PCB Design in Cadence OrCAD/Allegro: Basics to Expert level from Udemy

PCB Design and electronics circuits are basements for all type of electronics products. PCBs are derived from the analog and digital circuits which are prepared according to the application required. Printed circuit boards are the main pillars of the Electronics world. Every Electronics products has PCB inside it, from consumer gadgets like computers, smart phones and gaming consoles to industry and even high-tech products.

"Welcome to our comprehensive online PCB Design course, a journey that will take you from the basics to an expert level in PCB design using the powerful Cadence suite of tools - OrCAD and Allegro. This course is designed to equip you with the knowledge and skills needed to create professional-grade Printed Circuit Boards (PCBs).The demand for PCB (Printed Circuit Board) design services in the market has been steadily increasing due to several factors:

Electronics Industry Growth: The proliferation of electronics in various sectors such as consumer electronics, automotive, aerospace, healthcare, and IoT has led to an increased demand for PCBs.
Miniaturization: As electronic devices become smaller and more compact, the need for intricate PCB designs to accommodate complex circuitry within limited space has risen.
Technology Advancements: Advancements in technology, such as the Internet of Things (IoT), 5G connectivity, and wearable devices, require innovative PCB designs to support their functionalities.
Rapid Prototyping: The trend towards rapid prototyping and shortening product development cycles necessitates efficient PCB design services to quickly iterate and test new designs.
Customization: Industries increasingly require customized PCBs tailored to their specific needs, which drives demand for PCB design services capable of delivering bespoke solutions.
Outsourcing Trends: Many companies prefer to outsource their PCB design requirements to specialized service providers to leverage expertise, reduce costs, and accelerate time-to-market.
Green Initiatives: There's a growing emphasis on environmentally friendly PCB designs, leading to demand for designers who can develop energy-efficient and recyclable PCBs.

Why Choose Our PCB Design Course?

Our course is the ultimate choice for individuals who are passionate about PCB design or wish to establish a career in this field. Here's what sets us apart:

In-Depth PCB Design Knowledge: We provide a deep and thorough understanding of PCB design principles, covering everything from the fundamental concepts to advanced techniques.
Comprehensive Tool Training: Gain mastery over the industry-standard OrCAD and Allegro tools by Cadence. Learn how to create schematics using OrCAD Capture, design footprints with Package Editor, and craft intricate board layouts with PCB Editor.
Online Education, Your Way: Experience the convenience of online learning. Our course is designed to be flexible, allowing you to learn at your own pace, at any time and from anywhere in the world.
Best-in-Class Instruction: Learn from experienced instructors with extensive expertise in PCB design. Benefit from their real-world industry insights and best practices.
Practical Projects: Apply your newly acquired knowledge to real-world projects, ensuring you develop the practical skills needed to excel in the industry.

Course Highlights:

PCB Design Fundamentals: Start with the basics of PCB design, including understanding components, schematics, and layout principles.
OrCAD Overview: Dive into OrCAD's capabilities through OrCAD Capture, and learn to create comprehensive schematics for your PCB projects.
Allegro Mastery: Transition to Allegro, delving into advanced features for complex PCB layouts, and create footprints with ease using Package Editor.
Professional-Grade Design: Progress to creating intricate PCB layouts with precision, while learning how to troubleshoot and optimize your designs for peak performance.
Hands-On Practice: Our course includes practical projects and exercises that reinforce your learning. This practical experience ensures you can confidently tackle real-world PCB design challenges.
Expert Guidance: Access guidance and support from our experienced instructors who are dedicated to your success.

Why PCB Design Matters:

PCB design is at the heart of the modern electronics industry. As technology advances, the demand for skilled PCB designers who can create efficient and compact circuit boards continues to grow. This course will empower you to meet this demand.

Start Your Journey Today:

Join us on your path to becoming a PCB design expert. This course equips you with the knowledge, tools, and hands-on experience to stand out in the field. Whether you aspire to work for top electronics companies, launch your PCB design business, or embark on a personal project, this course is your essential stepping stone.

Enroll Now:

Don't miss the opportunity to access the best PCB design education available online. Enroll now and take the first step toward mastering PCB design with OrCAD, Allegro, and Cadence. Your path to expertise in PCB design begins here. "

Required eligibility:

Diploma in Electrical or Electronics & Communication.
BE/BTech. in Electrical or Electronics & Communication.
BSc/MSc in Electronics & Communication.
ME/MTech. (E&CE) in Communication.

PCB Design Course Content is given below in brief:

Schematic Design:

Basic Electronics theory.
Basics of Circuit designing.
Schematic design preparation.
Schematic part editing and creation.
Net list and Net class creation.
Bill Of Material generation (BOM).
Electrical Rule Checking.

Footprint Creation:

Through hole footprint creation.
Surface Mount Device footprint creation.
BGA/PGA footprint creation.

Board Designing:

Board size and shape creation.
Component placements.
PCB Routing.
Plane creation.
Design rule checking.
Gerber generation.

Skills you gain after the course completion:

Basic Electronics and Electronic components expertise.
Circuit Designing (Power management circuit designing)
Circuit Simulation for best understanding of the subject.
Tools/Software Expertise.
Basic design module practice up to 2-Layers.
Advanced design module practice up to 6-Layers.
Design expertise:
- Assignments consists single and double sided PCB.
- Assignments consists 2-Layers, 4-Layers and 6-Layers design.

Library Module:
- Symbol and Footprint design for all types of packages.

Normal Placements & critical placement techniques
Normal Routing and Critical Routing techniques.
Gerber Creation.

Benefits of choosing PCB Design Course:

Strong hold in basic electronics.
Circuit Design capability.
Circuit analysis & ERC.
Components knowledge.
Power Supply designing.
PCB-CAD tool expertise.
Expert in library creation.
Multi-layer PCB designing.
Gerber Creation.

What's inside

Learning objectives

You will learn basic electronics theory, circuit design and analysis, basics of printed circuit board, electronic components and instruments. study notes given.
You will work on printed circuit board layout design such as schematic creation, library creation: electronic symbol and package (footprint creation) designing.
Switching schematic to board design (netlist creation), thorough knowledge on constraint management settings, board shape creation (dxf import included) & drc.
Work on single sided board design, double sided board design, via creation and application. routing on top and bottom layer includes enough practice modules.

Plan creation of power and ground. also split plan creation. design rule checking and drc updates. work on artwork. setting up all required film layer setups.
Gerber generation and gerber analysis and improvements. pcb manufacturing overview. latest topics will be updated on regular basis and will be informed about it
Show more
Show less

You will learn basic electronics theory, circuit design and analysis, basics of printed circuit board, electronic components and instruments. study notes given.
You will work on printed circuit board layout design such as schematic creation, library creation: electronic symbol and package (footprint creation) designing.
Switching schematic to board design (netlist creation), thorough knowledge on constraint management settings, board shape creation (dxf import included) & drc.
Work on single sided board design, double sided board design, via creation and application. routing on top and bottom layer includes enough practice modules.
Plan creation of power and ground. also split plan creation. design rule checking and drc updates. work on artwork. setting up all required film layer setups.
Gerber generation and gerber analysis and improvements. pcb manufacturing overview. latest topics will be updated on regular basis and will be informed about it
Show more
Show less

Syllabus

Course Introduction

This is course promotional video. Just like a teaser of any movie. :) :) :)

In this video, you will come to know that what are all the topics will be covered in the course. Just like an Index of a any textbook.

Will be guided on how to register and login.

Will be guided on how to download the PCB Design (Free Trail Tool).

In this video you will learn how to install the tool.

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Provides hands-on experience with OrCAD and Allegro, which are industry-standard tools for PCB design and are widely used in the electronics industry

Covers schematic design, footprint creation, and board designing, which are essential skills for PCB design and are highly sought after in the electronics industry

Includes practice modules for 2-layer, 4-layer, and 6-layer designs, which allows learners to develop expertise in multi-layer PCB design and tackle real-world challenges

Requires a diploma or degree in Electrical, Electronics & Communication, or a related field, which may limit accessibility for individuals without formal qualifications

Teaches OrCAD and Allegro, which are proprietary software tools that require a license, and learners may need to purchase a license to use the software beyond the trial period

Reviews summary

Comprehensive cadence orcad/allegro pcb design

According to learners, this course offers a comprehensive journey into PCB design using industry-standard Cadence tools (OrCAD and Allegro). Students report it provides a solid foundation, covering topics from basic schematic creation to complex multi-layer board layouts and Gerber generation. Many find the step-by-step explanations and practical projects particularly helpful for gaining hands-on experience. While some reviewers mention occasional difficulties with software installation or seeking additional support, the overall sentiment is highly positive, with many recommending it as a valuable resource for those pursuing a career in PCB design.

Instructions are generally easy to follow.

"The instructor explains concepts in a very clear and understandable way."

"I found the step-by-step demonstrations easy to replicate."

"Complex topics were broken down into manageable parts."

"His teaching style made learning the software intuitive."

Emphasis on practical application and projects.

"The exercises and projects helped me practice what I learned right away."

"Doing the designs step-by-step reinforced my understanding."

"I appreciated the focus on real-world application with the tools."

"The practical assignments were the most useful part for me."

Offers a deep dive into PCB design tools.

"This course gives a really good overview of the entire PCB design process using OrCAD and Allegro."

"I learned everything from schematic capture to final Gerber file generation."

"It covers basics up to quite advanced topics, a complete path for learning."

"The breadth of topics covered is impressive for one course."

Mastering Cadence OrCAD/Allegro tools.

"The course is excellent for learning OrCAD Capture and Allegro PCB Editor."

"I feel confident using Cadence tools after this training."

"It breaks down the complexities of the software very well."

"The instructions for using specific features were clear and precise."

Users report difficulties with tool setup.

"Getting the Cadence software installed and licensed was a bit tricky to figure out."

"I had some trouble with the initial setup of the tools mentioned in the course."

"The installation part could be a bit clearer for beginners."

"Needed to troubleshoot software issues outside of the course material."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in PCB Design in Cadence OrCAD/Allegro: Basics to Expert level with these activities:

Review Basic Electronics Theory

Show steps

Reinforce your understanding of fundamental electronics concepts. A solid grasp of these principles is crucial for successful PCB design.

Browse courses on Electronics Fundamentals

Show steps

Review key concepts like voltage, current, resistance, and Ohm's Law.
Practice solving simple circuit problems.
Familiarize yourself with common electronic components.

Read 'Printed Circuit Board Designer's Reference: Basics'

Show steps

Gain a deeper understanding of PCB design principles. This book provides a solid foundation for the course material.

View Printed Circuit Board Designer's Reference on Amazon

Show steps

Obtain a copy of the book.
Read the chapters covering PCB fundamentals and design rules.
Take notes on key concepts and definitions.

Practice Schematic Capture in OrCAD Capture

Show steps

Improve your proficiency with OrCAD Capture. Repeated practice will enhance your speed and accuracy in creating schematics.

Show steps

Download and install OrCAD Capture (if not already done).
Create schematics for simple circuits from textbooks or online resources.
Focus on accuracy and efficiency in component placement and wiring.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Create a PCB Design Glossary

Show steps

Solidify your understanding of PCB terminology. Defining key terms will improve your comprehension of the course material.

Show steps

Compile a list of important PCB design terms from the course materials.
Research and write clear, concise definitions for each term.
Organize the glossary alphabetically for easy reference.

Design a Simple LED Driver Circuit PCB

Show steps

Apply your knowledge to a practical PCB design project. This hands-on experience will reinforce your skills and understanding.

Show steps

Choose an LED driver circuit design.
Create the schematic in OrCAD Capture.
Design the PCB layout in Allegro.
Generate Gerber files for manufacturing.

Read 'High-Speed Digital Design: A Handbook of Black Magic'

Show steps

Explore advanced topics in high-speed PCB design. This book provides insights into signal integrity and other critical considerations.

View High-speed Signal Propagation on Amazon

Show steps

Obtain a copy of the book.
Focus on chapters related to signal integrity and power distribution.
Relate the concepts to your PCB design projects.

Prepare a PCB Design Portfolio

Show steps

Showcase your PCB design skills to potential employers. A well-crafted portfolio demonstrates your expertise and experience.

Show steps

Select your best PCB design projects from the course.
Prepare documentation for each project, including schematics, layouts, and Gerber files.
Write a brief description of each project, highlighting your design decisions and challenges.
Compile the projects into a professional-looking portfolio.

Career center

Learners who complete PCB Design in Cadence OrCAD/Allegro: Basics to Expert level will develop knowledge and skills that may be useful to these careers:

Printed Circuit Board Designer

A Printed Circuit Board Designer creates the physical layouts for electronic circuits. This course equips you with skills in PCB design principles, including understanding components, schematics, and layout, which are essential for this role. By mastering industry-standard tools like OrCAD and Allegro, you gain the ability to create professional-grade PCBs. The course's focus on hands-on projects and real-world applications helps you to confidently tackle PCB design challenges, making you a strong candidate for a career as a Printed Circuit Board Designer. The course's focus on schematic design, footprint creation, and board designing may be especially helpful.

See salaries and explore the career path for Printed Circuit Board Designer

Electronics Engineer

An Electronics Engineer designs, develops, and tests electronic components, products, and systems. This course helps build a foundation in PCB design, a critical aspect of electronics engineering. The course's learning objectives in schematic creation, library creation, and printed circuit board layout design directly applies to this role. Electronics Engineers benefit from the course's in-depth knowledge of PCB design principles and the practical experience gained through hands-on projects. The course's coverage of OrCAD and Allegro also helps develop expertise in industry-standard tools, essential for success as an Electronics Engineer.

See salaries and explore the career path for Electronics Engineer

Embedded Systems Engineer

An Embedded Systems Engineer designs, develops, and tests embedded systems, which are computer systems with a dedicated function within a larger mechanical or electrical system. This course's instruction in PCB design matters significantly, given the central role of PCBs in embedded systems. The syllabus, with its coverage of schematic creation, library creation, and routing, is directly relevant. Embedded Systems Engineers will appreciate the focus on OrCAD and Allegro, as they design efficient and compact circuit boards, making them effective Embedded Systems Engineers. The course's curriculum of Symbol and Footprint design may be particularly helpful.

See salaries and explore the career path for Embedded Systems Engineer

CAD Designer

A CAD Designer uses computer-aided design software to create technical drawings and blueprints. This course helps master OrCAD and Allegro by Cadence, core CAD tools for PCB design. CAD Designers use these skills to create intricate board layouts and professional-grade PCBs. The course’s practical projects and hands-on experience ensures a smooth transition to real-world design challenges. The course's focus on topics like schematic design preparation, schematic part editing and creation, and electrical rule checking can be especially helpful for CAD Designers.

See salaries and explore the career path for CAD Designer

Computer Hardware Engineer

A Computer Hardware Engineer researches, designs, develops, and tests computer systems and components. This course may be useful, because it emphasizes PCB design, crucial for computer hardware. The course covers PCB design principles from fundamental concepts to advanced techniques. Computer Hardware Engineers use skills like schematic creation, component placement, and PCB routing, all covered in depth. Mastering OrCAD and Allegro in this course allows someone to create intricate computer hardware layouts with precision, helping one excel as a Computer Hardware Engineer. The course's instruction on troubleshooting and optimizing designs is especially pertinent.

See salaries and explore the career path for Computer Hardware Engineer

Electrical Engineer

An Electrical Engineer designs, develops, tests, and supervises the manufacturing of electrical equipment. This course may be useful, because it helps build expertise in PCB design, a foundational element of electrical engineering. Skills acquired in PCB design, schematic creation, and board designing are directly applicable. Electrical Engineers benefit from the in-depth understanding of PCB design principles. The course's practical projects and hands-on experience allow one to confidently tackle real-world electrical engineering challenges. The course's coverage of subjects like schematic part editing and creation as well as net list and net class creation may be especially helpful.

See salaries and explore the career path for Electrical Engineer

Product Development Engineer

A Product Development Engineer oversees the design and development of new products from concept to launch. This course helps build a foundation in PCB design, a component of many electronics products. Product Development Engineers will find the course's coverage of best practices valuable, allowing them to make informed decisions about PCB design and manufacturing. The course's lessons on hands-on practice may be particularly helpful, allowing them to confidently tackle real-world product development challenges. Product Development Engineers may also find the instruction on Bill of Material generation to be essential.

See salaries and explore the career path for Product Development Engineer

Applications Engineer

An Applications Engineer provides technical support and expertise to customers using a company's products. This course helps to understand PCB design, enabling one to better assist customers using products with PCBs. Applications Engineers with a PCB design background can troubleshoot issues, explain design choices, and create custom solutions. The course also covers design optimization and troubleshooting, making it an asset for Applications Engineers. The course's lessons on topics like components knowledge and power supply designing may be especially helpful.

See salaries and explore the career path for Applications Engineer

Test Engineer

A Test Engineer develops and implements testing strategies and procedures for electronic products and systems. This course may be useful, because a solid understanding of PCB design can enhance effectiveness in identifying potential issues and developing appropriate test methodologies. Test Engineers will appreciate the instruction of design rule checking and optimization, because it helps ensure thorough testing of designs for peak performance. The course's coverage of Gerber analysis and improvements may be particularly helpful, ensuring that Test Engineers can assess the manufacturability of the board.

See salaries and explore the career path for Test Engineer

Hardware Validation Engineer

A Hardware Validation Engineer tests and validates hardware designs to ensure they meet specifications and quality standards. This course may be useful, because it covers PCB design, which is valuable for understanding and validating hardware systems. Hardware Validation Engineers will appreciate the focus on design rule checking and troubleshooting. By learning how to optimize designs for peak performance, Hardware Validation Engineers who take this course can improve the quality and reliability of the products they test. The course's lessons on Gerber generation and analysis may be especially helpful.

See salaries and explore the career path for Hardware Validation Engineer

Firmware Engineer

A Firmware Engineer develops the software embedded in hardware devices. This course may be useful because an understanding of PCB design principles helps with the interaction between firmware and hardware. Firmware Engineers with a foundation in PCB design can optimize code for specific hardware configurations. The course is also valuable because of its content in schematic and board layouts, because these understandings can lead Firmware Engineers to be more effective. The course's units on assignments consisting of 2-layer, 4-layer, and 6-layer designs may be especially pertinent.

See salaries and explore the career path for Firmware Engineer

Technical Writer

A Technical Writer creates documentation for technical products. This course may be useful, because technical writing about electronic products benefits from an understanding of PCB design. Technical Writers understand the design process and clearly explain technical aspects to users. The course's hands-on design examples and industry-standard tools help with understanding. Technical Writers may find the instruction multi-layer PCB designing to be especially pertinent. Technical writing can cover a wide range of content, and courses such as this one can promote expertise.

See salaries and explore the career path for Technical Writer

Technical Sales Engineer

A Technical Sales Engineer sells complex technical products and services. This course may be useful, as a strong foundation in PCB design helps a Technical Sales Engineer communicate the value and technical specifications of products. Technical Sales Engineers understand the design process. With knowledge about material selection, this course helps create detailed and persuasive sales pitches. The course's coverage of electronic components may be very helpful. Having greater breadth of knowledge about the PCB design process can also greatly aid in client communication.

See salaries and explore the career path for Technical Sales Engineer

Project Manager

A Project Manager plans, executes, and closes projects, ensuring they are completed on time and within budget. This course may be useful, as project management for electronic product development benefits from a strong understanding of PCB design. Project Managers who understand the PCB design process can create realistic timelines, allocate resources effectively, and communicate with engineering teams. They can find the course's coverage of design rule checking and manufacturability very helpful. This helps ensure that projects are completed efficiently and successfully.

See salaries and explore the career path for Project Manager

Quality Assurance Engineer

A Quality Assurance Engineer ensures that products meet quality standards. This course may be useful , because a solid understanding of PCB design helps evaluate the quality and reliability of electronic products. Quality Assurance Engineers with a PCB design background can identify potential design flaws and assess manufacturability. The course also covers design optimization and troubleshooting, beneficial for Quality Assurance Engineers. They may find the course's instruction on Gerber generation and analysis particularly helpful, because it ensures products are reliable and meet expectations.

See salaries and explore the career path for Quality Assurance Engineer

PCB Design in Cadence OrCAD/Allegro

Basics to Expert level

What's inside

Learning objectives

Syllabus

Traffic lights

Save this course

Reviews summary

Comprehensive cadence orcad/allegro pcb design

Activities

Career center

Reading list

Share

Similar courses