Cadence Design Systems: Essential Guide from Coursera

The "Cadence Design Systems: Essential Guide" is designed to provide learners with a comprehensive understanding of Cadence Design Systems. The course covers a range of topics, including fundamental concepts, advanced techniques, and practical applications of Cadence software for electronic circuit design. Learners will explore an introduction to Cadence, circuit design principles, signal integrity, power management, and collaborative design projects. This course equips learners with the knowledge and skills needed to excel in electronic design. By mastering Cadence Design Systems, learners can enhance their productivity and efficiency in creating sophisticated electronic circuits. The course offers valuable insights into cutting-edge design practices, making it a must-have for professionals looking to stay ahead in the competitive world of electronic design automation.

This course is ideal for engineers, technologists, and professionals in electronic design and CAD tools, as well as those interested in advancing their skills in circuit design and electronic design automation (EDA). It is also suitable for individuals looking to enhance their knowledge in signal integrity, power management, and collaborative design.

Learners should have a basic understanding of electronic circuits, familiarity with CAD tools like OrCAD or Altium Designer, and a knowledge of EDA basics such as schematic capture and PCB layout. The ability to interpret electronic schematics is also recommended.

By taking this course, learners will be able to use Cadence Design Systems to create and analyze electronic circuits. They will be able to explain fundamental concepts, analyze and optimize circuit designs, address signal integrity and power management issues, and effectively collaborate on design projects. The skills gained from this course will enable learners to tackle complex design challenges and present their design outcomes professionally.

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Syllabus

Cadence Design Systems: Essential Guide

This course provides a comprehensive overview of Cadence software for electronic circuit design. It covers key topics such as circuit design principles, signal integrity, power management, and collaborative projects. The course equips learners with the skills to excel in electronic design, enhancing their efficiency and productivity in creating advanced circuits. By mastering Cadence tools, learners gain valuable insights into modern design practices, making this course essential for professionals in the fast-paced world of electronic design automation.

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Provides a comprehensive overview of Cadence software, which is essential for professionals in the fast-paced world of electronic design automation

Covers key topics such as circuit design principles, signal integrity, and power management, which are crucial for modern electronic design

Requires a basic understanding of electronic circuits and familiarity with CAD tools, suggesting it is designed for those with some prior experience

Enhances efficiency and productivity in creating advanced circuits, which is a valuable skill for professionals in electronic design

Equips learners with skills to tackle complex design challenges and present design outcomes professionally, which are essential for career advancement

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 Cadence Design Systems: Essential Guide with these activities:

Review Electronic Circuit Fundamentals

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Reinforce your understanding of fundamental electronic circuit concepts to better grasp the advanced topics covered in the Cadence Design Systems course.

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Review basic circuit laws (Ohm's Law, Kirchhoff's Laws).
Study fundamental components (resistors, capacitors, inductors).
Practice circuit analysis techniques (nodal analysis, mesh analysis).

Practice Schematic Capture with OrCAD

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Practice schematic capture using OrCAD to build familiarity with a common EDA tool, which will help you transition to Cadence more smoothly.

Browse courses on Schematic Capture

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Download and install the free version of OrCAD.
Follow a tutorial to create a simple circuit schematic.
Simulate the circuit to verify its functionality.

Follow Cadence Tutorials on Signal Integrity

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Deepen your understanding of signal integrity by working through Cadence-specific tutorials, which will provide practical experience with the software.

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Find Cadence tutorials on signal integrity analysis.
Work through the tutorials, paying attention to the setup and analysis steps.
Experiment with different parameters to see their effect on signal integrity.

Four other activities

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Create a Blog Post on Power Management Techniques

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Solidify your knowledge of power management by researching and writing a blog post explaining different techniques and their applications in electronic circuit design.

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Research different power management techniques (e.g., LDOs, DC-DC converters).
Write a blog post explaining the principles and applications of each technique.
Include diagrams and examples to illustrate the concepts.

Design a Simple Amplifier Circuit in Cadence

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Apply your knowledge by designing a simple amplifier circuit using Cadence Design Systems, reinforcing your understanding of circuit design principles.

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Choose an amplifier topology (e.g., common emitter, common collector).
Design the circuit in Cadence, selecting appropriate components.
Simulate the circuit to verify its performance.
Optimize the circuit for desired gain and bandwidth.

High-Speed Digital Design: A Handbook of Black Magic

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Supplement your learning with a book that provides practical insights into high-speed digital design, a critical aspect of modern electronic circuit design.

View High-speed Signal Propagation on Amazon

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Read the chapters on signal integrity and power distribution.
Apply the techniques discussed in the book to your Cadence designs.

Electromagnetic Compatibility Engineering

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Enhance your understanding of EMC considerations by studying a book that focuses on electromagnetic compatibility engineering.

View Electromagnetic Compatibility Engineering on Amazon

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Read the chapters on grounding and shielding techniques.
Consider EMC issues in your Cadence designs.

Career center

Learners who complete Cadence Design Systems: Essential Guide will develop knowledge and skills that may be useful to these careers:

Circuit Design Engineer

A Circuit Design Engineer focuses on the design and testing of electronic circuits. They use specialized software tools to create, analyze, and optimize circuits. This course provides a strong foundation in using Cadence Design Systems, a core software in circuit design. The course’s coverage of topics such as signal integrity and power management directly supports the work of a Circuit Design Engineer. With this course, a circuit design engineer can master advanced techniques and boost productivity in creating complex circuits. Gaining proficiency in Cadence will enable a designer to tackle complex challenges.

See salaries and explore the career path for Circuit Design Engineer

Electronic Systems Designer

An Electronic Systems Designer creates complex electronic systems, integrating various components and technologies. The work includes circuit design and simulation. This course will be particularly helpful as it explores Cadence Design Systems. The course covers topics instrumental to this role such as circuit design principles, signal integrity, and power management. By taking this course, an Electronic Systems Designer will produce higher quality, more efficient designs. Mastering Cadence is important to stay competitive in the field.

See salaries and explore the career path for Electronic Systems Designer

Electronics Design Engineer

An Electronics Design Engineer is responsible for designing electronic circuits and systems, often using computer aided design tools. This course provides a comprehensive overview of Cadence software, a vital tool in the design process. The course's focus on circuit design principles, signal integrity, and power management directly contributes to the skills utilized in this role. An Electronics Design Engineer will greatly benefit from learning how to use Cadence to create and analyze circuits more efficiently. The collaborative project aspect of the course may be useful for those who work in a group setting.

See salaries and explore the career path for Electronics Design Engineer

CAD Engineer

A CAD Engineer uses computer-aided design software to create technical drawings and models. In the electronics field, they are experts in software like Cadence Design Systems. This course offers an essential overview of Cadence and how it is used for electronic circuit design. A CAD Engineer will find the emphasis on electronic concepts, such as signal integrity and power management, quite helpful. By learning Cadence, a CAD Engineer will enhance their ability to develop sophisticated circuit designs. The course provides valuable insights into modern design practices.

See salaries and explore the career path for CAD Engineer

Electrical Engineer

An Electrical Engineer designs, develops, and tests electrical devices and systems. They use simulation software to analyze and optimize circuits. This course provides a thorough understanding of Cadence Design Systems, a critical tool for analyzing circuit design principles. Learning to use Cadence software enhances an engineer's ability to create sophisticated electronic circuits. By mastering this software, an Electrical Engineer can effectively address real-world design challenges. The course also builds skills needed for modern design practices.

See salaries and explore the career path for Electrical Engineer

Hardware Engineer

A Hardware Engineer designs physical components of computer systems, such as circuit boards and microprocessors. They often rely on electronic design automation tools. This course provides a thorough introduction to Cadence Design Systems, an essential software for hardware design. The course covers critical elements for this role such as circuit design, signal integrity, and power management. A Hardware Engineer should take this course to create sophisticated hardware more efficiently. Working on collaborative projects also mirrors a working team environment.

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Embedded Systems Engineer

An Embedded Systems Engineer designs and develops software and hardware for embedded systems. These engineers work with microcontrollers and integrated circuits. This course introduces the sophisticated electronic design software Cadence Design Systems, which will be a useful tool for them. Understanding concepts like signal integrity and power management, taught in this course, helps an Embedded Systems Engineer produce efficient designs. The course gives hands-on experience with electronic circuit design.

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Product Development Engineer

A Product Development Engineer is involved in designing and developing new products, often involving electronics. They work with a variety of tools, including simulation and analysis software. This course, focused on Cadence Design Systems, helps build a foundation in electronic circuit design and analysis. The course emphasizes practical applications, allowing a Product Development Engineer to apply what is learned directly to their work. Mastering Cadence can accelerate the product development process.

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Test Engineer

A Test Engineer develops and implements testing procedures for electronic devices and systems and ensure products meet quality standards. Using Cadence Design Systems they can create test simulations. This course helps a Test Engineer understand electronic circuit design, as the course teaches the use of Cadence software. The course also helps develop skills in analyzing circuit designs, signal integrity and power management. Learning the capabilities of design software like Cadence is important for modern testing practices.

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Technical Consultant

A Technical Consultant provides expert advice and guidance on technology-related matters, often with a focus on electronic systems. They need a broad understanding of design processes. This course provides valuable insights into Cadence Design Systems, a staple in electronic design. The course's coverage of circuit design, signal integrity and power management will give an edge to a Technical Consultant. By learning Cadence, a consultant can provide more specific and accurate recommendations to their clients. This course will help build a consultant's credibility.

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Applications Engineer

An Applications Engineer provides technical support and solutions to customers using electronic products. This often requires a detailed understanding of the product's design. This course will be useful because it introduces electronic design using Cadence Design Systems. This course develops skills in areas such as circuit design, signal integrity and power management. By taking this course, an Applications Engineer will be able to better support the products they represent as well as communicate with clients.

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Research Engineer

A Research Engineer conducts research and development in various fields, often pushing the boundaries of existing technology. This role might require an advanced degree. In the electronics space, they are often found developing new electronics solutions. This course may be useful to a Research Engineer because it helps build a foundation in using EDA software like Cadence. Those in research can use the course to test ideas and gain a better understanding of electronic design. Practical experience in design software can be useful for experimentation in research.

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Project Manager

A Project Manager is responsible for planning, executing, and closing projects. Although they may not be doing the design work, they are usually knowledgeable about the various steps of a project. This course offers an overview of the electronic design process through Cadence Design Systems. This helps a Project Manager understand the steps required to complete a design project. The course provides insight into design practices. It may be useful for anyone who manages electronic design projects.

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Systems Analyst

A Systems Analyst studies an organization's computer systems and procedures. In the electronics field, it is beneficial to understand the design concepts of the hardware and software that make up the systems. The course offers an introduction to Cadence Design Systems and covers key concepts such as circuit design principles, signal integrity and power management. The skills learned in the course may be helpful for understanding and improving electronic systems. It might be useful for a Systems Analyst.

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Technical Sales Specialist

A Technical Sales Specialist sells complex technical products or services. In the electronics industry, an understanding of hardware is essential. While this course is designed to teach how to design using Cadence Design System, it may be helpful for a technical sales specialist to understand the software. This way, they can better relate to and communicate with the engineers who use the software. The course may provide the fundamentals needed to communicate with the technical audience. It may be useful to professionals in technical sales.

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