BOM denied. Redesign required. Dreaded words to any engineering team. Obsolete parts, RoHS / REACH compliance issues, inadequate stock, almost every engineer has been bitten by one of these issues at some point. Fortunately, it doesn’t have to be this way. Download this ebook to learn about the common causes of BOM rejection and how to prevent these issues in the future. As they say an ounce of prevention is worth a pound of cure.
40Gb/s Since When?
Let me tell you about when 40G really meant something. A big customer (rhymes with Disco) set up a demonstr...
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What is the Rapid Prototype Development Process and What are the Benefits?
A rapid prototype development process is different for each product being worked toward, however, smart PCB design tools always help.
Failure Analysis Methods in PCB Design
Failure analysis methods enable board designers to create circuit board designs that withstand potentially hazardous environments or component stress.
What is Maintenance Engineering? Circuit Risk and Design Knowledge
Maintenance engineering for PCB design is a process that can be begun within the design phases with smart component consideration and layout.
PCB Cost Breakdown: Functionality vs Manufacturability
When considering a PCB cost breakdown, you can certainly accommodate your design around a price point with tolerances and strong supplier communication.
Multi-board Etching: Managing Rigid-Flex Designs and Conductivity
With multi-board etching, it is important you consider what may affect the conductivity of your board and its thermal management properties.
4-Layer PCB Blind Via: 3D Printing vs. Traditional Manufacturing
To properly manage 4-layer PCB blind vias, you’ll need to know what manufacturing and production you’ll be able to count on and how to manage a stackup.
Growth of Rapid Prototyping Industry Ushers a New Era of PCB Engineering
The growth of rapid prototyping encourages many new potential electronic innovations to be produced much faster.
Using PCB Stress Test Analysis to Ensure Device Reliability
Performing stress test analysis on schematic should not be an option, but a major part of your PCB development. Read this blog to see how it ensures board reliability.
Printed Circuit Board: An Introduction and the Basics of Printed Circuit Boards
There are a lot of steps involved in the design and manufacturing of a printed circuit board. Here we will describe these basic steps to outline the process.
PCB Design for the 6-Layer Board Stackup
There are different ways to configure a PCB 6-layer board stackup, and you need to know which configuration will best serve the signal needs of your design.
PCB Layout for the Multilayer PCB Fabrication Process
Knowing what goes into the multilayer PCB fabrication process will help you to design a better PCB layout. Here is a brief explanation of what is going on.
What do Reliability Engineers do and Why is it Important for PCB Design?
Ever wonder what do reliability engineers do? In this blog, we explain exactly what they do and why should be glad that they do it.
Getting the Edge on Design For Test
Building a Printed Circuit Board that works as intended is only has hard as you make it as a designer. The truth is that the layout can be a source of success or failure.
PCB Layers Explained: Multilayer Boards and Stackup Rules
If you’re wanting PCB layers explained, you’ll need to hear all about multilayer boards, signals, and PCB stackup instructions.
Through Hole Soldering Process: A Guide for PCB Design
For a through hole soldering process, knowing through hole components and how to desolder or solder can come in handy in your PCB design.
Environmental PCB Etchant: Updating the PCB Manufacturing Process
While you may not need to know the chemistry behind environmental PCB etchant, designing for it can provide unique power sourcing and reliability challenges.
Incorporating the Principles of PCB Manufacturing to Optimize Design
The best board design is not optimized unless it incorporates principles of PCB manufacturing. To understand why this is true, read this blog.
Final Details: the Fabrication and Assembly Drawing
To finish your printed circuit board design correctly and on time, you need powerful design tools to help you create precise fabrication and assembly drawings.
Reverse Engineering of Mechanical Parts: Resolving Component Obsolescence
Through reverse engineering of mechanical parts, even component failure of obsolete parts can be resolved with thorough problem solving process.
EPEAT Certification | Introduction to Environmental Electronics Manufacturing