News & Updates

Altium Essentials: Workspace Folder Structure is a tutorial series designed for PCB designers who are learning the fundamentals of navigating an Altium workspace. This playlist walks through key Explorer panel skills, including multiple ways to open it (via keyboard shortcuts, menus, panel buttons, and workspaces), navigating projects, and understanding the panel’s six core information areas.

Check out our new, in-depth NFC Reader Project tutorial! In this two-part video series, we design an ESP32-based NFC transceiver board from schematics to PCB layout. In Part 1, we dive into the TRF7970A NFC chip from Texas Instruments and guide you step-by-step through the complete design process in Altium.

Explore key HDI design strategies, from calculating aspect ratios and optimizing pad diameters to managing drill tolerances and refining stack-ups for improved signal integrity. This comprehensive review highlights practical solutions to common HDI challenges, including via-in-pad layouts, clearance violations, and layer thickness adjustments for both mechanical and laser drilling processes.

Stop wasting time on manufacturing rework. This guide shows you how to set up Altium’s design rules to prevent the 13 PCB issues that most often derail production ensuring your boards are built right the first time.

Are you curious about what’s inside a microcontroller module? Join us as we take a closer look at the Texas Instruments CC3235 Wi-Fi module under the microscope. In this video, we’ll explore its key components, including the microcontroller, flash memory, and RF circuitry, and explain how they work together to power the module.

Design professional harness systems in Altium with confidence. Follow this comprehensive tutorial to learn multiboard project setup, create wiring diagrams, visualize in 3D, and produce manufacturing-ready documentation complete with ECAD-MCAD integration for precise wire length measurement.

Discover how to upgrade your Arduino Nano-based PCB design into a professional, custom PCB. This tutorial walks through the process of replacing development boards with individual components to create a production-ready design, using a real drone project as the example.

This detailed guide walks you through the pros and cons of each approach and offers proven strategies for managing component data, whether you're an independent designer or overseeing libraries for an entire organization.

Sawtooth Rounding for Length Tuning improves signal‑path accuracy by applying controlled corner‑rounding to sawtooth geometries during both Interactive Length Tuning and within‑pair matching in the Auto Tuning engine. Discover this capability and additional innovations on our Coming Soon page.

The Z-Axis Clearance Rule checks the shortest distance between copper features on different layers in a PCB design. It is available in both the Constraint Manager and the legacy PCB Rules Editor. Discover more new features in Altium on our Coming Soon Page.

Now supports true arcs instead of approximated curves in copper pours. This enhanced engine marks a major advancement in the polygon pour process in Altium Designer, delivering smoother and more accurate copper shapes. Native arc rendering improves visual quality and helps ensure cleaner, more professional PCB designs.

Watch this tutorial to learn the fundamentals of Rigid-Flex design. We cover everything from understanding polyimide materials and adhesive layers to building complex, multi-layer Rigid-Flex constructions that are ready for manufacturing.

Discover how to draw and define antipads in Altium with this complete tutorial. Learn three different methods for creating antipads around vias. From simple design rules to advanced polygon cutouts for both basic and complex PCB designs.

Explore this in-depth tutorial featuring real fabrication drawings, stackup specifications, and drill tables - all created using Altium Designer’s Draftsman tool. Learn essential insights into PCB data management and manufacturing requirements from an industry perspective.

This tutorial uncovers the key difference between ideal, lossless impedance calculations and real-world signal behavior giving you practical techniques to design controlled impedance PCBs that deliver reliable performance.

Explore our in-depth investigation into practical simulations using both Altium Designer and Polar Si9000. We demonstrate impedance sensitivity analysis and reveal the real limitations of optimizing reference plane proximity for improved signal shielding.