The Altium Designer Circuit Board Design Course is an online, self-paced course that teaches you how to design PCBs using Altium Designer. In this course Learn everything you must know about Altium. The course covers everything from basic to advanced PCB design topics and includes over 10 hours of video tutorials and hands-on labs.
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Oct 03, 2021 · 5 Best + Free PCB Courses [2022 APRIL] 1. Top Circuit Design Courses (Udemy) 2. Crash Course Electronics and PCB Design (Udemy) 3. Learn the Art and Science of PCB Design with Eagle (Udemy) 4. Advanced Hardware Design (FEDEVEL Academy) 5. Online PCB Design Classes (Skillshare)
Today, I’d like to invite you to join my new course “KiCAD PCB Design“. The ultimate goal for this course is to help you learn KiCAD for PCB design and also to teach you a very systematic way in approaching hardware design projects. You can watch the overview video in the first section on Udemy.
This course will help you to know the basics of KiCAD and how to use it as a tool for PCB design projects. And it’ll also teach you how to formulate a project/product idea and document it in such a way that it becomes easier for you to plan and design each part of the complete system.
Use this link to get a discount coupon for the course, it’s on SALE right now. For only 10$ Coupon is valid for a couple of days. So, don’t miss out on this!
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Learning how to design a PCB layout can be separated into two major tasks. Before you create a layout, you need to create a schematic that includes the components your system needs and shows connections between them. Once your schematic is created and successfully verified, you can transfer your design to a PCB layout, which defines the physical architecture of your board. This may seem simple enough, but each task requires that several interdependent steps. Moreover, there are constraints and guidelines that must be followed to ensure your design can actually be manufactured.
Zachariah Peterson has an extensive technical background in academia and industry. He currently provides research, design, and marketing services to companies in the electronics industry. Prior to working in the PCB industry, he taught at Portland State University and conducted research on random laser theory, materials, and stability. His background in scientific research spans topics in nanoparticle lasers, electronic and optoelectronic semiconductor devices, environmental sensors, and stochastics. His work has been published in over a dozen peer-reviewed journals and conference proceedings, and he has written 1000+ technical blogs on PCB design for a number of companies. He is a member of IEEE Photonics Society, IEEE Electronics Packaging Society, and the American Physical Society, and he currently serves on the INCITS Quantum Computing Technical Advisory Committee.
Altium Designer includes a wizard that helps you quickly create design rules that are customized for your device. See how the Design Rule Wizard can help you set up your PCB design environment. Don’t wait until your first manufacturing run to discover problems in your design.
PCB Fabrication and Assembly 1 PCB fabrication processes: Understanding how PCBs are fabricated at a high level, as well as what creates board failures and what to expect when a production order is placed. 2 PCB assembly: Automated and manual assembly procedures are one of the final steps in circuit board production, and boards need to be designed to ensure accurate assembly. 3 Manufacturing documentation: Getting a board into manufacturing requires converting CAD files into manufacturing files, which a fabricator will use to create a real PCB.
Zachariah Peterson has an extensive technical background in academia and industry. He currently provides research, design, and marketing services to companies in the electronics industry. Prior to working in the PCB industry, he taught at Portland State University and conducted research on random laser theory, materials, and stability.
A circuit design is the first step to any project in electronics. And this begins with creating a schematic diagram of the circuit’s components. This design will include details of how pins are connected on a circuit board amongst many other things.
KiCAD. This is an open-source electronics design package. It includes an editor for creating schematic designs and making professional PCB layouts. It also has up to 32 copper layers and an option for 3D angles and views. If you are familiar with the software architects use, AutoCAD, then you’ll pick up KiCAD quickly.
A PCB is sort of like a layer cake or lasagna- there are alternating layers of different materials which are laminated together with heat and adhesive such that the result is a single object.
PCB is an acronym for printed circuit board. It is a board that has lines and pads that connect various points together. In the picture above, there are traces that electrically connect the various connectors and components to each other. A PCB allows signals and power to be routed between physical devices.
Printed circuit board is the most common name but may also be called "printed wiring boards" or "printed wiring cards". Before the advent of the PCB circuits were constructed through a laborious process of point-to-point wiring. This led to frequent failures at wire junctions and short circuits when wire insulation began to age and crack.
When we refer to a double sided or 2-layer board we are referring to the number of copper layers (2) in our lasagna. This can be as few as 1 layer or as many as 16 layers or more. PCB with copper exposed, no solder mask or silkscreen.
The copper thickness can vary and is specified by weight, in ounces per square foot. The vast majority of PCBs have 1 ounce of copper per square foot but some PCBs that handle very high power may use 2 or 3 ounce copper.
Solder is the metal that makes the electrical connections between the surface of the PCB and the electronic components. Being metal, solder also serves as a strong mechanical adhesive.
FR4. The base material, or substrate, is usually fiberglass. Historically, the most common designator for this fiberglass is "FR4". This solid core gives the PCB its rigidity and thickness. There are also flexible PCBs built on flexible high-temperature plastic (Kapton or the equivalent).