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Syllabus 2016-17 - 13113015 - Electronic technology and development of electronic prototypes (Tecnología electrónica y desarrollo de prototipos electrónicos)

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  • Level 1: Tutorial support sessions, materials and exams in this language
  • Level 2: Tutorial support sessions, materials, exams and seminars in this language
  • Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: Grado en Ingeniería electrónica industrial
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
ACADEMIC YEAR: 2016-17
COURSE: Electronic technology and development of electronic prototypes
SYLLABUS
1. COURSE BASIC INFORMATION
NAME: Electronic technology and development of electronic prototypes
CODE: 13113015 ACADEMIC YEAR: 2016-17
LANGUAGE: English LEVEL: 2
ECTS CREDITS: 6.0 YEAR: 4 SEMESTER: SC
2. LECTURER BASIC INFORMATION
NAME: NIETO NIETO, LUIS MIGUEL
DEPARTMENT: U133 - ING. ELECTRÓNICA Y AUTOMATICA
FIELD OF STUDY: 785 - TECNOLOGÍA ELECTRÓNICA
OFFICE NO.: A3 - 413 E-MAIL: lmnieto2@ujaen.es P: 953212811
WEBSITE: http:\\www4.ujaen.es\~lmnieto2
ORCID: https://orcid.org/0000-0001-8013-9528
LANGUAGE: - LEVEL: 2
3. CONTENT DESCRIPTION

  1. Introduction to the development of electronic prototypes.
    1. Evolution of electronic technology and microelectronics.
    2. Cycle design of electronic components.
    3. Design for EMC, testability and manufacturing.
    4. Standards and related certification
  2. Simulation and Design Prototyping
    1. Organization of the design project.
    2. Analog and digital simulation. Techniques curve analysis results.
    3. Preparation of hierarchical simulations and functional simulations.
    4. Adjusting device models. Model simulations of manufacturers.
    5. Simulations with tolerances and temperature effects.
  3. Electronic components.
    1. Electronic components THD and SMD: manufacturing technologies and package identification.
    2. Printed circuit boards. Technologies and types.
    3. Auxiliary components.
    4. Selection of components manufacturers and processing order forms.
  4. Design of PCBs.
    1. Types of PCB. Geometric constraints. Selecting and editing footprints.
    2. Design Rules: layout, component placement, power distribution. Protection and prevention of phenomena of electromagnetic interference (EMI).
    3. CAD Tools. Web design assistants.
    4. Generation of files for development and manufacturing.
  5. Signal integrity and electromagnetic compatibility.
    1. Electromagnetic Interference: Sources of noise and problems arising.
    2. Decoupling techniques and signal integrity. Routing signals and adaptation of lines.
    3. Ground planes, decoupling capacitors and shielding.
    4. Distribution of power supply and ground in mixed circuits (digital, analog, power).
    5. ESD protection.
  6. PCB Manufacturing technologies.
    1. Manufacture of multilayer PCBs.
    2. Assembly of THD and SMD circuits.
    3. Systems for inspection and test of circuits.
    4. Standards and directives RoHS and WEEE.

4. COURSE DESCRIPTION AND TEACHING METHODOLOGY

The classes will be exposed in the classroom using slides, video, etc. and will include support illustrative examples. Then students can ask questions and suggestions to improve any aspect mentioned in the example. Finally application exercises will be conducted using laboratory instruments and software related to the subject. The active participation and creativity of students will be encouraged at conferences

The seminars will be included to address specific issues of both the management of design and development tools, presentation of special contents or English for foreign language students.

Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support

5. ASSESSMENT METHODOLOGY

General requirements to pass the course:

  • Mandatory class attendance (except justified cases).
  • Realization of the proposed exercises.
  • Elaboration and presentation of a long-term work.
  • It is taken into account: the quality and presentation of the exercises.
  • And the involvement of students in the subject.

 

Details:

  1. Attendance and active participation in lectures . This point will represent  the 15% of the final mark.
  2. Exercises resolution in class. The problems will have to be solved and checked by the professor. This point will represent the 35% of the final mark.
  3. Labs with final report. This point will represent the 50% of the final mark.
  4. The presentation is an optional classwork, over one hour of speech about a topic proposed by the professor.
  5. Written exam, if final mark is not enough.

6. BOOKLIST
MAIN BOOKLIST:
  • Desarrollo y construcción de prototipos electrónicos [Recurso electrónico] : tutoriales OrCAD 10 Y L. Edition: -. Author: Bueno Martín, Ángel. Publisher: [Barcelona] : Marcombo, 2005.  (Library)
  • ESD Design for Analog Circuits [Recurso electrónico]. Edition: -. Author: Vashchenko, Vladislav A.. Publisher: Boston, MA : Springer Science+Business Media, LLC , 2010.  (Library)
  • Complete PCB design using OrCAD Capture and PCB editor [Recurso electrónico]. Edition: -. Author: Mitzner, Kraig. Publisher: Amsterdam ; Boston : Newnes Elsevier, c2009.  (Library)
  • Complete PCB design using OrCad capture and layout [Recurso electrónico]. Edition: -. Author: Mitzner, Kraig. Publisher: Amsterdam ; Boston : Elsevier Newnes, c2007.  (Library)
  • EMC for product designers [Recurso electrónico]. Edition: 4th ed.. Author: Williams, Tim, 1954-. Publisher: Oxford : Newnes, 2007.  (Library)
ADDITIONAL BOOKLIST:
  • ESD basics [Recurso electrónico] : from semiconductor manufacturing to use. Edition: -. Author: Voldman, Steven H. Publisher: Chichester, West Sussex : Wiley, 2012  (Library)
  • Semiconductor manufacturing handbook [Recurso electrónico]. Edition: -. Author: -. Publisher: New York : McGraw-Hill, c2005.  (Library)