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3 - EEE - Electrical & Electronics Engineering


EEE 140 - Printed Circuit Board (PCB) Design, Implementation and Troubleshooting Techniques

Code Start Date Duration Venue Fees
EEE 140 20 May 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 15 July 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 12 August 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 09 September 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 07 October 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 04 November 2018 5 Days Istanbul $ 2950 Registration Form Link
EEE 140 02 December 2018 5 Days Istanbul $ 2950 Registration Form Link

 

Course Description

This course covers the design of printed circuit boards using ORCAD Software package, and will provide participants with an insightful training on PCB design from practical and industrial perspective. Moreover it will show them how to design boards more effectively and produce professional results. It provides tips and tricks to help in designing motherboards, processors and microcontroller boards which work for the first time. This course contains the required information needed to understand where to place components, SMD, and Through-hole technologies as well as manufacture specifications and requirements, circuit routing, schematics and design testing.  By the end of the course, participants will learn how to create professional manufacturing output files for their boards.

Course Objectives

  • Exploring printed circuit board uses and components
  • Introducing OrCAD Capture
  • Creating useful folder structure, importing reference schematic, collecting and sorting documents
  • Drawing schematics and conventions
  • Creating readable schematics easily 

 

Who Should Attend?

  • Electrical engineers
  • Production engineers
  • Designers of electronic systems
  • Circuits and PCB designers
  • Mechanical engineers interested in an electronics product development

Course Details/Schedule

Day 1

  • Introduction to the PCB
  • Purposes of a PCB
  • Examples
  • Typical Development Flow for a PCB
  • Basic Electronic Components: Resistors, Capacitors, Inductors, Diodes, Transistors, Relays, and Connectors
  • PCB Materials
  • Introduction to OrCAD Capture
  • Introduction to setting up a design project
  • How to identify the components used in a design

Day 2

  • Starting a new project in capture
  • Schematics design 
  • Pspice simulation example in capture
  • Generation net-list and BOMs files
  • Introduction to OrCAD layout
  • Starting a new project in Layout (importing from capture)

Day 3

  • Creating library in layout
  • PCB Layout Placement (How to do layout; how to do placement; tips and tricks)
  • Setting up design rules for the project
  • PCB track width determination
  • Manual routing for single layer board
  • Tips in manual routing

Day 4

  • SMD device in PCB designing
  • Manual routing for double layer
  • Auto routing for double layer
  • Auto  routing for Multi-layer
  • Design rule setting and manufacturing requirements
  • LPKF technique

Day 5

  • Soldering –desoldering technique.
  • Generating Output documentation
  • How to add important information for manufacturers?
  • How to generate professional documentation?
  • Assembly drawings
  • Gerber files
  • Gerber file generation
  • Drill file generation
  • Assembly file generation
  • BOM file generation