News & Updates

Learn how to enhance part selection by using real-time supply chain data. This article shows how integrating insights like availability and lifecycle status helps you make smarter, risk-aware design choices.

See how the Signal Analyzer by Keysight in Altium Designer lets you run signal integrity checks directly within your design environment. Read our article to learn how to effectively manage impedance, return paths, stackups, and more.

Ensure power and signal integrity with the Keysight Bundle in Altium Designer. Catch issues early, reduce rework, and optimize your PCBs - all within one integrated environment featuring Signal & Power Analyzer.

Final component validation is the last critical check before building a prototype, ensuring all parts are accurate, available, and viable. This article shows how Altium’s integrated tools—like SiliconExpert, Z2Data, Octopart, and BOM Portal—help teams avoid costly surprises and prepare with confidence.

Explore the essential steps and tools for Harness Design in Altium Designer 25, from initial setup to final documentation. The article highlights how the unified design environment streamlines the entire process, improving efficiency and project integration.

Altium Designer is constantly evolving, with powerful new features and updates on the way. Get an exclusive first look at what’s coming next—visit our Coming Soon page to stay up to date with the latest innovations.

Struggling to keep harness and system designs in sync? In our brand-new article we explore how integrating PCB and harness design workflows can eliminate errors, improve collaboration, and accelerate your development process. Discover a smarter approach to connecting your harness to the system.

Balancing cost, quality, and availability is key when selecting electronic components. This article explores how to make informed choices that meet design goals while managing supply chain and sourcing challenges.

Wire harness failures can lead to significant financial losses, production delays, and safety hazards. This article delves into real-world examples of such failures across industries and illustrates how modern CAD tools can help prevent these costly issues.

Learn how to ensure electronic components meet the demands of harsh environments. This article explores key standards, testing protocols, and design considerations for building resilient systems that perform reliably under extreme conditions.

This article explores the rise of printed electronics as a lightweight, flexible, and cost-effective alternative to traditional PCB design. It highlights key benefits like reduced manufacturing costs, sustainability, and new design possibilities—especially in wearables, medical devices, and automotive applications. 

Many electronics teams still rely on documents and spreadsheets for requirements management—leading to gaps, errors, and delays. Alexsander Tamari explores better tools to improve traceability, collaboration, and project outcomes.

Explore how Ultra HDI technology is redefining PCB design. This article breaks down the benefits and manufacturing considerations of Ultra HDI, and how it enables next-level routing density and miniaturization in advanced electronics.

This article introduces 3D-MID (Mechatronic Integrated Devices), a technology that integrates circuitry into 3D plastic structures to reduce size, weight, and complexity. It explains the production process, use cases, and benefits of 3D-MID in sectors like automotive, medical, and consumer electronics.

Ensure signal integrity and minimize EMI in complex electronics. Our new article explains how to address electromagnetic interference and signal integrity challenges in multi-board PCB designs, offering practical strategies and layout considerations for reliable system performance.

Connector misalignment can compromise the reliability of power delivery in multi-board systems. This article explores the causes, effects, and prevention strategies for connector misalignment in power distribution, helping you design more robust multi-board PCB systems.