So you’ve decided to jump into the fascinating world of semiconductors – smart move! With technology advancing at breakneck speed, there’s never been a better time to learn about semiconductors and their role in countless modern devices. Before we start exploring the best semiconductor online courses, allow me to congratulate you on taking this step toward expanding your knowledge. Whether you’re a beginner or a seasoned professional, I promise you’ll find something beneficial in today’s post.
Now, with everything from smartphones to autonomous vehicles relying on semiconductors as their backbone, you might be wondering where to start on this exciting journey. With so many courses available online, choosing the right one can be overwhelming. That’s exactly why we put together this comprehensive listicle of top semiconductor online courses to suit every need. Read on as we guide you through the best picks, so you can take your semiconductor know-how to new heights. Let’s dive right in!
Semiconductors Courses – Table of Contents
- Fundamentals of Semiconductors – Best Starter to Electronics
- Undergraduate course on semiconductor device physics-I
- MOSFET Crash Course
- Semiconductor Physics & its Application in ELECTRONICS
- Electronic Circuits – Part1: Semiconductors
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Fundamentals of Semiconductors – Best Starter to Electronics
Platform:
Udemy
Rating:
4.8 out of 5
The Fundamentals of Semiconductors course is perfect for those looking to advance their knowledge in electronics and only requires a basic understanding of math. This comprehensive course is designed to help you learn from the ground up, so you don’t have to worry about your level. The curriculum offers a vast range of essential topics, covering everything from atomic structure to semiconductor properties.
The course is organized into two main parts: the introductory section and the core content. The introductory section dives into topics such as particle and wave duality, atomic structure, and quantum mechanics. The second part dives straight into semiconductor principles, starting with crystal properties and continuing onto energy bands, charge carriers, excess carriers, and junctions. With a strong focus on foundational knowledge and practical applications, this course ensures a deep understanding of semiconductors and the electronic world.
Skills you’ll learn in this course:
- Understanding the fundamentals of semiconductors and periodic structures
- Applying principles of quantum mechanics to semiconductor materials
- Analyzing energy bands and different types of semiconductors (metals, insulators, direct and indirect)
- Determining electron and hole concentrations, conductivity, and mobility in a material
- Assessing the effects of temperature and doping on carrier behavior
- Exploring excess carriers, such as optical absorption, luminescence, and carrier lifetime
- Mastering junctions, including fabrication of P-N junctions and understanding equilibrium conditions
- Applying the knowledge of semiconductor properties to real-world devices, like photoconductive devices, and understanding the Hall Effect.
Undergraduate course on semiconductor device physics-I
Platform:
Udemy
Rating:
4.7 out of 5
Dive into the fascinating world of semiconductor device physics with this undergraduate course, the first part in a two-part series. If you’re an electronics student, it’s essential to understand transport phenomena of charge carriers, drift current, diffusion current, energy band theory of semiconductors, electron-hole pairs, junction formation in a diode, and extending the device physics to three-terminal devices like BJTs and MOSFETs.
Starting with a solid foundation of relevant quantum physics fundamentals, the course then dives into the energy band theory of semiconductors in connection with Fermi-Dirac distribution function. After exploring intrinsic and extrinsic semiconductors, you’ll study transport phenomena and dive deep into pn junction diode theory. You’ll also learn about Zener diodes, opto-electronic devices like photo diodes, LEDs, and solar cells. Taught by Mr. Udaya Bhaskar who boasts over 15 years of teaching experience, this course will provide both quantitative and qualitative analysis of semiconductors, leaving you well-versed in the theory of electronic devices.
Skills you’ll learn in this course:
- Understanding transport phenomena of charge carriers
- Grasping energy band theory of semiconductors
- Exploring intrinsic and extrinsic semiconductors
- Mastering transport phenomenon concepts like mobility, conductivity, and diffusion coefficient
- Analyzing pn junction diode theory and behavior
- Studying opto-electronic devices like photo diodes, LEDs, and solar cells
- Gaining both quantitative and qualitative analysis skills in semiconductors
- Building a strong foundation for more advanced semiconductor device courses
MOSFET Crash Course
Platform:
Udemy
Rating:
4.3 out of 5
If you’re looking to dive into the world of MOSFETs, you might want to check out this MOSFET Crash Course. It covers all the core concepts of MOSFETs, including their construction, working, and applications. By the end of the course, you’ll have a solid understanding and be able to design logic circuits with CMOS Logic, design MOSFET amplifiers, and use MOSFETs as electronic switches. Plus, you’ll become familiar with the differences between BJTs and FETs, various types of FETs and MOSFETs, and learn how to form different logic gates using PMOS and NMOS.
Moreover, this course will help you to get familiar with TinkerCAD, a circuit simulation tool, and teach you how to control electronic components like LEDs using MOSFETs. Lastly, you’ll also get to grips with terminologies such as power consumption, fan in, and transconductance. Just to give you a glimpse of their huge potential, MOSFETs are widely used in industries for purposes like switching and amplifying electronic signals, inverting signals, digital circuitry, high-frequency amplification, and even as passive elements like resistors, capacitors, and inductors. So, step in and enhance your skills with this comprehensive MOSFET crash course!
Skills you’ll learn in this course:
- Design logic circuits using CMOS Logic.
- Design a MOSFET Amplifier using CS, CG, or CD combinations.
- Use MOSFETs as electronic switches.
- Understand the difference between BJT and FET.
- Grasp the various types of FETs and MOSFETs.
- Create different logic gates using PMOS and NMOS.
- Utilize TinkerCAD for circuit simulation.
- Control electronic components like LEDs with MOSFET.
Semiconductor Physics & its Application in ELECTRONICS
Platform:
Udemy
Rating:
4.5 out of 5
Dive into the fascinating world of semiconductors with this comprehensive online course! Before you enroll, it’s important to have a solid understanding of current electricity, chemistry, and conductors. If you need to brush up on these topics, there are additional courses available.
During this course, you’ll learn everything about semiconductors from the ground up. You’ll explore the differences between conductors, semiconductors, and insulators. You’ll study energy band diagrams, valence and conduction bands, and the Forbidden Energy Gap. The course will also cover intrinsic and extrinsic semiconductors, as well as the internal structure and workings of the p-n junction diode. This course serves as a foundation for further electronic courses and is perfect for those planning to pursue a career in the VLSI domain. By the end of this course, you’ll be well-equipped with knowledge and skills that will benefit you in the world of electronics.
Skills you’ll learn in this course:
- Understanding the basics of semiconductors
- Differentiating between conductors, semiconductors, and insulators
- Analyzing energy band diagrams for sodium and silicon atoms
- Interpreting valence band and conduction band diagrams
- Grasping the concept of Forbidden Energy Gap
- Identifying intrinsic and extrinsic semiconductors
- Comprehending the internal structure and workings of a p-n junction diode
- Preparing for advanced electronics and VLSI domain courses
Electronic Circuits – Part1: Semiconductors
Platform:
Udemy
Rating:
4.4 out of 5
Are you looking for a foundational course to help you dive into the world of semiconductor materials and PN junction diodes? Then this online course is just for you! Packed with animations to make learning as engaging and effective as possible, you’ll also get a hands-on experience with problem-solving using MATLAB throughout the course.
The course begins with an introduction to the very basics of electronics. It then covers solid structures such as simple cubic, base centered cubic, face centered cubic, and diamond structures. From there, you’ll learn about atom structure, periodic tables, and bonding in solids. As the course progresses, you’ll explore intrinsic and extrinsic semiconductors, energy levels, and the conduction process, culminating in a deep dive into the PN junction and its physical characteristics. By the end of this course, you’ll have a solid understanding of the fundamentals of semiconductors and be well-prepared to tackle more advanced topics in circuit design.
Skills you’ll learn in this course:
- Understanding fundamentals of semiconductor materials and PN junction diodes
- Identifying the different types of solid structures (simple cubic, base centered cubic, face centered cubic, and diamond structures)
- Learning about atom structure, periodic table, ions, and stable atoms
- Grasping bonding in solids and generation-recombination concepts
- Differentiating between intrinsic and extrinsic semiconductors and their energy levels
- Analyzing conduction processes in semiconductors, including drift and diffusion currents
- Gaining in-depth knowledge of PN junctions and their physical characteristics
- Interpreting current-voltage characteristics of semiconductor materials
There you have it – an extensive list of the best semiconductor online courses to help you get started in this fascinating and continually expanding industry. As with any specialized field, constant learning and staying up-to-date with the latest trends is essential for professional growth and development. These online courses may just be the crucial stepping stone that propels you to becoming a valuable player in the semiconductor ecosystem.
Now, buckle up and dive into these educational resources, whether you’re an industry veteran looking to sharpen your skills or a newbie eager to find your footing in the world of semiconductors. Remember, consistent progress is critical – so engage with the content and actively strive to apply your newfound knowledge. The door to a world of possibilities is waiting for you to step through it – and these top-notch online courses will be your key!