2

Introduction 3

Summary Table of Training 2017 4

Training Schedules 5

Appendix 18

Registration Form 19

General Terms of Sale for Training 20

Additional Information 21

Access to Our Facilities 22

Accommodation & Access Map 23

3

INDIELEC offers training courses to engineers and technicians who want to discover, improve or recover their knowledge in various fields of electrical engineering. These training courses can be either oriented to the handling of our software packages or oriented to the technology.

Beyond the issues addressed in our catalogue, we also offer customized courses to satisfy specific customer needs: from magnetic, electrical and thermal design to Finite Element Analysis, based on our experience over 20 years in these fields.

INDIELEC offers two kinds of training activities:

Standard courses: These courses are held at our facilities. Various editions per year are held, whose dates are proposed by INDIELEC. Attendees from different entities can participate in these courses, with different professional profiles. Detailed schedules and dates are available in this catalogue.

Custom courses: These courses are held on request, so that the agendas are made according to the customer profile, trying to customize the practical exercises that will be addressed during the course. The dates of these courses are agreed with the customer and can be carried out at our facilities or at the customer premises.

All the courses appearing in our catalogue are presented by INDIELEC engineers, experienced in the use of simulation tools and familiarized with phenomena that occur at electromagnetic devices.

Developers of the different programs we distribute also take part to organize advanced courses. We count on the collaboration of:

CEDRAT, company developer of FLUX, InCa3D and GOT-It.

Manitoba HVDC RC, company developer of PSCAD.

Motor Design, company developer of Motor-CAD.

CD-adapco, company developer of SPEED.

RTDS Technologies, company developer of RTDS.

Adapted Solutions, company developer of Portunus.

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Language Training course Starting

date(s) Duration Place

Cost/person

(VAT not incl.)

Flux2D / Design and simulation of electromagnetic devices 14th-February 3 days Valencia 1170 €

Flux2D & GOT-It / Optimization of electromagnetic devices 7th-March 2 days Valencia 790 €

Flux2D & Portunus / Co-simulation of multiphysic systems: from the

device to the system 4th-April 2 days Valencia 790 €

Applied magnetism and magnetic materials 18th-April 3 days Valencia 1170 €

PSCAD / Power system simulations: Introduction & Applications 16th-May 3 days Valencia 1170 €

SPEED & MotorCAD / Introduction to magnetic and thermal design of

electric machines 20th-June 3 days Valencia 1170 €

Flux3D / Modeling of electromagnetic devices in 3D 4th-July 3 days Valencia 1170 €

Flux2D / Design and simulation of electromagnetic devices 19th-

September 3 days Valencia 1170 €

Flux2D & GOT-It / Optimization of electromagnetic devices 17th-October 2 days Valencia 790 €

Applied magnetism and magnetic materials 7th-November 3 days Valencia 1170 €

PSCAD / Power system simulations: Introduction & Applications 12th-

December 3 days Valencia 1170 €

PSCAD / Advanced simulation of power systems On request 3 days - -

Flux v12.X / Know the new features of Flux v12.X On request 1 day - -

Portunus / Introduction to multiphysic system simulation On request 2 days - -

SPEED / Introduction to magnetic design of electric machines On request 2-3 days - -

MotorCAD / Introduction to thermal analysis of electric machines On request 2-3 days - -

This table summarizes the standard courses that will be held by INDIELEC in 2017, which can be modified if considered appropriate. Custom courses will not be published because they are an agreement between INDIELEC and entities that request these courses.

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Course: Flux2D / Design and simulation of electromagnetic devices

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

14th February 3 days Until 7th February Parque Tecnológico de Valencia 1170 €

19th September 3 days Until 12th September Parque Tecnológico de Valencia 1170 €

Course outline

In this 3-day training course, basic concepts of 2D modeling and analysis of electromagnetic problems are handled by the finite element tool Flux v12, as well as its application to industrial devices. For that purpose the latest techniques built into the latest versions of Flux are used, as the use of the 2D Sketcher to build geometries in 2D, the aided generation of the mesh or the coupling with Portunus, among others.

This is a theoretical and practical course, where industrial problems are developed. The primary objective of the course is to familiarize attendees with a powerful CAD tool for the design and analysis of complex devices such as contactors, transformers, electric motors, sensors, induction heating processes, etc. Also these tools, widely used in industry, help to better understand the physical phenomena taking place in these devices.

Who should attend

The course is mainly aimed at engineering students and design and R&D engineers who want to model, analyze and optimize their electromagnetic devices by means of simulation tools.

Course schedule

MODULE 1: Presentation

- Flux software presentation and applications.

MODULE 2: General working with Flux

- Flux Supervisor.

- Graphical User Interface. - Data Management.

MODULE 3: Geometry

- Basics: points, lines, faces, transformations, infinite box, etc.

- Geometry import.

- Geometry building with Sketcher 2D.

- Use of Overlays.

MODULE 4: Mesh generation - Basics: mesh points, mesh lines, mesh generators, etc.

- Mesh controlled by the user.

- Aided mesh.

MODULE 5: Physics

- Materials.

- Regions.

- Circuit coupling.

- Kinematic coupling.

MODULE 6: Solving

- Solvers.

- Solving scenarios.

MODULE 7: Results post-processing

- Isovalues, isolines and arrows. - Local quantities computation on an entity (point, line, face

region, volume region).

- Global quantities computation (force, torque, iron losses,

power, energy…).

- Supports: paths, grids, cut planes, etc.

- 2D and 3D curves.

- Parametric analysis.

- Export and data management.

MODULE 8: Links to other software packages

- Flux-Portunus co-simulation.

- Excel driving Flux.

- Optimization with GOT-It

MODULE 9: Command language

- Introduction to PyFlux.

- Use of Python files to automate a process.

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Course: Flux2D & GOT-It / Optimization of electromagnetic devices

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

7th March 2 days Until 28th February Parque Tecnológico de Valencia 790 €

17th October 2 days Until 10th October Parque Tecnológico de Valencia 790 €

Course outline

In this 3-day training course, basic concepts of optimization are handled, as well as the different optimization methods, algorithms and strategies, that will be implemented with the use of the software GOT-It.

During the course attendees will discover the interest and benefits of using GOT-It to carry out optimizations of their electromagnetic devices designed with Flux. So they will learn to do the optimization tasks more efficiently: definition of objective function, parameters and constraints, optimization of designs, speed-up of computation time, detection of the most influential parameters, robustness analysis, etc.

Who should attend

The course is mainly aimed at Flux2D and Flux3D users who want to learn how to use GOT-It to carry out the optimization of the electromagnetic devices they have designed.

Course schedule

MODULE 1: Basics of optimization

- Optimization problems: o Mono or multi objective. o With or without constraints.

- Optimization strategies: o Stochastic methods. o Deterministic methods. o Indirect optimization.

MODULE 2: GOT-It general presentation

- Contexts. - Data management. - Steps to follow during the optimization process.

MODULE 3: Flux/GOT-It coupling

- Operation principle and coupling set up. - Use of command files (.py). - Examples of optimization of industrial devices.

MODULE 4: Advanced functions

- Screening. - Robustness analysis. - Distributed computation (HPC).

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Course: Flux2D & Portunus / Co-simulation of multiphysic systems: from the device to the

system

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

4th April 2 days Until 28th March Parque Tecnológico de Valencia 790 €

Course outline

In this 2-day training course, a brief introduction about the use of two simulation tools, Flux and Portunus, will be made, with particular emphasis on their ability to work together through co-simulation.

On the one hand, Flux allows to model the electromagnetic device with high accuracy and in detail, while Portunus allow to take into consideration all types of drives and/or control strategies, as well as the connection of mechanical elements.

Who should attend

The course is mainly aimed at Flux2D and/or Flux3D who want to discover the capabilities that Portunus and its coupling with Flux can offer.

Course schedule

MODULE 1: Introduction to Portunus

- Basics on system simulation - Application examples - General view of the software

MODULE 2: Use of the software

- How to implement an schematic: o Electric drives, o Mechanical loads, o State machines and block diagrams, o Etc.

- How to implement more complex cases: o sub-pages and ports, o Customized models, o Libraries management

- Simulation settings MODULE 3: Flux/Portunus co-simulation

- Theoretical introduction and solving algorithms - Practical examples: drives, linear actuator with coupled

load, etc.…

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Course: Applied magnetism and magnetic materials

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

18th April 3 days Until 11th April Parque Tecnológico de

Valencia 1170 €

7th November 3 days Until 31st October Parque Tecnológico de

Valencia 1170 €

Course outline

In this 3-day training course, basic concepts of magnetism are handled, as well as its application of industrial devices. Practical examples of electromagnetic devices are solved and analyzed through the Maxwell's equations and their processing to make them easy and understandable.

The primary objective of the course is to familiarize attendees with the physical aspects of magnetism. For a better understanding of each part of the course, Finite Element software tools will be used for the design and analysis of complex devices, such as actuators, transformers, electric machines, sensors, etc. These tools will be used exclusively for the purpose of illustrating attendees with practical examples, so that no knowledges of the Finite Element method are required.

Who should attend

The course is mainly aimed at engineering students, design engineers and professionals who want to discover, improve and extend their knowledges in magnetism and magnetic materials.

Course schedule

MODULE 1: Physical and magnetic laws

- Electric loads and currents - From electromagnetic forces to E&B fields - Mathematic operators - Electromagnetic fields and Matter: wave effects - Electromagnetic fields and Matter: magnetizing

mechanisms o Atomic magnetism o Types of magnetic materials o Curie Temperature o Anisotropy

- Maxwell equations in electrical engineering - Ampère’s Law - Faraday’s Laws

MODULE 2: Equations in electrical engineering

- Magnetic fields computation - Hopkinson’s equations - Electrical laws - Active and reactive power - Joule losses - Power balance - Magnetic energy - Magnetic forces - Eddy currents - Static state vs variable states

MODULE 3: Magnetic materials

- Characteristics of magnetics materials

- Soft magnetic materials - Hard magnetic materials - Characterization of materials - Magnetic quantities

10

Course: PSCAD / Power system simulations: Introduction & Applications

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

16th May 3 days Until 9th May Parque Tecnológico de

Valencia 1170 €

12th December 3 days Until 5th December Parque Tecnológico de

Valencia 1170 €

Course outline

This course covers the fundamental phenomena applied to the study of electromagnetic transients in power systems. During the course numerous areas of application are discussed, such as AC transients, faults and protections, saturation transformers, electrical machines and transmission lines, with practical examples that illustrate these applications. Several detailed analyzes will be conducted to highlight practical situations frequently encountered by engineers in this field.

Course attendees will work with different cases proposed in an interactive environment using the PSCAD simulation software. In addition, attendees will be able to request about different aspects or phenomena that concern them. No experience in PSCAD is required.

Who should attend

The course is mainly aimed at engineering students, design engineers and professionals interested in knowing modern tools for analyzing electromagnetic transient phenomena in power systems.

Course schedule

MODULE 1: General Features

- Selection of simulation tools

- Typical studies in PSCAD

- Simulation theory

- Specifications

MODULE 2: First steps with PSCAD - PSCAD step by step

- Create projects

- Access to the Master Library

- On-line help

MODULE 3: Plotting, metering and control devices

- Plotting curves

- How to export results

- Dynamic control devices

- Snapshots - Multiple runs

- Variable parameters & parametric computations

- Control blocks & sequencers

MODULE 4: Breakers & Faults

- Breakers control

- Faults control

MODULE 5: Switching & Interpolation

- Semi-conductors models

- Interpolation method

MODULE 6: Transformers in PSCAD

- Classical models

- UMEC models

- Equivalent circuit

- Parameters

- Ideal model - Representing saturation

MODULE 7: Rotating Machines in PSCAD

- Introduction to electric machines

- Initialization processes

MODULE 8: Transmission Lines & Cables in PSCAD

- Equivalent circuit models

- Travelling wave models

MODULE 9: User Components

- EMTDC structure and solving process - How to create a component step by step

- Parameterizing a component

- Defining the code

MODULE 10: Organizing the Worksheet

- Creating sub-pages

MODULE 11: MATLAB-Simulink interface

- Matlab files interfacing

- Simulink files interfacing

MODULE 12: C & Fortran interface

11

Course: SPEED & MotorCAD / Introduction to magnetic and thermal design of electric

machines

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

20th June 3 days Until 13th June Parque Tecnológico de

Valencia 1170 €

Course outline

This three-day course is an introduction to the design of electrical machines from the electromagnetic and thermal point of view. It is a theoretical and practical course which will enable attendees to acquire a range of skills in the management of two of the most advanced design tools for electrical machines: SPEED and MotorCAD.

With SPEED, attendees will be able to perform the electromagnetic design of various types of machines such as permanent magnet machines, induction machines and switched reluctance machines. Motor-CAD will allow attendees to analyze these types of machines from the thermal point of view, considering any type of cooling.

Attendees may decide to attend three days of training, or if instead attending only one or two days, so that the amount of the course will be less than indicated in this document (see course brochure for more information).

Who should attend

The course is mainly aimed at new or experienced SPEED &/or MotorCAD users with previous knowledge in the field of electrical machines.

Course schedule

MODULE 1: Brushless Surface PM machines

- No. of slots & poles - Basic sizing - Winding design - EMF calculation - MMF harmonic - Advanced loss calculations - Cogging torque - Drive & current control - Thermal calculation steady state / transient - No forced cooling / forced cooling - Advanced cooling simulation with CFD

MODULE 3: Induction machines

- Equivalent circuit

- Torque/speed curve - Single and 3-phase motor examples - Thermal calculation steady state / transient - No forced cooling / forced cooling

MODULE 2: Brushless Interior PM machines

- IPM geometry - Reluctance torque - Phase and voltage locus diagram - Flux-weakening - Inductance - Saturation effects - i-psi GoFER and embedded FE solver - Drive & current control - Thermal calculation steady state / transient - No forced cooling / forced cooling - Advanced cooling simulation with CFD

MODULE 4: Switched/Synchronous reluctance

- SRD design using PC-SRD

- SRM design using PC-BDC - Maximizing saliency - Drive & current control - Thermal calculation steady state / transient

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Course: Flux3D / Modeling of electromagnetic devices in Modeler3D

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

4th July 3 days Until 27th June Parque Tecnológico de Valencia 1170 €

Course outline

In this 3-day training course, basic concepts of 3D modeling and analysis of electromagnetic problems are handled by the finite element tool Flux v12, as well as its application to industrial devices. For that purpose, the latest techniques built into the latest versions of Flux are used, as the use of the 3D Modeler to build geometries in 3D, the aided generation of the mesh or the coupling with Portunus, among others.

This is a theoretical and practical course, where industrial problems are developed. The primary objective of the course is to familiarize attendees with a powerful CAD tool for the design and analysis of complex devices such as contactors, transformers, electric motors, sensors, induction heating processes, etc. Also these tools, widely used in industry, help to better understand the physical phenomena taking place in these devices.

Who should attend

The course is mainly aimed at engineering students and design and R&D engineers who want to model, analyze and optimize their electromagnetic devices by means of simulation tools.

Course schedule

MODULE 1: Presentation

- Flux software presentation and applications.

MODULE 2: General working with Flux

- Flux Supervisor.

- Graphical User Interface. - Data Management.

MODULE 3: Presentation of the Modeler

- What is the Modeler?

MODULE 4: Modeler functionalities

- Primitive operations:

o Block / Cylinder / Cone.

- Boolean operations: o Union / Intersection / Subtraction / Assembly.

- Fillet / Chamfer.

- Symmetry / Repetition.

- Displacement operations:

o Translation / Rotation.

- Defeaturing and cutting objects:

o Defeaturing fillets, chamfers and holes of objects.

o Cutting objects.

MODULE 5: Building geometries in 3D - Building new geometries.

- 3D building from a 2D profile.

- CAD import and correction in the Modeler.

MODULE 6: Mesh generation

- Basics: mesh points, mesh lines, mesh generators, etc.

- Mesh controlled by the user.

- Aided mesh.

MODULE 7: Physics - Materials.

- Regions.

- Circuit coupling.

- Kinematic coupling.

MODULE 8: Solving

- Solvers.

- Solving scenarios.

MODULE 9: Results post-processing

- Isovalues, isolines and arrows.

- Local quantities computation on an entity (point, line, face

region, volume region).

- Global quantities computation (force, torque, iron losses,

power, energy…).

- Supports: paths, grids, cut planes, etc.

- 2D and 3D curves.

- Parametric analysis.

- Export and data management.

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Course: Flux v12.X / Know the new features of Flux v12.X

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

On request 1-2 days - - -

Course outline

In the course, attendees will become familiar with the new features of the version of Flux v12.X. A review of the most important developments of previous versions will also be made.

Who should attend

The course is mainly aimed at Flux 2D and Flux 3D users.

Course schedule

To be determined

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Course: PSCAD / Advanced simulation of power systems

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

To be determined 3 days - - -

Course outline

In this three-day course, advanced concepts of simulation and analysis of power systems by PSCAD simulation tool are discusses, as well as its use in industrial applications.

This course is assisted by a member of the development team of the company Manitoba-HVDC Research Centre, giving the attendee the opportunity to attend an exclusive course and raise issues directly to the PSCAD developers as well as exchange issues and approaches with other advanced users.

Who should attend

The course is mainly aimed at PSCAD users with knowledges in power system simulation, who wish to improve their skills and abilities.

Course schedule

Day 1: Introduction and Basics of Transient Simulation 1. Installing the software and getting started 2. Creating a small simulation case using PSCAD 3. Fundamental theory of transient simulation 4. Brief look at the models and examples available in PSCAD 5. Transient Studies:

- Transient over voltage studies (TOV), - Line energizing (charging and discharging transients), - Capacitor bank back to back switching, selection of

inrush and out-rush reactors, - Breaker re-strike, - Energy dissipation of surge arrestors, arrestor rating and

the selection of arrestors, - Transient recovery voltage across breakers (TRV), - Batch mode processing to capture the worst case,

- Determination of station stray capacitance values and representation in the study,

- IEEE breaker capability curves. 6. Direct Conversion of PSSE data files to PSCAD

Day 2: Advanced Topics and Power Electronics 7. Transformers 8. Faults 9. Protection systems 10. Induction Machines 11. Power Electronic Basics 12. FACTS Devices Day 3: Synchronous Generator and Power Quality Selected topics depending upon interest from participants chosen from list below:

13. Generators 14. Power Quality 15. Designing Custom Components

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Course: Portunus / Introduction to multiphysic system simulation

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

On request 2 days - - -

Course outline

In this two-day course, basic concepts of simulation and analysis of multi-domain systems by Portunus simulation tool are handled, as well as its use in industrial applications.

This is a theoretical and practical course, where industrial problems are developed. The primary objective of the course is to familiarize attendees with a powerful simulation software that makes possible to model within the same schematic a complete system, including power electronics systems, block diagrams, discrete events and thermal a thermal systems, among others. Portunus is perfectly suited for the simulation of electrical, mechanical and thermal systems.

Who should attend

The course is mainly aimed at new Portunus users.

Course schedule

MODULE 1: Introduction

- History - System simulation - Portunus capabilities - A first example of use -

MODULE 2: Simulator principles - ODE/DAE comparison - Describing electrical circuits: networks / block diagrams

equivalence - ODE/DAE: pro/cons - Solving DAE - DAE integration - Variable time step - Simulation of digital (discrete) systems

- Simplified mechanism of the simulator MODULE 3: First steps with Portunus

- Simulator - Analysis types - Couplings - Interface - Setting up license file

MODULE 4: Examples & Practice (I) MODULE 5: Simulator settings

- Step size control - Initialization of transient simulation - Source stepping - AC analysis - Accuracy settings

MODULE 6: Examples & Practice (II) MODULE 7: Specific modules

- Power electronics library - Thermal library - Spice import

- VHDL-AMS import - InCa3D coupling - Flux3D coupling - C-Interface - Automation interface - Simulink coupling

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Course: SPEED / Introduction to magnetic design of electric machines

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

On request 2-3 days - - -

Course outline

This course is an introduction to the design of electrical machines from the electromagnetic point of view. It is a theoretical and practical course which will enable attendees to acquire a range of skills in the management of one of the most advanced design tools for electrical machines: SPEED.

With SPEED, attendees will be able to perform the electromagnetic design of various types of machines such as permanent magnet machines, induction machines and switched reluctance machines.

The duration of the course will depend on the requirements and profiles of the attendees.

Who should attend

The course is mainly aimed at new or experienced SPEED users with previous knowledge in the field of electrical machines.

Course schedule

To be determined

17

Course: MotorCAD / Introduction to thermal analysis of electric machines

Language Starting date

Duration Registration deadline

Place Cost/person

(VAT not incl.)

Language Starting date Duration Registration deadline Place Cost/person

(VAT not incl.)

On request 2-3 days - - -

Course outline

This course is an introduction to the design of electrical machines from the thermal point of view. It is a theoretical and practical course which will enable attendees to acquire a range of skills in the management of one of the most advanced design tools for electrical machines: MotorCAD.

With MotorCAD, attendees will be able to analyze and model various types of machines such as permanent magnet machines, induction machines and switched reluctance machines from the thermal point of view, considering any type of cooling.

The duration of the course will depend on the requirements and profiles of the attendees.

Who should attend

The course is mainly aimed at new or experienced MotorCAD users with previous knowledge in the field of electrical machines

Course schedule

To be determined

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Please send this form:

- by fax: 961 309 167

- by email: indielec@indielec.es Training course: Course name: _________________________________________________________________ Starting date: ____ /____________ /________ Prize: _______________ € (VAT not included) Course attendees: 1/ Name: _________________________________ Email: ___________________________

2/ Name: _________________________________ Email: ___________________________

3/ Name: _________________________________ Email: ___________________________

4/ Name: _________________________________ Email: ___________________________

5/ Name: _________________________________ Email: ___________________________

6/ Name: _________________________________ Email: ___________________________

Invoicing data: Company: _____________________________________________________________________

VAT number: _____________________ Contact: _________________________________

Address: ______________________________________________________________________

City: _____________________________ Country: _____________________________

ZIP code: ______________ Phone: _____________________ Fax: _____________________

Date: ____ /____________ /________ Signature & stamp:

Sending this form filled and signed indicates acceptance of the General Terms of Sale for Training enclosed in page 20 of this document.

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These General Terms of Sale apply to all standard and custom training courses performed by INDIELEC. REGISTRATION Registration for any of the courses offered can be made through the registration form included in this document or accessing to our online form (http://www.indielec.com/registration-form-cms-4-51-296/).

The course registration will be effective upon receipt of this form and once received payment of the course fee. POSTPONEMENT OR CANCELLATION CONDITIONS If there are not sufficient participants to make the course viable from a teaching standpoint, INDIELEC reserves the right to postpone or cancel the event, refunding the 100% of the amounts paid. In case of cancellation by the assistant, refunding it is performed as follow:

100% of the amounts, if cancellation is made before the registration deadline, 70% of the amounts, if cancellation is made before the start of the course, 0% of the amounts, if cancellation is made after the start of the course.

PAYMENT AND INVOICING CONDITIONS The course fee must be satisfied by bank transfer before the registration deadline. Once verified the operation, the invoice is issued.

Invoicing data: INDIELEC – INGENIERÍA DE DISEÑO ELECTROTÉCNICO, S.L. VAT number: B-96686068 Parque Tecnológico de Paterna - Rd. Narciso Monturiol 17, Edif. 1, 1ª-8ª 46980 Paterna (Valencia) Phone: +34 96 130 34 62 Fax: +34 96 130 91 67 Email: indielec@indielec.es Bank account data: Entity: CAJA INGENIEROS IBAN: ES83 3025 0010 2614 0001 6328 SWIFT: CDENESBBXXX Account number: 3025 0010 26 1400016328

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Once you have registered: you will receive a confirmation email with practical information to organize your trip and a detailed map. We also try to provide useful information on accommodation next to the training center. Course schedule: The training usually runs from 9 to 17, with a lunch break from 13 to 14:30. Optionally, a short coffee, soft drink or snack break will take place. These times are illustrative and may be agreed with the attendees. Lunch: It will be held at a restaurant near the training center and will be paid by the organization. Didactics employed: During the training, there are alternate theory and practical periods, so that attendees acquire the skills needed for the correct use of the software. Course material: Each attendee is given course materials in paper format at the beginning of the course, and a USB flash drive with different course materials at the end of the course. It is recommended one PC per 2 trainees. IMPORTANT: Attendees should bring their laptop with the software pre-installed and configured. Monitoring and evaluation of the course: During the training, attendees will sign as attendance sheet to confirm their attendance, and a satisfaction survey of the training will be delivered. At the end of the training, a certificate of attendance will be given.

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HOW TO ARRIVE: By car:

Motorway number CV-35. Take exit number 9AB. Follow indications “Parc Tecnològic”.

By train:

The Valencia Railway Station has daily trains to Madrid, Barcelona, Bilbao, Seville and Zaragoza, among others. Our facilities are about 20 minutes by car.

By plane:

Valencia Airport in Manises connects Valencia with a wide number of cities around the world. The airlines operating at the airport offer direct flights with Barcelona, Bilbao, Lisbon, London, Madrid, Malaga, Milan, Murcia, Palma de Mallorca, Paris, Seville or Zurich, among others. Our facilities are about 10 minutes by car.

By public transport:

The website of the company Edetania Bus: www.edetania.com has all the information about the services of public transport line 130 (Empalme - Parque Tecnológico) and Line 131 (Gran Via - Mas Camarena).

ACCESS MAP:

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Valencia has a wide range of hotels across the city and neighboring villages. But if what you want is to stay close to our facilities, in Parque Tecnológico there are 3 hotels that can be of interest.

Approximate rates per person are: Husa Mas Camarena http://www.hotelmascamarena.com/ (<10 min. by walking): 44

€/night. Hotel Posadas de España http://www.posadasdeespanapaterna.com/ (<15 min. by

walking): 42 €/night (bed and breakfast) or 36 €/night (room only). Aparthotel Wellness http://www.aparthotelwellness.com/ (<10 min. by walking): 35

€/night

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