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Introduction to PCB Design Course Overview

Introduction to PCB Design Course Overview

Introduction to PCB Design is an essential course for anyone aiming to dive into the world of electronics. This course covers the foundational principles of Printed Circuit Board (PCB) design, equipping students with the skills to create their own PCB layouts.

Learning objectives include understanding PCB design software, grasping electrical schematics, and mastering design rules to ensure safety and functionality. Students will gain practical experience by working on real-world projects, enhancing their ability to design, prototype, and troubleshoot PCBs effectively.

By the end of this course, participants will be well-prepared to enter the electronics industry or advance their current careers, applying industry-relevant skills and knowledge in various applications.

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4.4/5 Ratings

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1,450

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Course Fee 1,450
Total Fees
 1,450 (USD)
  • Live Training (Duration : 32 Hours)
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Target Audience for Introduction to PCB Design

The Introduction to PCB Design course equips learners with essential skills in designing printed circuit boards, making it ideal for aspiring engineers and tech enthusiasts seeking a foundation in electronics.


  • Electronics Engineers
  • Electrical Engineering Students
  • PCB Designers
  • Product Development Engineers
  • Hardware Engineers
  • Amateur Electronics Hobbyists
  • Design Engineers
  • Technical Architects
  • Manufacturing and Production Technicians
  • Embedded Systems Developers


Learning Objectives - What you will Learn in this Introduction to PCB Design?

Introduction to the Course’s Learning Outcomes:

The Introduction to PCB Design course equips students with fundamental skills in designing printed circuit boards (PCBs), focusing on essential concepts, tools, and techniques vital for effective PCB development.

Learning Objectives and Outcomes:

  • Understand the fundamentals of PCB design and its importance in electronics.
  • Identify and explain different PCB design tools and software used in the industry.
  • Master schematic capture and PCB layout techniques.
  • Learn best practices for component placement and routing.
  • Comprehend electrical properties and constraints in PCB design.
  • Gain hands-on experience in creating and editing PCB designs.
  • Familiarize with design validation and simulation techniques.
  • Explore techniques for optimizing PCB designs for manufacturability.
  • Understand the documentation and fabrication process for PCBs.
  • Prepare for real-world PCB design challenges effectively.

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