In recent years, the field of electronics has experienced significant growth, prompting many individuals to seek out educational opportunities to gain the necessary knowledge and skills. With the increasing popularity of online learning, many companies and institutions have begun offering electronics courses online. These courses cover a range of topics such as circuit design, programming, and prototyping. The convenience and flexibility of online learning make it an attractive option for those seeking to expand their knowledge of electronics. In this article, we will explore some of the best online electronics courses available today.
Here’s a look at the Best Electronics Courses and Certifications Online and what they have to offer for you!
What Is The Best Online Electronics Course
- What Is The Best Online Electronics Course
- 1. Crash Course Electronics and PCB Design by Andre LaMothe (Udemy) (Our Best Pick)
- 2. Electricity & electronics – Robotics, learn by building by Ian Juby (Udemy)
- 3. The Complete Basic Electricity & Electronics Course by Fabrizio Guerrieri (Udemy)
- 4. Digital Electronics: Robotics, learn by building module II by Ian Juby (Udemy)
- 5. Basic electronics for Arduino Makers by Dr. Peter Dalmaris (Udemy)
- 6. Wireless Power to the People – Wireless Charging 101 by Awesome Academy (Udemy)
- 7. Electronics – for Complete Beginners by Gene L. Warner (Udemy)
- 8. Complete Electronics Hardware Design Course 2022 -EsteemPCB by Aviral Mishra (Udemy)
- 9. The Electronics Workbench: a Setup Guide by Dr. Peter Dalmaris (Udemy)
- 10. Introduction to Embedded Systems by Sam Thomas (Udemy)
1. Crash Course Electronics and PCB Design by Andre LaMothe (Udemy) (Our Best Pick)
The Crash Course Electronics and PCB Design course is geared towards those who want to learn about electronics and printed circuit board (PCB) design from the ground up. The course starts with atomic physics and covers topics such as Ohm’s Law, circuit analysis, AC and DC circuits, filters, amplifiers, transistors, and digital theory. The course is designed to be taken as a journey with the instructor, and each lecture builds on the previous one.
The course is not highly technical or math-based, and the most complex topics are distilled into understandable lectures. The instructor approaches each lecture as if both the student and the instructor are learning for the first time. As the course progresses, every circuit and idea is worked out on the blackboard, virtually simulated with Labcenter Proteus, and built by hand in front of the student. With over 35 years of experience in electronics, the instructor shares countless real-world tips and tricks to take the student from a hobbyist to a deep understanding of the subject matter.
The course is unique in that it involves building three complete products. The student will learn about the design, motivation, look up parts, and background information. Together with the instructor, the student will design the circuits, lay them out in Altium CircuitMaker, route them, verify and produce manufacturing files. Finally, the course will teach the student to take those files and send them to various online manufacturers for production.
The course is based on the instructor’s college textbook, Design Your Own Video Game Console, which is included free of charge in the course. Although the course does not cover game consoles, it uses the text for its theory, electrical engineering, and PCB design chapters. The course is divided into sections such as the Starting Line, Advanced Circuit Analysis Techniques and Tools, Electrical Engineering 101, Introduction to Digital Logic Systems, and Printed Circuit Board Design and Technology with CircuitMaker. The course also includes bonus lectures.
The course Electricity and Electronics – Robotics, Learn by Building is designed to provide students with a basic understanding of electronics by focusing on building robots and automation. This course is open to everyone and does not require any prior knowledge of electricity or electronics. The course has over 29,000 students enrolled, with more than 2,100 five-star ratings, and is suitable for individuals aged 8 to 60+.
The course is divided into several modules, with module 1 being the prerequisite for the subsequent modules. In module 1, students will learn how to build electronic circuits, make electronic components from scratch, and gain basic analog electronics knowledge. Students will need basic math skills and tools such as a multimeter, soldering iron, and wire. The course includes captions for the hearing impaired.
Students can purchase an Analog Electronics Kit or provide their own electronic parts. The first section of the course provides information on the required tools and parts. The subsequent modules will cover digital electronics, robotic drive systems and physics, prototyping, and 3D printing. Module V focuses on autonomous robotic systems and sensors, GPS navigation, basic artificial intelligence, and powerful microchips known as FPGA’s.
The course provides students with the skills to build and manufacture their own robots and parts. The course aims to open doors for advancement in various careers involving electronics, from industry, manufacturing, and laboratory work to military and home automation. The course provides a personal education journey towards the student’s goals, with more opportunities available due to their new-found knowledge.
The Complete Basic Electricity & Electronics Course is an online course taught by Fabrizio Guerrieri. It provides an introduction to Electricity and Electronics, covering fundamental concepts such as current, energy, voltage, and power. The course aims to help students understand how circuits work and how electronic components are used in various applications.
The course is designed to be accessible to students with no previous knowledge of Electricity and Electronics. However, some basic arithmetic skills are required to understand and solve equations. While a bit of physics understanding can be helpful, it is not required. No special hardware or software is required to take this course.
The course covers topics such as electronic components (resistors, capacitors, diodes, etc.), the main laws governing currents and voltages in circuits (Ohm’s law, Kirchhoff’s laws, etc.), and interface with microcontrollers (coming soon).
Unlike other online courses that focus on applications and high-level material, this course is unique in its approach. It starts with explaining the fundamental concepts of Electricity and Electronics, and only later uses the acquired knowledge to explain how to design more complex circuits for different applications.
The course emphasizes the importance of knowledge of Electronics in today’s world, where electronic circuits are everywhere, including in everyday objects that are becoming “smart”. It highlights the high demand and well-paid jobs available in the field of electronics, making it an extremely valuable skill to possess.
In conclusion, The Complete Basic Electricity & Electronics Course is an excellent course for anyone interested in learning about the fundamental concepts of electronics and how circuits work. The course covers a range of topics, from electronic components to the main laws governing currents and voltages in circuits. It is accessible to students with no prior knowledge of Electricity and Electronics and emphasizes the importance of knowledge of Electronics in today’s world.
The course title is Digital Electronics: Robotics, Learn by Building Module II and the course instructors are Ian Juby. The course aims to open doors to careers and hobbies while providing learning opportunities in digital electronics. The course builds on the knowledge gained in the Analog Electronics module and involves building digital electronic circuits, using and programming microcontrollers like the PIC and Arduino, and connecting to the real world with them. The course requires a good understanding of basic electronics, basic math skills, and a computer.
The course has over 12,000 students enrolled and more than 300 five-star ratings. It is suitable for students aged 8 to 60+ and does not require prior knowledge of digital electronics or programming. By the end of the course, students will have built functioning digital electronic circuits and programmed microcontrollers. They will be able to connect these to the real world for home automation and controlling robots. Course materials needed include an analog electronic kit, a breadboard, and a digital electronics kit.
The course is part of the Robotics: Learn by Building modules, with an end-goal focus on the diverse field of robotics. Module I covered the basics of electricity and electronics, while Module II further develops knowledge and skills to include digital electronics. Module III covers robotic drive systems and physics, and Module IV involves building a 3D printer from scratch. Module V aims to take robot design and construction skills to the next level with hands-on experience in autonomous robotic systems.
The course covers various topics, including binary and hexadecimal systems, logic gates, microprocessors and microcontrollers, using PIC microcontrollers, programming, using full-colour TFT touch screens, building mobile robots, and ultrasonics and ultrasonic radar. The course is divided into sections and covers an introduction to digital electronics. The course has captions for the hearing impaired.
The course titled Basic electronics for Arduino Makers is an introductory level course designed to help Arduino Makers learn the basic principles of electronics. The course instructor, Dr. Peter Dalmaris, has been teaching Arduino and Raspberry Pi topics for years and has realized that while these platforms are great for tinkering with electronics, understanding basic electronics is essential to fully utilize their capabilities. The course is designed for anyone with a basic understanding of electronics who has spent time tinkering with Arduinos.
The course covers commonly used components found in Arduino projects, and students will learn how to perform measurements and calculations to select appropriate components for their projects. The course is divided into seven sections, starting with Starting Up, followed by Electronics, Basic Concepts, Resistors, Capacitors, Diodes, Transistors, and Voltage Regulators. The course concludes with a summary of what was covered.
To complete the course, students will need a few cheap and common components and tools, including resistors, capacitors, transistors, LED, diodes, and batteries. They will also need a multimeter, a small breadboard, and jumper wires. These are all tools that Arduino Makers are likely to already own.
The Wireless Power to the People – Wireless Charging 101 course offered by Awesome Academy provides an introduction to modern wireless power electronics with practical engineering demo circuits. The course covers the basics of different types of wireless power, such as magnetic induction and resonance. It also teaches students how to build a simple wireless powered LED and how to increase the power and range of the system to wirelessly power other devices. The final project involves upgrading USB powered devices to be charged with wireless power. This course is designed for individuals who want to learn how wireless charging works and gain a better understanding of the different technologies used in wireless power.
The course focuses on cutting through the hype surrounding wireless power and explaining the different types of wireless power being researched today. It covers the pros and cons of each technology, which ones are viable, which ones are not, and why. The course is designed to be intuitive and visual, with a minimum amount of math involved. During the course, students will see wireless charging experiments that require a power supply, an oscilloscope, and a few electronic components. Those without these materials can still enjoy the demonstrations and gain an understanding of how wireless power works. By the end of the course, students will know how to wirelessly power any electronic device up to 4 watts.
The Wireless Power to the People – Wireless Charging 101 course is suitable for anyone who wants to learn how Samsung phones, iPhone X, and Apple Watch charging works. It is also ideal for students and junior engineers who want to get up to speed on practical solutions to wireless power problems. The course content includes sections on Tesla Coils, wireless power with radio waves, directional antennas for wireless power, piezoelectric based systems, conductive wireless chargers, inductive power transfer, electromagnetic induction and transformers, the Qi standard, and more. The course concludes with a section on cutting-edge research and development in wireless power.
The Electronics for Complete Beginners course, instructed by Gene L. Warner, provides an introduction to the theory behind various types of electrical and electronic circuitry. The course emphasizes practical aspects of the technology, with a focus on real-world working situations. The course content consists of short video presentations presented in a conversational one-on-one teaching style. PowerPoint, screen captures, text files, and the like are not used. A PDF version of each session is provided, which you may download and combine as your own searchable resource for future reference. The course includes Hands-On labs that allow students to work with circuits interactively with the optional ElectricVLab circuit simulator.
The course is suitable for individuals who are interested in gaining knowledge and skills in electrical engineering technology. The study of this field can offer personally rewarding and financially attractive career opportunities. The course can help students qualify for entry-level positions, such as electronics technician, service technician, and telecommunications technician. Technology-focused companies and organizations hire employees who understand analog and digital electronics. The understanding gained from the course will be complete and comparable to what one might achieve in a more formal learning environment. Students will be prepared for opportunities that come their way in the future and will be ready to go on to further, more narrowly-focused training in any related specialty.
The course content covers the following sections: Introduction, Some Fundamental Physics, The Nature of Electricity, Simple Resistive Circuits, Capacitance and Inductance, Solid State Devices, Piezoelectric Devices, Monolithic Integrated Circuits, and Conclusion.
The Complete Electronics Hardware Design Course 2022 by EsteemPCB is a complex mixed signal board design course that covers topics such as Ethernet PHY, STM32F407, STM32F103, CH340C, DAC/MIC, 24Bit ADC, and 36W Drivers. The course is divided into four major sections, including selection of components, schematic designing, stack-up planning and execution, and inter block and intra block layout planning and execution. The major schematic blocks covered in the course include Ethernet PHY 10/100 Mb/s, I2S DAC for Headphone and Speaker, MEMS MIC, 24BIT ADC, 36W Bi-Directional Brushed DC Motor Divers, UART to USB TTL Converter, STM32F103 Controller as Debugger and Programmer, STM32F407 Main Controller, and Power Supply and Protections.
The course also covers basic blocks such as pre-schematic design blocks, layer stack-up selection and rules, grounding techniques, RIGID-FLEX PCB and its stack-up, pin-mapping using Cube-MX tool, power distribution network analysis (PDN analysis), and ferrite bead, ESD diodes, and magnetic application and selection. Additionally, the course offers guidance on how to do placement and layout planning on Microsoft-Paint.
Upon completion of the course, students will be able to design any mixed signal with micro-controller available across the world. The major controllers used in the course are STM32F407XX, STM32F103XX, as well as PHY and some other sensors and ADC/DAC.
The course titled The Electronics Workbench: a Setup Guide is instructed by Dr. Peter Dalmaris. The course aims to assist individuals with setting up their own electronics lab at home. The course is designed for beginners and non-professional hobbyists in electronics.
The electronics lab at home is a specially organised space that promotes enjoyment while working with electronics. It is where the tools, components, and instruments are located, and where one conducts circuit experiments and learning activities.
There is a significant difference between professional and hobbyist electronics labs. The amateur electronics lab is more restricted in every aspect compared to a professional lab. This course helps individuals make the most of their amateur electronics lab, especially if they are using a designated room or bedroom as their lab space.
The instructor of the course presents the basic features of an amateur electronics lab by demonstrating the organisation of his own lab. The course is structured in a lecture format, where each lecture discusses a specific topic and includes a demonstration of the use of a tool or instrument.
The course material aims to help individuals gain a working understanding of the items required in an electronics lab. Although the course does not make one an expert, it provides enough knowledge to know when a specific tool or instrument is necessary. The instructor is available to discuss any of the topics presented in the course, with the course’s discussion tool available for communication.
The course content consists of an introduction to the electronics maker lab, followed by the essentials needed for an electronics lab. The course also covers topics on power, power tools, test equipment, soldering and wiring, software, and other relevant topics. The course concludes with a bonus lecture.
The Introduction to Embedded Systems course, instructed by Sam Thomas, offers an opportunity for learners to begin exploring the world of embedded systems. The course primarily utilizes the Arduino platform and provides instruction on programming the board to control various peripherals.
The course is designed to introduce embedded systems in a step-by-step manner, offering learners a foundational understanding of both hardware and software. The ultimate goal is to guide learners to a level of proficiency where they can pursue more advanced topics on their own.
Throughout the course, learners will cover several topics including the introduction to the Arduino Uno, digital output, analog output, digital input, analog input, and serial communication.
The course comprises six sections: Introduction, Introduction to Arduino, Working with LED, More LEDs, Digital Input, Serial Communication, and Analog Read.