News & Updates
Blog
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The High-Reliability PCBA Design and Test Challenge
High-reliability electronics must go through multiple rounds of testing and qualification to ensure they can withstand their intended operating environment. Designing to performance standards, whether the baseline IPC standards or more stringent industry standards, is the first step in ensuring a reliable circuit board. In this e-book, readers will gain a thorough look into PCB testing and analysis, starting from basic tests performed on bare boards and completed assemblies.
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AC Coupling Capacitors in PCIe Routing
Coupling capacitors find plenty of uses in analog applications and on differential protocols, acting essentially as high pass filters that remove DC bias carried seen on a signal. In the case of PCIe, there are a few reasons to place AC coupling capacitors on differential pairs beyond the fact that AC coupling capacitors are listed in the standard. In this article, we’ll look briefly at where to place coupling capacitors on PCIe links, as well as the reasons these are placed on PCIe links.
Blog
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Altium Designer 22.7 Update
We are happy to announce that the Altium Designer 22.7 update is now available. Altium Designer 22.7 continues to focus on improving the user experience, as well as performance and stability of the software, based on feedback from our users. Check out the key new features in the What's New section on the left side of this window!
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The Positive Impact of Supply Chain Visibility on Design to Cost
Design to cost is a lofty idea that is only perfectly executed when supply and demand for components are in perfect harmony. Unfortunately, the current landscape for component sourcing makes design to cost more of a balancing act rather than an exercise in price reduction. To help designers in their efforts to balance cost, capabilities, and procurement, we created this ebook to help users understand how modern supply chain tools can help in these complex design problems.
On-Demand Webinar
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Getting Started With File Comparison
One major benefit of using a version control system is the ability to compare PCB design revisions against one another. If you are comparing PCB designs, you need a version control system that is electrically intelligent. It’s important to know who made a change, and when they made it. Altium Designer® and Altium 365® make file comparison easy.
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A Brief Study of Stubs on a PCIe Connector
Stubs are an important topic in high-speed PCB design, and there is a longstanding guideline that stubs should always be removed from all vias on high-speed digital interconnects. While stubs are bad for high-speed lines, they do not always need to be removed. What is more important is to predict the loss profile and frequencies, and to floorplan appropriately to try and prevent such losses.
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PCB Layout Cleanup Before Manufacturing
Once you finish your placement and routing in your PCB layout, it can be tempting to wrap up the layout and send everything in directly to manufacturing. The reality is that the board may still need some work before it is considered finished. The cleanup you perform at the final stage of PCB layout will help you catch any outstanding errors that can't be programmed into your DRC engine, and it gives you a chance to add any outstanding details to the surface layers.
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Insulated Metal Substrates: Building an LED Panel
In this project we’ll be building a moderate sized LED panel on insulated metal substrate (IMS). This light panel has three different white balance High CRI LED types on it, warm, neutral and cool. By changing the brightness of the different white balances, the light from the panel can be adjusted to match other lighting, making it perfect for film use - but also creating perfect lighting for electronics work. As with all my projects, this LED panel is open source, you can find the Altium project files over on my GitHub released under the permissive MIT License.
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DFM in PCB Material Selection
Every design should begin with selecting the materials that will appear in the PCB stackup, as well as arranging layers in the stackup to support layout and routing. This section of our PCB manufacturing andc DFM crash course focuses on selecting the right materials for your PCB design. Materials should be selected given the particular design requirements outlined in your specifications.
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How to Start an FPGA PCB Layout For Your Embedded System
FPGAs come in quad or BGA packages that can be difficult to floorplan, especially with the high number of I/Os often implemented in these components. FPGAs offer a lot of advantages in terms of their reconfigurability, but they can require a lot of effort to layout and route without headaches. If you’ve never worked with an FPGA in your PCB layout, we have some guidelines that can help you get started.
NEW
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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.
NEW
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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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Bend Reliability: How Trace Geometry and Materials Impact Flex Lifespan
Focused on durability under repeated mechanical stress, this piece details how routing strategy, copper thickness, adhesive systems, and bend radius selection determine flex lifespan. Engineers will find actionable recommendations for reducing strain concentration and improving long-term performance in high-cycle applications.
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PCB Design Process: The EDA Design Approach
Dive into how a modern EDA workflow transforms PCB design by linking electrical, mechanical, and manufacturing requirements from idea to final release. With constraint‑driven integration, you can cut down on respins and bring better boards to market faster.
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Getting Started for Mechanical Engineers
Explore our collection of MCAD Collaboration walkthroughs, where you’ll discover how to synchronize mechanical constraints and keepouts, maintain traceability with advanced history and revision control, and streamline electromechanical connectivity through harness synchronization. These topics and many more are covered in this article.
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Are Your ECAD Tools Holding Back Engineers’ Productivity?
The article highlights that productivity issues often stem from tool limitations rather than engineer effort, especially as project complexity grows. ECAD tools that offer clear version control, cross-discipline integration, and workflow awareness are key to sustaining efficiency.
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How Integrated PCB Design Cuts Development Time for Complex Electronics
Fewer tool handoffs, fewer errors, and smoother collaboration that’s the power of integrated PCB design. Learn how unifying your design environment can cut development time and help you deliver complex electronics faster.
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Registration Challenges in UHDI: Why Fabrication Tolerances Matter in Your Layout
As UHDI structures shrink, achieving accurate layer-to-layer registration becomes less forgiving than ever. Learn why fabrication tolerances matter so much in ultra-fine geometries and how to design with registration limits in mind from the start.
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How Engineering Project Management Tools Are Changing Engineering Teams’ Productivity
Engineering project management tools play a critical role in managing timelines, resources, and cross-disciplinary coordination. This article breaks down the most impactful systems for improving execution and team performance.
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