurement, ground meter, differential sensitivity, among others). Error techniques in measuring devices.

Minimum acceptance values (isolation, strength, stiffness, shot time, among others). Values accepted in national, regional and local standards.

Start-up requirements (continuity, accessibility, minimum distances, among others). Start-up methods.

Protection element tests (sensitivity, shooting time, coordination, among others). Measurement techniques for protective elements. Acceptance and rejection criteria.

Supply network analysis (harmonics, disturbances, voltage level, stability, among others). Techniques and equipment for the measurement and detection of harmonics, disturbances in electrical and telecommunications networks.

Review of public concurrency (critical points, plan of reviews, among others). Measurements of earth takes, values of acceptance. Emergency lighting. Management of the review plan.

Security measures. Isolations. Security of the elements with fire or explosion hazards.

Regulations in force.

f) Planning for maintenance and resource management:

Points that can be maintained in an electrical installation. Elements and systems that can be maintained in facilities in housing (isolation of drivers, connections, mechanisms, land grabs and common telecommunications facilities, among others). Elements and systems capable of control in special installations (tensions, land, network disturbances, tables and protections, among others).

Material sourcing and stock management.

Preventive and corrective maintenance (concept, tasks, and application examples). Maintenance of mechanisms. Maintenance of systems of installations. Maintenance of drivers and channelings. Maintenance of the ICT. Maintenance of the distribution and individual lines. Maintenance of the protections.

Maintenance planning techniques. Maintenance management. Procedures for planning. Indicators for the control of maintenance. Roadmaps.

Manufacturer maintenance instructions.

Adjustment parameters for maintenance improvement. Acceptance criteria and values.

Receipt of materials.

Using manufacturers catalogs for compatibility determination. Instructions from manufacturers. IT tools for the organization of maintenance and control of breakdowns.

Industrial waste management. Application rules.

Waste Management Plan. Parts and elements of the waste management plan.

Basic contents of a maintenance plan (general data, needs, schedule of revisions and spare parts, calendar of action, among others). Control sheets.

Detection and control of maintenance process indicators, acceptance criteria. Process indicators. Procedural indicators. Service indicators.

Quality rules applicable to maintenance plans. ISO9000 standards. EFQM.

Human and material resource management techniques.

Computer tools for human and material resource management.

Procedures and management indicators. Human resource management processes. Acceptance indicators.

Regulations in force.

10. Professional module: Electrotechnical and automated systems project

Code: 0526

Contents:

a) Identification of the needs of the productive sector and the organization of the company:

Identification of job roles.

Industry structure and organization.

Company activity and its location in the industry.

Organization chart of the company. Functional relationship between departments.

Industry trends: productive, economic, organizational, employment and other.

Work procedures in the company scope. Systems and methods of work.

Determination of excluded labor relations and special labor relations.

Collective agreement applicable to the professional field.

Company culture: corporate image.

Quality and security systems applicable in the industry.

b) Design of projects related to the sector:

Analysis of the local reality, of the business offer of the sector in the area and of the context in which the professional module of training in job centers will be developed.

Collecting information.

The overall structure of a project.

Crafting a work script.

Project execution planning: objectives, content, resources, methodology, activities, timing, and evaluation.

Project Feasibility and Opportunity.

Review of applicable regulations.

c) Planning for project execution:

Sequencing of activities.

Elaboration of work instructions.

Making a risk prevention plan.

Documentation required for project execution schedule.

Compliance with safety and environmental standards.

Quality assurance indicators for projects.

d) Defining control and evaluation procedures for project execution:

Proposal for solutions to the objectives outlined in the project and justification of the selected ones.

Defining the project evaluation procedure.

Determining the variables that can be evaluated.

Documentation required for project evaluation.

Process and end product quality control.

Log of results.

11. Professional module: Training and employment guidance

Code: 0527

Contents:

a) Active job search.

Valuation of the importance of permanent training for the career and professional career of the Superior Technician in Electrotechnical and Automated Systems.

Analysis of personal interests, skills and motivations for the professional career.

Identification of training itineraries related to the Superior Technician in Electrotechnical and Automated Systems.

Responsible for learning itself. Knowledge of the requirements and expected expectations.

Definition and analysis of the professional sector of the Superior Technician in Electrotechnical and Automated Systems.

Planning your own career:

Setting medium-and long-term labor objectives compatible with needs and preferences.

Realistic and consistent goals with current and projected training.

Job search process in small, mid-sized, and large companies in the industry.

Learning and employment opportunities in Europe. Europass, Ploteus

Job search techniques and instruments.

Self-employment assessment as an alternative for professional insertion.

The decision-making process.

Setting a personal checklist of consistency between career plan, training, and aspirations.

b) Conflict management and work teams.

Valuation of the advantages and drawbacks of the team work for the organization's effectiveness.

Equipment in the field of electrical installations and projects according to the functions they perform.

Analysis of the training of work teams.

Features of an effective work team.

The participation in the work team. Analysis of the possible roles of their members.

Conflict definition: features, sources, and stages of the conflict.

Methods for conflict resolution or suppression: mediation, reconciliation, and arbitration.

c) Job Contract.

The right of the job.

Intervention of public authorities in industrial relations.

Analysis of the individual labor relationship.

Determination of excluded labor relations and special labor relations.

Hiring contract modes and promotion measures.

Rights and duties arising from the employment relationship.

Working Conditions. Salary, work time and work rest.

Modifying, suspending, and extinguishing the work contract.

Representation of workers.

Collective bargaining as a means of reconciling the interests of workers and employers.

Analysis of a collective agreement applicable to the professional scope of the Superior Technician in Electrotechnical and Automated Systems.

Collective conflicts of work.

New work organization environments: subcontracting, teleworking.

Benefits for workers in new organizations: flexibility, social benefits, among others.

d) Social Security and Unemployment.

The Social Security System as a basic principle of social solidarity.

Structure of the Social Security System.

Determination of the principal obligations of employers and workers in the field of Social Security, affiliation, high, low and contribution.

The protective action of Social Security.

Classes, requirements, and benefits.

Concept and protected situations in unemployment protection.

Systems of workers ' advice regarding their rights and duties.

e) Professional risk assessment.

Importance of preventive culture at all stages of preventive activity.

Assessment of the relationship between work and health.

Analysis and determination of working conditions.

The concept of professional risk. Risk factor analysis.

Risk assessment in the company as a basic element of preventive activity.

Risk analysis linked to security conditions.

Risk analysis linked to environmental conditions.

Risk analysis linked to ergonomic and psychosocial conditions.

Specific risks in the field of electrical installations and projects.

Determination of the possible health damage to the worker that can be derived from the identified risk situations.

f) Planning for risk prevention in the enterprise.

Rights and duties in the field of occupational risk prevention.

Responsibilities in the field of occupational risk prevention.

Managing prevention in the enterprise.

Representation of workers on preventive matters.

Public bodies related to the prevention of occupational risks.

Planning for prevention in the enterprise.

Emergency and evacuation plans in work environments.

Elaboration of an emergency plan in a small or medium enterprise in the sector.

g) Application of prevention and protection measures in the enterprise.

Determination of individual and collective prevention and protection measures.

Action protocol in an emergency situation.

First aid. Medical urgency. Basic concepts.

Application of first aid techniques.

Training for workers in the field of emergency plans.

Surveillance of workers ' health.

12. Professional Module: Enterprise and Entrepreneurship Initiative

Code: 0528

Contents:

a) Entrepreneurship Initiative:

Innovation and economic development. Main features of the innovation in the activity of the assembly and development of projects of electrical installations and systems (materials, technology, organization of production, etc.).

Entrepreneurial culture as a social need.

The entrepreneurial character.

Key factors for entrepreneurs: initiative, creativity and training.

Collaboration between entrepreneurs.

The performance of entrepreneurs as employees of a company related to electrical installations and the development of electrical projects.

The performance of entrepreneurs as entrepreneurs in the assembly and development of electrical installations.

The risk in entrepreneurial activity.

Concept of entrepreneur. Requirements for the exercise of business activity.

Personal goals versus business goals.

Business Plan: the business idea in the field of assembly and development of electrical installations.

Good practices of entrepreneurial culture in the assembly and development of electrical installations and at the local level.

b) The company and its environment:

Basic company functions.

The enterprise as a system.

The overall business environment.

Analysis of the overall environment of a company related to the assembly and development of electrical installations.

The company's specific environment.

Analysis of the specific environment of a company related to the assembly and development of electrical installations.

A company's relationships in the assembly and development of electrical installations.

Relations of an assembly and development company of electrical installations with the whole of society.

Company culture: corporate image.

Social responsibility.

The Social Balance.

Business ethics.

Social and ethical responsibility of companies in the electrical installations sector.

c) Creating and starting a business.

Company concept.

Enterprise Types.

The responsibility of the owners of the business.

Taxation in companies.

Choice of the legal form. Dimension and number of partners.

Administrative formalities for the formation of a company.

Economic Viability and financial viability of a company related to the assembly and development of electrical installations.

Analysis of sources of financing and budgeting of a company related to the assembly and development of electrical installations.

Aid grants and tax incentives for SMEs related to the assembly and development of electrical installations.

Business plan: choice of legal form, economic and financial feasibility study, administrative procedures and management of grants and grants.

d) Administrative function.

Concept of basic accounting and notions.

Accounting operations: recording the economic information of a company.

Accounting as a true picture of the economic situation.

Analysis of accounting information.

Corporate Tax Obligations.

Requirements and deadlines for the filing of official documents.

Administrative management of a company related to the assembly and development of electrical installations.

13. Professional Module: Training in Work Centers

Code: 0529

Contents:

a) Identification of the structure and business organization:

Structure and business organization of the assembly and development of electrical installations in homes and in their environment.

Company activity and its location in the assembly and development sector of electrical installations.

Organization chart of the company. Functional relationship between departments

The company's logistics organization. Suppliers, customers, and marketing channels.

Work procedures in the company scope. Systems and methods of work.

Human resources in the enterprise: training requirements and professional, personal and social skills associated with different jobs.

Quality system set in the job center.

The security system set in the job center.

b) Application of ethical and labour habits:

Personal attitudes: empathy, punctuality

Professional attitudes: order, cleanliness, responsibility and security.

Attitudes to the prevention of occupational and environmental risks.

Hierarchy in the enterprise. Communication with the work team.

Documentation of professional activities: methods of classification, coding, renewal and elimination.

Recognition and application of internal rules, work instructions, standard procedures of work and others, of the company.

c) Determination of the characteristics of the facilities from a given preliminary draft or conditions:

Application regulations.

Installations and sketches of the installations.

Dimensioning of equipment and elements that configure the installations.

Selected equipment and accessories approved.

Defining the technology process for mounting.

Drawn from the plans and schemes of the installations.

Drawn from installation drawings of the installations. Symbology. Normalized scales.

d) Planning for installation of installations, stages, and resources:

Stages of the installation process.

Work units and human and material resources.

Means of work, equipment, tools and tools of measurement and testing.

Provisioning plans and storage conditions for equipment and materials.

Mount costs from units of work.

Technical assembly specifications and test protocols.

Service instruction and facility maintenance manuals.

Risk prevention regulations.

e) Monitoring the installation of installations, safety protocols, and quality:

Technical documentation, elements, their function and their layout in the installation of the facilities.

Tools and equipment needed on the premises.

Equipment and accessories.

Techniques and mounting finishes relating to anchorages, connections and machining.

Individual protection items defined in the security plan.

Quality system procedures.

Respect for the environment.

f) Commissioning or service of facilities and equipment:

Start-up plan for facilities and equipment.

Sequence of operation of the electrical control, security, and receiver elements of the installation.

Programming, throttling and calibrating the elements and equipment according to their functionality characteristics.

Verified installation performance parameters.

Hand tools, computer tools and tools for commissioning.

Current security, quality, and regulatory standards.

Technical-administrative documentation required for commissioning.

g) Maintenance of installations:

Maintenance types.

Maintenance programs.

The warehouse of utilities.

Functionality, electrical consumption and operating parameters, electrical installations in dwellings, buildings, electrical distribution networks and outdoor lighting installations.

Tuning and reprogrammed items and equipment

Technical documentation required to ensure the traceability of the actions.

Computer applications for maintenance planning.

h) Monitoring for breakdown and malfunction repair on equipment and installations:

Organization of interventions from the maintenance plan.

Symptoms of breakdowns or dysfunctions through measures

Hypotheses of the possible causes of the breakdown and their impact on the installation.

Locating breakdowns.

Disassembly criteria following safety, quality, and environmental standards.

Replacing or repairing broken elements.

Reset the initial functionality of the installation.

Completed the documentation set in the maintenance programs.

ANNEX II

Sequencing and weekly hourly distribution of professional modules.

Top Grade Forming Cycle: Electrotechnical and Automated Systems

90

	Module	Duration (hours)	First Course (h/week)	Second course
				2 quarters (h/week)	1 quarter (hours)
0519 Technical documentation on electrical installations	105	3
0520 Systems and electrical circuits	130	4
0522 Power network development and transformation centers	130	4
0523 Configuring domotic and automatic installations	155	5
0524 Electrical installations configuration	155
0602 Managing the assembly and maintenance of electrical installations	105	3
0527 Training and Job Orientation	90	3
	90	90	90
0517 Processes on infrastructure installations telecom common	130
0518 Techniques and processes in electrical installations
0521 Techniques and processes on domotic and automatic installations	180		9
	0528 Enterprise and enterprise initiative	60		3
Timetable reserved for English imparted module	40		2
0529 Training in Job Centers	400			400
0526 Electrotechnical and Automated Systems Project	40			40
Total in the formative cycle	2000	30	30	440

ANNEX III

Modules capable of being imparted in the English language

0517 Processes in facilities common telecommunications infrastructures.

0518 Techniques and processes in electrical installations.

0521 Techniques and processes in domotic and automatic installations.

0523 Configuring domotic and automatic installations.

0524 Electrical installations configuration.

ANNEX IV

Minimum spaces and equipment

Spaces:

Form Space

Surface
30 pupils	20 pupils
	60	40
Electrotechnical installations workshop	150	100
Auto Systems Workshop	150	100
90	90	60

Minimum Equipment:

Formative Space
-purpose Aula	audio-visual equipment.
	PCs installed in network.
	Canon of Projection
	Internet.
	audio-visual equipment
	network installed PCs.
	Canon projection
	Teams and measuring instruments:
	Multimeter.
	Isolation Meter.
	leak stream media.
	Tension Detector.
	Team Verifier of the Differential Switches trigger sensitivity.
	Luxometer.
	Analyzer networks, harmonics, and network disturbances
	electrode for the measurement of soil isolation
	Watchdog device for surveillance device level of isolation in IT facilities.
	Oscyloscopes.
	Frequency generators.
	Power supplies.
	Electrotechnical trainers
	transformer trainer.
	The didactic team of neutral systems and systems associated protection
Systems Workshop.	Audio-visual Equipment.
	Electrical frame assembly equipment.
	Electrical tables.
	Equipment and measuring instruments.
	Specific tools and tools.
	Teams personal protection
	Field bus systems
	Systems by carrier streams.
	Wireless systems.
	Frequency Converters.
	Electronic Arrancers.
	Servoactions and servomotors.
Electrotechnical installations workshop.	Audio-visual equipment. PCs installed in network.
	Projection Canon.
	Personal protection equipment
	Manual tools for electrical and mechanical work.
	Machinery
	Appliances of specific electrical measures to the REBT. (tellurometer, isolation meter, multimeter, luxometer, leakage current meter, voltage detector, loop resistance meter, power and power recorder for alternating current, triphasic alternating current, phases, differential firing sensitivity tester equipment, among others)
	Energy measurement devices.
		Coach of Home Protection Items
	Specific measurement devices for photovoltaic equipment
	Cells and solar panels.
	Batteries.
											The_table_table_izq"> Emergency lighting design, indoor lighting, exterior.
	Luminaries.
	Lamparas and auxiliary equipment.
	Measurement Equipment (Multimeter, Multifunction Pinza, Multifunction)
	Installation material (mechanisms, receivers, auxiliary equipment, elements of connecting drivers, wrappers, connection boxes, and mechanisms, among others)
Aula.	Audiovisual equipment.
	network installed PCs.
	Canon projection
			Low-voltage indoor electrical installations calculation programs
	Solar PV installations calculation programs
	Network design and calculation programs
	transformation center.
	Airline accessories.
	Link Equipment Coach.
	Field Meters and Analog And Digital Modulation Analyzers
	Television and radio captadoras antennas terrestrial and satellite. Accessories
	Towers, masts, and mechanical accessories
				The_table_table_izq"> Satellite Signal Receive and Processing Headers
	Liabilities: Distributors, wrappers, mixers, separators, filters, user-taking boxes, among others
	Multiswitches for distribution network.
	Software header control.