What jobs can I get with circuits skills?

Careers in circuits span a wide range of industries, including electronics, telecommunications, and engineering. Potential job titles include electrical engineer, electronics technician, circuit designer, and systems engineer. These roles often involve designing, testing, and maintaining circuit systems, making a solid understanding of circuits essential for success.

What are the best circuits courses online?

Some of the best online courses for learning about circuits include Linear Circuits 1: DC Analysis and Linear Circuits 2: AC Analysis . These courses provide foundational knowledge and practical applications, making them ideal for anyone looking to deepen their understanding of circuit design and analysis.

Can I study circuits for free on Coursera?

Yes. You can start learning circuits on Coursera for free in two ways: Preview the first module of many circuits courses at no cost. This includes video lessons, readings, graded assignments, and Coursera Coach (where available). Start a 7-day free trial for Specializations or Coursera Plus. This gives you full access to all course content across eligible programs within the timeframe of your trial. If you want to keep learning, earn a certificate in circuits, or unlock full course access after the preview or trial, you can upgrade or apply for financial aid.

What topics are typically covered in circuits courses?

Typical topics covered in circuits courses include Ohm's Law, Kirchhoff's laws, circuit components (resistors, capacitors, inductors), and analysis techniques for both AC and DC circuits. Advanced courses may also explore digital circuits, circuit design methodologies, and the use of software tools for simulation and modeling.

What circuits courses are best for training and upskilling employees or the workforce?

For training and upskilling employees in circuits, courses like Engineering Genetic Circuits: Design and Motors and Motor Control Circuits are excellent choices. These courses provide practical knowledge and skills that can be directly applied in the workplace, enhancing employee capabilities in circuit design and analysis.

Top Circuits Courses - Learn Circuits Online

Browse
Circuits

Circuits Courses

Circuits courses can help you learn about electrical components, circuit design, signal processing, and troubleshooting techniques. You can build skills in analyzing circuit behavior, using simulation software, and implementing practical projects. Many courses introduce tools like multimeters, oscilloscopes, and circuit simulation programs, that support testing and validating your designs.

Popular Circuits Courses and Certifications

Status: New
Birla Institute of Technology & Science, Pilani
Basic Electronics
Skills you'll gain: Electronic Systems, Semiconductors, Basic Electrical Systems, Electrical Engineering, Electronics, Electronic Components, Electronics Engineering, Power Electronics, Electrical Systems, Engineering Analysis, Network Analysis, Engineering Calculations, Control Systems, Applied Mathematics
Beginner · Course · 1 - 3 Months
Status: Preview
Georgia Institute of Technology
Linear Circuits 1: DC Analysis
Skills you'll gain: Basic Electrical Systems, Electronic Components, Electrical Systems, Electronic Systems, Electrical Engineering, Engineering Analysis, Electronics, Engineering Calculations, Physics, Schematic Diagrams
4.5
Rating, 4.5 out of 5 stars
1.5K reviews
Mixed · Course · 1 - 3 Months
Status: Preview
Georgia Institute of Technology
Introduction to Electronics
Skills you'll gain: Electronic Components, Semiconductors, Electronics, Electrical Engineering, Basic Electrical Systems, Electronics Engineering, Engineering Analysis, Schematic Diagrams
4.7
Rating, 4.7 out of 5 stars
2.6K reviews
Mixed · Course · 1 - 3 Months
Status: Free Trial
University of Colorado Boulder
Engineering Genetic Circuits
Skills you'll gain: Biological Engineering, Markov Model, Molecular Biology, Biotechnology, Bioinformatics, Simulation and Simulation Software, Mathematical Modeling, Engineering Analysis, Mathematical Software, Electrical Engineering, Engineering Design Process, Simulations, Biochemistry, Computational Thinking, Failure Analysis, Differential Equations, Cell Biology, Hazard Analysis, Technical Design, Chemical Engineering
Build toward a degree
4.5
Rating, 4.5 out of 5 stars
33 reviews
Intermediate · Specialization · 3 - 6 Months
Status: Free Trial
University of Colorado Boulder
FPGA Design for Embedded Systems
Skills you'll gain: Field-Programmable Gate Array (FPGA), Hardware Design, Verification And Validation, Electronic Systems, Embedded Systems, Electronics Engineering, Application Specific Integrated Circuits, Electronic Hardware, Electronics, Systems Design, Software Design, Program Development, Integrated Development Environments, System Design and Implementation, Computer Architecture, Eclipse (Software), Computational Logic, Hardware Architecture, Software Development, Computer Engineering
Build toward a degree
4.5
Rating, 4.5 out of 5 stars
1.7K reviews
Intermediate · Specialization · 3 - 6 Months
Status: Free Trial
University of Colorado Boulder
Motors and Motor Control Circuits
Skills you'll gain: Control Systems, Basic Electrical Systems, Electrical Systems, Power Electronics, Three-Phase, Torque (Physics), Electrical Equipment, Embedded Software, Electronics, Electrical Wiring, Electronic Hardware, Design Specifications, System Requirements, Laboratory Experience, Electronic Components
Build toward a degree
4.7
Rating, 4.7 out of 5 stars
1.4K reviews
Intermediate · Course · 1 - 3 Months

What brings you to Coursera today?

Start my career

Change my career

Grow in my current role

Explore topics outside of work

Status: Free Trial
University of Colorado Boulder
Semiconductor Devices
Skills you'll gain: Semiconductors, Electrical Engineering, Electronic Systems, Electronic Components, Materials science, Electronic Hardware, Electronics, Electrical and Computer Engineering, Physics, Electronics Engineering, Applied Mathematics, Mathematical Modeling
Build toward a degree
4.4
Rating, 4.4 out of 5 stars
612 reviews
Advanced · Specialization · 1 - 3 Months
Status: Preview
Georgia Institute of Technology
Linear Circuits 2: AC Analysis
Skills you'll gain: Electrical Power, Electrical Engineering, Basic Electrical Systems, Electronics, Power Electronics, Electronic Components, Engineering Analysis, Mathematical Modeling, Engineering Calculations, Plot (Graphics), Verification And Validation
4.7
Rating, 4.7 out of 5 stars
767 reviews
Intermediate · Course · 1 - 3 Months
Status: Free Trial
Rice University
Introduction to Electricity and Magnetism
Skills you'll gain: Basic Electrical Systems, Electrical Engineering, Torque (Physics), electromagnetics, Physics, Electrical Systems, Engineering Analysis, Electronics, Electronic Components, Engineering Calculations, Mechanics, Mathematical Modeling, Applied Mathematics, Problem Solving, Calculus, Advanced Mathematics, Mathematical Theory & Analysis, Differential Equations, Trigonometry, Integral Calculus
4.7
Rating, 4.7 out of 5 stars
262 reviews
Intermediate · Specialization · 3 - 6 Months
Status: Preview
Exploratorium
Tinkering Fundamentals: Circuits
Skills you'll gain: Developing Training Materials, Electronics, Creativity, Design Thinking, Education Software and Technology, Basic Electrical Systems, Driving engagement, Experimentation, Design, Computational Thinking, Creative Design, Construction
4.7
Rating, 4.7 out of 5 stars
48 reviews
Beginner · Course · 1 - 3 Months
Status: Free Trial
University of Colorado Boulder
Hardware Description Languages for FPGA Design
Skills you'll gain: Verification And Validation, Systems Design, Software Design, Computational Logic, Computer Engineering, Embedded Systems, Hardware Architecture, Simulations, Test Automation
4.4
Rating, 4.4 out of 5 stars
620 reviews
Intermediate · Course · 1 - 4 Weeks
Status: Free Trial
Johns Hopkins University
Raspberry Pi Projects
Skills you'll gain: Hardware Design, Electronic Hardware, Schematic Diagrams, Electronics, Computer-Aided Design, Mechanical Design, Communication Systems, Remote Access Systems, Wiring Diagram, 3D Modeling, Linux, Digital Communications, Electronic Components, Electronic Systems, Electrical Engineering, Web Applications, Internet Of Things, Systems Of Measurement, Digital Signal Processing, Data Processing
4.8
Rating, 4.8 out of 5 stars
94 reviews
Beginner · Specialization · 3 - 6 Months

Searches related to circuits

linear circuits 1: dc analysis

design of digital circuits with vhdl programming

converter circuits

motors and motor control circuits

physics 102 - ac circuits and maxwell's equations

physics 102 - electric potential and dc circuits

engineering genetic circuits

engineering genetic circuits: design

In summary, here are 10 of our most popular circuits courses

Basic Electronics: Birla Institute of Technology & Science, Pilani
Linear Circuits 1: DC Analysis: Georgia Institute of Technology
Introduction to Electronics: Georgia Institute of Technology
Engineering Genetic Circuits: University of Colorado Boulder
FPGA Design for Embedded Systems: University of Colorado Boulder
Motors and Motor Control Circuits: University of Colorado Boulder
Semiconductor Devices: University of Colorado Boulder
Linear Circuits 2: AC Analysis : Georgia Institute of Technology
Introduction to Electricity and Magnetism: Rice University
Tinkering Fundamentals: Circuits: Exploratorium

Frequently Asked Questions about Circuits

Yes. You can start learning circuits on Coursera for free in two ways:

Preview the first module of many circuits courses at no cost. This includes video lessons, readings, graded assignments, and Coursera Coach (where available).
Start a 7-day free trial for Specializations or Coursera Plus. This gives you full access to all course content across eligible programs within the timeframe of your trial.

If you want to keep learning, earn a certificate in circuits, or unlock full course access after the preview or trial, you can upgrade or apply for financial aid.‎

This FAQ content has been made available for informational purposes only. Learners are advised to conduct additional research to ensure that courses and other credentials pursued meet their personal, professional, and financial goals.