News & Updates
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Properties Panel Tuning
High-speed PCBs often require tuning groups of tracks, both single and differential. Altium Designer includes powerful tools that allow you to solve such tasks quickly and with high quality. Study this document and achieve the desired result even faster.
On-Demand Webinar
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Three Methods for Building MCAD Ready Components
One of the most difficult and frustrating things to arise when traveling to a foreign country is the language barrier. Communicating a simple greeting can sometimes seem like a big hassle. The same thing is true for different CAD tools. When your tools aren’t speaking the same language, you’re going to run into problems. Bridge this gap by building out your component libraries with everything it takes to truly define a component, including 3D models that seamlessly propagate into the PCB editor and beyond.
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Reflectionless Matching vs. Conjugate Matching: An Apparent Contradiction
There is one confusion related to impedance matching that comes up again and again, and it appears to be a fundamental confusion between reflection and power delivery. This leads to an apparent contradiction that arises when we try to generalize power delivery to wave reflection, despite the fact that the two were not meant to be related.
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Properties Panel Routing
Routing is one of the most time-consuming stages of PCB design. Altium Designer has a large set of tools that allow you to do it as accurately and quickly as possible. This document will help you to learn how to manage your routing effectively and use it to its fullest extent.
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Quarter-Wave Transformer Design For Real and Reactive Loads
RF systems operate with specific impedance values across entire interconnects, including on PCBs. Not all RF components are packaged in integrated circuits with defined impedances, so impedance matching circuits and line sections are needed to ensure signal transmission between different sections of an interconnect. One of these impedance matching techniques is the quarter-wave impedance transformer, which can be implemented as a printed trace with specific impedance.
Blog
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Altium Designer 22.10 Update
We are happy to announce that the Altium Designer 22.10 update is now available. Altium Designer 22.10 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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Component Warpage Causes in a PCB
A staff member at a PCB manufacturer once explained to me that they thought we were having an issue with a package warping. Unfortunately, component warping can occur both in a PCB and in components. In this article, we'll give an overview of warpage in a PCB, specifically in the circuit board and in the components.
On-Demand Webinar
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8 Reasons to Store Your Components in Altium 365
Working with local libraries seems like a simple solution, but we often don’t take into account the added time spent maintaining libraries and sharing them between team members. There is no good way to avoid duplicate efforts with component creation and no standardization to ensure consistent naming. Worst of all, there is no way to identify the latest component revision, and library files can be easily corrupted or misplaced. This webinar showcases the advantages of component storage in Аltium 365 to resolve the issues of local libraries and component management.
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RF Signal Chain and Link Budget Basics
If you're designing a wireless IoT device, and you know how to calculate the link budget, you can reasonably estimate whether your signal will reach its destination and be read by the receiver. To calculate the link budget, the designer needs to know something about all other sources of gain and loss in the system. Once link budget is determined, the designer can judge whether some modification is needed in their RF signal chain.
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Best Methods for Calculating SMD Pad Size in PCB Design
SMD components require precisely sized pads for soldering during assembly. The designer is responsible for ensuring pad sizes are correct, either by calculating them and comparing with footprint data, looking through datasheets, or by memorizing SMD pad size standards. If you have a component and you don't have access to the footprint, and you decide to biuld the footprint yourself, what resources are available to ensure you have the correct pad size?
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Can You Fix a Warped PCB?
Before we get too deep into this article, I’ll give you the simple answer. You probably can’t fix warping in your PCB after it’s already been fabricated. You can prevent an unwarped board from becoming warped during assembly, but only as long as materials were selected properly and the board is put into reflow correctly. We’ll run over some of these points in this article, and I’ll examine some points that might help you recover a warped board.
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.
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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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