Free Online Electronics Courses With Certification will help you gain a great understanding about the field and its various aspects. They can also help you get started on your journey as an engineer.
The electronics field is one of the most popular subjects in engineering. The rapid growth of technology has made it a very lucrative career option as well. Electronics engineers work on all kinds of products from cell phones to automobiles.
There are a lot of free electronics courses online that can help you learn the basics, but you’ll have to do some searching. In this guide, we cover some of the best options available at present.
While there’s no substitute for hands-on experience in a real classroom or lab setting, these courses can still help you get up to speed quickly with whatever kind of electronic device or component you want to learn more about.
Introduction to Electronics Courses and Certification
Electronics is the branch of science that deals with the study and application of electricity to communication, computation, and power. It includes electrical theory, electronic components, circuitry design, testing, and electromagnetic waves.
There are many types of online courses available on electronics including: “Introduction to Electronics” which gives an overview of different types of devices used in this field along with their components; “Digital Electronics” which introduces you to digital logic gates used in digital circuits; “Fundamentals Of Microcontroller Programming” helps you learn about microcontrollers (MCU) operation system such as Android OS etc.
Online Electronics Schools That Offer Certifications
While there are many things to look for in a good electronics course, getting a certification is an important thing to do. Online schools offer the best options for this kind of training because they allow you to complete your studies from anywhere in the world.
Some of these courses even offer live classes over video chat so that teachers and students can be together in real-time situations and interact with each other easily using audio and visual tools as well as text chat tools such as Skype or Google Hangouts.
Some of the schools and institutions where you can get online courses with certifications in electronics include:
What Should I Expect From An Online Electronics Course?
When you’re looking for an online electronics course, it’s important to ask yourself what you want to get out of the class. What do you want to learn or accomplish? This will help you decide which type, of course, is best suited for your needs.
The most basic questions that should come up when choosing an online electronics course are:
- What will be covered in the course?
- Will it cover all aspects of electronics and circuits or just some basics?
- What can I expect from this class or series of classes?
- Will they meet my expectations on
- What do I hope to be able to do with my newfound knowledge at the end of taking these courses?
These questions will give you an idea of the knowledge you will get from the online electronics course you enroll in, regardless of what institution you get the online course from.
Free Online Electronics Courses With Certification
There are several free electronics courses on the internet that choosing one to take may be a daunting task. Some of the best free online electronic courses on the best Platforms such as MIT, Coursera, and EdX include:
- Introduction to Electronics
- Basic Circuit Analysis
- Electrical and magnetic fields
- Circuits and Electronics
- Introductory electricity and magnetism
- Introduction to electrical and electronics engineering
- Fundamentals of Current Flow
- Digital Signal Processing
- Semiconductor Devices
- Digital Systems: From Logic Gates to Processors
- Introduction to Embedded Systems Software and Development Environments
- Introduction to digital communications
Introduction to Electronics
Electronics is a field of engineering, science, and technology that deals with the study of electrical circuits and their applications. Electronics include the use of electronic devices and materials to control electrons in an electric circuit by using electric signals and electromagnetic fields to form various types of equipment such as televisions, radios, cell phones, computers, etc. This course will usher you into knowing what electronics is about and the many other aspects of electronics.
Basic Circuit Analysis
In this course, you’ll be introduced to the basics of circuit analysis. You’ll learn what a voltage source is, what a current source is, and how they relate to resistance in circuits. You’ll also learn how to use Ohm’s law to solve for voltage and current in resistive circuits.
You’ll be shown how complex circuits can be broken down into smaller components so that each component can be analyzed separately. Finally, this course will introduce you to open circuits and short circuits as well as their effects on the flow of electricity through a system.
Electrical and Magnetic Fields
In this course you will learn what you need to know about electrical and magnetic fields, you will learn The basic units of electrical and magnetic fields which are the voltmeter and ammeter, respectively.
The unit of electric field strength is the volt per meter (V/m). You can find the strength of an electric field by multiplying two values: the voltage between two points, and the distance between those points.
The basic units of magnetic field strength are oersteds (Oe), which describe how many lines per square centimeter you’d see if you drew them on a sheet of paper placed in this area. The unit for calculating magnetic fields around current-carrying wires is Ampere Turns per Meter (AT/m).
To calculate this value, multiply your current by the number of turns in your circuit: If there are 100 turns total in your circuit with 10 amps flowing through it, then each turn has 1A traveling through it at 100T/m
Circuits and Electronics
For this course, you’ll need to know the basics of circuits. If you’re familiar with what a circuit is and how it works, you can skip ahead to Electric Current. If not, here’s a brief rundown: A circuit is simply a loop through which electric current flows.
Current can be thought of as electrons moving from one end of the loop (the positive terminal) through the loop and back again (the negative terminal).
The way that current flows through different components such as resistors in a circuit determines their effect on voltage and current flow. This course will guide you through all the other things you need to know about circuits in electronic devices.
Introductory Electricity and Magnetism
This course is meant for students who want to understand the basic concepts of electricity and magnetism. In this course, you’ll learn about the concepts of electric charge and how it interacts with other charges. You will also learn about how magnetic fields are produced and how they interact with moving charges.
This course will help you gain a deeper understanding of what electricity and magnetism are, how we can use these properties to make things work, as well as some applications of these properties that are used in everyday life.
Introduction to Electrical and Electronics Engineering
This course will teach you the nitty-gritty of electrical and electronics engineering. Knowing that Electrical engineering is the discipline that applies engineering, physics, and materials science principles to the design, development, and analysis of electric and electronic systems.
After you take this course you’ll have the opportunity to work in the line of electrical engineering. Electrical engineers typically hold a bachelor’s degree in electrical engineering or electronic engineering.
Fundamentals of Current Flow
The first-course module you will take in the series of this course is Fundamentals of Current Flow. In this course, you’ll learn what electricity is and how it works. You’ll also see examples of current flow through materials like wires, batteries, light bulbs, and switches. You will learn: The concept of current flow in a circuit with a battery, The concept of voltage in a circuit, and Resistance as it relates to current flow.
Digital Signal Processing
In this course, you will learn all about Digital signal processing (DSP) which is the use of computers to analyze and manipulate signals, especially those that are digital. It has applications in fields such as communications, control systems, signal processing, sonar, radar, and others. DSP is an important part of many modern technologies such as digital audio and video distribution and high-definition television (HDTV).
You will also learn about the history of digital signal processing and the terms used in the field. The term digital refers to the discrete states of a finite sequence of values rather than an analog continuum. In technical terms, this means that samples can be processed by being quantized into a discrete number of levels.
You will also learn that digital signal processors are used at every stage from acquisition to speaker management in modern telephony equipment like mobile phones or call centers. You will also learn that DSP is also used for sound effects (including echo), speech synthesis, and voice recognition as well as for noise reduction/removal algorithms.
Semiconductor devices are electronic components that use semiconductors, which are materials that conduct electricity under specific conditions. Semiconductors can be used to amplify a signal or convert it from analog to digital. They’re also used in computing and telecommunications, as well as other fields.
In this course, you’ll learn about how semiconductor devices work and how they’re made. You’ll also learn about how they’re used by looking at examples of common applications like transistors and diodes.
Digital Systems: From Logic Gates to Processors
This course will teach you about digital systems with specialization from logic gates to processors. This course helps you prepare for a career in the field with relevant industry certifications and hands-on experience.
You’ll learn to build digital systems using hardware and software methods, as well as how to analyze them. The introductory section of this course covers an overview of digital systems and their architecture, design principles, and tools used in designing them.
You will begin this course by beginning a review of the basic logic gate principles before delving into more advanced topics such as combinational circuits (what makes up arithmetic logic units), registers, decoders, encoders, and multiplexers (all of which are important components in processors).
Finally, you will cover some design examples including how to use these building blocks within larger systems such as CPUs or CPUs+GPUs.
Introduction to Embedded Systems Software and Development Environments
This course will teach all you need to know about embedded systems. An Embedded system is any computer system that is specialized to perform one or more dedicated functions, often with real-time computing constraints. It is embedded as part of another system, often a mechanical device such as a car, appliance, or device.
Embedded systems control physical devices such as lights and heating equipment in buildings; they also control digital devices like cell phones and computers. Embedded systems can be found in almost every piece of technology you use every day from your cellphone to your car’s onboard computer systems (OBD).
Introduction to Digital Communications
This course will teach you about Digital communication which is a form of communication in which the message is encoded into discrete symbols. It can be used to transmit data over a channel (i.e., radio waves, optical fibers) and can take place via wired or wireless channels.
In all forms of digital transmission, from radio and television broadcasting to computer data exchange, the basic unit of information is represented by two voltage levels: high and low. Career Opportunities in Electronics and Electrical Engineering
Electronics are used in almost every industry, and the market for electronics professionals is growing. The Bureau of Labor Statistics of the US, predicts that employment of electronic engineers will grow by 6% between 2016 and 2026. If you like solving problems, electronics is a good career choice for you.
Electronics engineers work in many different industries, from manufacturing to healthcare to telecommunications. Many electronics engineers also specialize in specific areas such as software or hardware design. Therefore your career choices after studying electronics and electrical engineering or taking online electronic courses are highly guaranteed, with good pay.
How can I teach myself electronics?
You can teach yourself electronics, by studying and taking courses on electronics. You will need to take basic electronics courses if you do not already know of them.
Which is the best course in electronics?
Several electronics courses deciding the best electronic course becomes a daunting task. One of the best electronic courses is embedded systems, other best courses include semiconductor devices, digital signal processing, etc.
Is electronics easy to learn?
Electronics is not easy to learn, but with commitment and passion you can learn electronics and reap the fruit of properly learning it.
Why is electronics so hard?
Electronics is so hard because of several reasons but one of the major reasons is because of how dynamic electronics is. This dynamism is seen in the movement of voltage and current. Conclusion
We hope this list of free electronics courses from top universities, colleges and other resources has helped you learn the basics of electronics. Remember that a good understanding of basic electronic circuits can help you design even the most advanced electronic devices in the world. We also have a list of best electrical engineering books here if you want to explore this field further.