IED - Istituto Europeo di Design Spa

Postgraduate Course in Interaction and Electronics Design

IED - Istituto Europeo di Design Spa
Blended learning in Madrid (Spain)
  • IED - Istituto Europeo di Design Spa


Wichtige informationen

Tipologie Postgraduate
Methodologie Blended
Ort Madrid (Spain)
Dauer 4 Months
Beginn Februar
Präsenzprüfung Ja
  • Postgraduate
  • Blended
  • Madrid (Spain)
  • Dauer:
    4 Months
  • Beginn:
  • Präsenzprüfung

Ready for a change in your careear? Check out the postgraduate course in Interaction and Electronics Design organized by the prestigious IED school that has added to its catalogue.

You will learn it all about the specific programming for equip designs that have mechanical behaviour and interaction with the environment.

Contact IED school through Emagister and receive all the information to take a step further in your career as an electronic programmer!

Wichtige informationen
Welche Ziele verfolgt der Kurs?

Develop your creativity and ability to solve design problems while providing specific solutions to real manufacturing problems.
Delve into the development of connected designs (IoT and Wearables).
Give your projects the ability to interact and respond to the environment surrounding them.
Understand and control the differences between Idea, Project and Product, understanding the implications involved in moving from one to the other.
Obtain a roadmap of the numerous processes in technological development that are currently arising and the guidelines for incorporating them into projects.

Ist dieser Kurs für mich?

Graduates or holders of diplomas in the fields of art, design, architecture, etc.

Voraussetzungen: Currículum vitae / Motivation Letter Project Portfolio (max 3Mb) / Web Personal interview as deemed necessary by the Academic Coordination Team

Einrichtungen (1)
Wo und wann
Beginn Lage
C/ Flor Alta 8, 28004, Madrid, Spain
Karte ansehen
Beginn Februar
C/ Flor Alta 8, 28004, Madrid, Spain
Karte ansehen

Was lernen Sie in diesem Kurs?

Project Control
Electronic Engineering
Project Management
Communication Training
Electric Vehicle Technology
Graphic design
Product manager
Graphic Designer
Digital Art
Digital Branding


MODULE 1 Electronics Design Learn about the physical properties of electronics, to design and manufacture your own circuits using digital manufacturing, milling plates and welding the components . – Electrical signals – Current and voltage – Electronic components and their function (from resistors and capacitors to ICs and MCUs) – Electronic circuits – CAD design systems for Printed Circuit Boards (PCB) – Manufacturing and testing of PCBs – Workshop: application of electronics in wearables (e-textiles)

MODULE 2 Programming and Communication Understand programming languages (primarily Arduino, among others) with which to programme the circuits that you need to develop or existing prototyping plates, so that they are able to manage information (from sensors, databases, etc.) and convert it into specific actions (with actuators, engines, etc.). – Arduino IDE – Digital and analog inputs and outputs – Time management – Using libraries – Use of motors, displays, capacitive sensors, etc. – Communication (serial and wireless) – Firefly (Arduino-Grasshopper link) – Programming with Raspberry Pi – Wearables – Internet of Things (IoT) and home automation – Workshop: wearables

MODULE 3 Robotics and Mechanical Design Application for design and the development of machines and gadgets that combine the mechanical design of hardware with programming to perform specific tasks. This module aims, as an introduction, to present a broad spectrum of advanced application of the concepts studied during the master, for the creation of complex behaviors. – Types of microcomputers and programmable shields – Mechanical design – Machines that Make (MTM) – Workshop: building a machine that does something

MODULE 4 Digital Arts and Interaction Take advantage of the tools offered by digital manufacturing in combination with new tools focused on innovation and experimentation in the field of creativity, using digital means. The student will be situated in the new paradigm of digital art. – Visual / graphic programming. Processing. OpenFrameworks, Max MSP, etc. – Communication protocols. Serial, OSC, etc. – Real-time video and mapping – Physical Computing. Sensors and actuators – Workshop: Interaction and manufacturing