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Crash Course Electronics and PCB Design
Learn Electronics and PCB Design from the Ground up with Altium CircuitMaker and Labcenter Proteus
Created by Andre LaMothe, offered on Udemy
To make sure that we score courses properly, we pay a lot of attention to the reviews students leave on courses and how many students are taking a course in the first place. This course has a total of 54460 students which left 10273 reviews at an average rating of 4.72. Impressive!
We analyze course length to see if courses cover all important aspects of a topic, taking into account how long the course is compared to the category average. This course has a length of 108 hours 41 minutes, which is pretty short. This might not be a bad thing, but we've found that longer courses are often more detailed & comprehensive. The average course length for this entire category is 5 hours 26 minutes.
This course currently has a bestcourses score of 9.5/10, which makes it a great course to learn from. On our entire platform, only 15% of courses achieve this rating!
Crash Course Electronics was designed for one thing -- to take you from mystery to mastery in Electronics and PCB Design. This massive course was custom made for those interested in learning electronics from the ground up that wish to leverage that knowledge to build actual printed circuit boards (PCBs). There is no other course like this in existence that has the depth and breadth of Crash Course Electronics. The course starts with atomic physics and the electron, before you know it you are learning Ohm's Law, circuit analysis, AC, DC, complex impedance, RC and RL circuits, filters, amplifiers, transistors, FETs, analog and digital theory -- too much to list here!
But, unlike other courses that are highly technical and math based. Crash Course Electronics was designed to be taken as a journey with the instructor. Each lecture building on the last, each new concept like a new puzzle approached in many different ways. The most complex topics and mathematical concepts are distilled down into understandable lectures and we have a lot of fun doing it! I had to learn this stuff at one point and remember how hard it was, so I approach each lecture as if we are both learning for the first time and make no assumptions about what you know or don't know.
As we progress through the lectures, expect to see every circuit and idea worked out on the black board, virtually simulated (with Labcenter Proteus), and built by hand right in front of your eyes in high def, ultra clean video and audio. Not only will you learn all the theory and practical aspects of Electrical Engineering, but my 35+ years of experience with electronics will be downloaded to your brain with countless real-world tips and tricks that will take you from a hobbyist to a deep understanding of the subject matter.
Then when we have all the basic electronic theory under our belts, buckle in for something you have never seen -- we will build, not one, not two, but three complete products! We will talk about the design, the motivation, look up parts, background information, and then design the circuits together like colleagues, lay them out in Altium CircuitMaker, route them, verify and produce manufacturing files. If that wasn't enough, we will take those files and go out on internet and send them to a number of online manufactures and get them ready for production, all you have to do is hit SUBMIT!
Last, but not least -- the course is based on my college text book "Design Your Own Video Game Console" aka "The Black Art of Video Game Console Design" -- this 800+ page book is included free of charge (the PDF version) with the course. Although, we won't be talking about game consoles in this course, we will be using the text for its theory, electrical engineering and PCB design chapters.
What you will learn
- Students will be able to analyze and construct basic analog and digital circuits. As well as design printed circuit boards, assemble and get them running.
- Students will be able to leverage this knowledge to build and produce electronic products completely themselves.
- Students will be able to use numerous CAD and design tools such as schematic entry, PCB layout and routing, circuit simulators, MATLAB, and more.
- Students will learn how to use basic electronics lab equipment such as oscilloscopes, power supplies, signal generators, and more.
- Students will learn hands on techniques such as circuit construction with solderless breadboards, wire wrapping, and soldering.
- A modern Windows PC (or VM) capable of running various CAD and design tools used in this course such as Altium CircuitMaker, Labcenter Proteus, Matlab, and more.
- A High School or equivalent understanding of mathematics.
- Since the course is about electronics, to get the full benefit of the course, you will need to follow along and build the circuits. Thus, access to breadboards, power supplies, tools, parts, etc.
- A lot of patience! This is a university level course with many 1 hour lectures. There's a lot of material to cover, and we are here to learn this cold, inside and out!