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Course Highlights

  • The PCB Design course provides a comprehensive understanding of Printed Circuit Board (PCB) design and development. Learners explore PCB fundamentals, schematic design, placement, routing, and guidelines for manufacturing. The programme includes advanced designs, KiCad specialisation, and real-time projects such as motor drivers, LED matrix, RF amplifiers, and more.

  • Skill Type

  • Course Duration

  • Domain

  • GOI Incentive applicable

  • Course Category

  • Nasscom Assessment

  • Placement Assistance

  • Certificate Earned

  • Content Alignment Type

  • NOS Details

  • Mode of Delivery

Course Details

Learning Objectives

What will you learn in the PCB Design Course?

  • Understand PCB fundamentals, classes, and technologies
  • Create schematics and perform PCB placement and routing
  • Apply EMI/EMC, SI, and PI guidelines
  • Design advanced circuits like LED matrix, RF amplifiers, and drivers
  • Use KiCad for PCB design and project development
  • Complete real-time PCB design projects
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Reasons to enrol

Why should you take the PCB Design Course?

  • Industry-relevant PCB design skills
  • Hands-on experience with KiCad
  • Exposure to advanced Circuit Designs
  • Real-time project-based learning
  • Certification for career opportunities in electronics
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Ideal Participants

Who should take the PCB Design Course?

  • Electronics and Electrical Engineering students
  • PCB Design enthusiasts
  • Professionals in Electronics and Manufacturing
  • Engineers aiming to upskill in Circuit Design
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Curriculum

Curriculum

Level 1 - PCB Fundamentals and Design Process

  • PCB Types, Classes, Technologies
  • PCB Manufacturing Process
  • Basic Introduction to PCB Design
  • Standards used in PCB
  • Bill of Materials (BOM)
  • Inputs Required to Start a PCB
  • PCB Library Creation
  • Schematic Diagram Creation
  • PCB Placement and Routing
  • Constraint Manager and Layer Stackup
  • EMI/EMC, SI, PI Layout Guidelines
  • DFA, DFM, and DFT (Design for Testing)
  • Post Layout Process
  • Manufacturing and Assembly Files Generation

Level 2 - Advanced PCB Design and KiCad

  • Servo Motor Driver Layout Design
  • Voltage Summing and Subtraction Circuits
  • LED Matrix Interface (8x8)
  • RF Amplifier Design (Two-Stage)
  • 7-Segment Display with Decoder
  • Temperature Measurement with RTD Sensor
  • Optical Receiver Unit Design
  • Voltage Differentiator and Integrator Circuits
  • LED Dimmer Circuit using 555 Timer
  • Specialized KiCad PCB Design Projects

Level 3 - Real-time Projects

  • PCB for Driving a Servo Motor
  • PCB for Voltage Summing and Subtraction Circuits
  • PCB for 7-Segment Display with Microcontroller and Decoder
  • PCB for Temperature Measurement using RTD Sensor
  • PCB for Optical Receiver Unit
  • PCB for Voltage Differentiator and Integrator
  • PCB for LED Dimmer Circuit using 555 Timer
  • PCB for 8x8 LED Matrix
  • PCB for Two-stage RF Amplifier
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skills and tools

Tools you will learn in the PCB Design Course

Skills

  • PCB Fundamentals and Design Flow
  • Schematic and Layout Design
  • EMI/EMC, SI, PI Guidelines
  • KiCad PCB Design
  • Advanced Circuit Designs
  • Real-time PCB Projects

Tools

  • KiCad
  • PCB Design Tools
  • Schematic Capture Tools
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