News & Updates
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When to Use Tented Vias in Your PCB Layout
There are some guidelines I see many designers implement as a standard practice, often without thinking about it. Some of these practices are misunderstood or implemented without best practices. Others are implemented without thinking about the potential problems. One of these is the use of tented vias, which is sometimes implemented in a PCB layout by default. Is this always the right practice?
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How to Impedance Match and Terminate Capacitive Loads
The idea of a purely capacitive load is something of a fallacy. Yes, capacitors exist, but all capacitors are non-ideal, and it is this deviation from a theoretical capacitance that determines how to impedance match a load that exhibits capacitive behavior. Let’s take a look at this important aspect of interconnect design and see what it really means to terminate a capacitive load.
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Using Altium 365 Over Your Vanilla Version Control System
There are all sorts of version control systems out there that people have been using with their PCB design software. As discussed in Why Use a Version Control System, we looked at different options ranging for local hard drive storage to sophisticated online revisioning systems. In this article we will be reviewing the differences between a standard VCS and Altium 365.
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Why Use a Version Control System in PCB Design
Version Control Systems (VCS) have been around for many decades within the software world but can be surprisingly new to some folks in the electronics design industry. This article will cover what a VCS is, what it does, and why you should be using one for your PCB design projects.
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Meeting Standards: IPC 6012 Class 3 Annular Ring
Designers often conflate leftover annular ring and pad sizes - they need to place a sufficiently large pad size on the surface layer to ensure that the annular ring that is leftover during fabrication will be large enough. As long as the annular ring is sufficiently large, the drill hit will not be considered defective and the board will have passed inspection. In this article, I'll discuss the limits on IPC-6012 Class 3 annular rings as these are a standard fabrication requirement for high-reliability rigid PCBs.
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Decoding PCB Fabrication Notes
Sending a board out for fabrication is an exciting and nerve-wracking moment. Why not just give your fabricator your design files and let them figure it out? There are a few reasons for this, but it means the responsibility comes back to you as the designer to produce manufacturing files and documentation for your PCB. It’s actually quite simple if you have the right design tools. We’ll look at how you can do this inside your PCB layout and how this will help you quickly generate data for your manufacturer.
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Design Basics for HDI and the HDI PCB Manufacturing Process
As the world of technology has evolved, so has the need to pack more capabilities into smaller packages. PCBs designed using high-density interconnect techniques tend to be smaller as more components are packed in a smaller space. An HDI PCB uses blind, buried, and micro vias, vias in pads, and very thin traces to pack more components into a smaller area. We’ll show you the design basics for HDI and how Altium Designer® can help you create a powerful HDI PCB.
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Is It Printed or a Component? All About PCB Test Points
Test points in your electronic assembly will give you a location to access components and take important measurements to verify functionality. If you’ve never used a test point or you’re not sure if you need test points, keep reading to see what options you have for test point usage in your PCB layout.
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How to Design to a Differential Impedance Specification
The concept and implementation of differential impedance are both sometimes misunderstood. In addition, the design of a channel to reach a specific differential impedance is often done in a haphazard way. The very concept of differential impedance is something of a mathematical construct that doesn’t fully capture the behavior of each signal in a differential trace. Keep reading to see a bit more depth on how to design to a differential impedance spec and exactly what it means for your design.
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The Main Advantages when using Draftsman to Create a Component Mounting Drawing
Quite often, a standard assembly drawing is not enough to ensure the quality of a PCB assembly, especially when designing high-density boards. It would also be helpful to include additional detailing for simpler devices. The use of a Draftsman document brings an elegant, yet powerful solution to make these tasks easier.
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Altium Designer vs. Flux For Professional PCB Projects
Choosing the right PCB tool can define your entire design workflow. Discover how Altium Designer empowers professional product development, while Flux.ai keeps things simple for fast experimentation.
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Rigid-Flex Stackups: Where Good Designs Go Wrong Before Layout Even Starts
Rigid-flex stackups are more complex than they seem and getting them wrong early can lead to costly failures later. This article shows how smart decisions around materials, transitions, and layer structure help ensure a reliable design.
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From Complexity to Clarity: Smart Design Reviews for Agile Engineering Teams
Understand how structured design reviews within Altium Agile Teams enhance visibility, traceability, and cross-team collaboration. This webinar highlights methods to detect issues early and optimize your development workflow.
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Building a Local-LLM Datasheet Extractor for IC Driver Development
Parsing long datasheets manually slows down embedded development and introduces errors. This article shows how to use a local LLM pipeline to convert datasheets into structured data that speeds up driver creation.
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Types of Simulation Tools For PCBs
PCB simulation isn’t one-size-fits-all and that’s where it gets interesting! Discover the wide range of tools available, from quick circuit checks to advanced multiphysics simulations, and how they help you design with confidence.
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Wiring the Future: The Shift to Unified Electromechanical Design
This article explores the shift from PCB-centric design to complex, system-level development where wiring and harnesses play a critical role in product performance. It highlights how unified electromechanical workflows and bi-directional ECAD–MCAD integration improve accuracy, reduce delays, and ensure reliable, production-ready designs.
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Best Tools For PCB DFM Checks
Want to catch manufacturability issues before they turn into expensive delays? Discover the essential DFM tools from real-time checks to post-layout analysis that help you get your PCB right the first time.
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Eliminate Your Design Friction with Agile Teams
Design friction from scattered data and disconnected tools slows down PCB development and leads to rework. This webinar shows how Agile Teams streamlines collaboration, aligns domains, and helps teams deliver faster with fewer errors.
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What Is an Integrated Design Environment for Electronics?
Using multiple disconnected tools slows down PCB development and increases the risk of errors. This article shows how an integrated environment keeps all design data connected, enabling faster workflows and fewer late-stage issues.
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What is the Best Cloud PCB Design Software?
Not all cloud PCB tools are created equal, especially when design complexity increases. This article breaks down key differences between cloud-native and hybrid solutions, helping engineers choose the right approach for performance and scalability.
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From Rework to Revenue: Digital PCB DFMA
This article explores how traditional, manual DFMA workflows lead to costly rework, delays, and poor collaboration across engineering teams. It shows how a connected, digital approach enables better data integrity, faster design cycles, and improved manufacturing outcomes.
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Introducing Octopart Discover: From Part Search to Solutions Discovery
Octopart has announced Octopart Discover, a new platform that shifts electronic component search toward system-level solution discovery. The tool connects design intent with relevant options, enabling engineers to evaluate tradeoffs and identify the best-fit solutions more efficiently.
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How to Choose the Right Components for Your BOM
A strong BOM can make the difference between smooth production and costly delays. Discover a practical approach to choosing components that stay available, meet compliance requirements, and keep your project on schedule.
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From Scattered Requirements to Confident Product Development
See how the Requirements Portal transforms disconnected requirements into a single, live source of truth that engineers can trust at every stage of a project! Real customer stories in the article prove it’s already helping teams cut down on rework and bring products to market faster.
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What is the Best PCB Design Tool For Students?
Students need PCB software that’s intuitive, affordable, and useful for building real skills. This article compares the strengths and weaknesses of leading design tools, from hobbyist platforms to industry-standard software.
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What Is Collaborative Engineering?
Collaborative engineering is all about breaking down silos so electrical, mechanical, and sourcing teams can work as one with shared data and real-time updates. This article shows how that approach helps you spot issues early, reduce rework, and get products out the door with fewer surprises.
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