News & Updates

As the first article in the "Mastering EMI Control in PCB Design" series from our new asset Dario Fresu, this piece explores signal propagation in PCBs, highlighting the crucial roles of impedance, dielectric materials, and trace geometry in maintaining signal integrity.

Discover essential strategies for high-speed PCB design, focusing on signal integrity, EMI mitigation, and thermal management. Our latest article provides insights on managing crosstalk, optimizing grounding, and addressing thermal challenges to ensure reliable PCB performance.

Designing microvias with sintered paste in rigid-flex PCBs offers enhanced electrical conductivity and mechanical strength, crucial for high-density applications. Our new article explores the benefits of sintered paste and provides essential design tips to optimize microvia performance and reliability.

Watch our webinar to learn how our centralized electronics design data platform can quickly integrate with your IT access, tracking, and compliance tools, while also making it easier to work in teams.

Our new article outlines strategies to achieve a 10% reduction in PCB costs by optimizing design and material choices, such as adjusting stack-up materials and hole sizes, using lower-cost parts, and considering single-sided assembly. These techniques help reduce expenses without sacrificing quality.

Check how Altium 365 helps eliminate EDA software vendor lock by enabling multi-CAD support in the cloud. This allows users to work with different CAD file formats within a single platform, enhancing collaboration and reducing the need for additional licenses. This approach offers greater flexibility and is set to transform the industry.

High-speed signal integrity is essential in PCB design to ensure data accuracy and system reliability. Key issues like impedance mismatches, crosstalk, and signal reflections need to be addressed through strategies such as controlled impedance traces, differential pairs, and suitable material choices. Check out our first article of the series about this topic.

Our new article on signal integrity in multi-board PCBs covers essential aspects like connector pinouts, cable designs, and interconnect strategies. These factors ensure reliable performance in high-speed applications across industries such as military, aerospace, and AI.

Discover how multi-CAD support is transforming electronics design with Altium 365 by enabling seamless integration of diverse CAD file formats. This innovation addresses vendor lock-in issues, boosting collaboration, version control, and project management across different CAD tools.

We all want to pack more into our PCB designs, but the smallest via isn’t always the smartest one. Dive in to learn how picking the right structure can save you headaches down the line.

Structural electronics integrates electronic functionality directly into the physical structure of a product, eliminating the need for traditional circuit boards. This article examines how advances in materials, additive manufacturing, and flexible substrates are enabling compact, 3D, and wearable systems with enhanced performance and design freedom.

In ultra-HDI designs, soldermask is no longer a passive coating but a pivotal element that can determine manufacturability. This article explores why mask registration, resolution, and feature tolerances become critical as line spacings shrink below 50 µm.

When the margin for error is nearly zero, aerospace engineering demands a design process that’s seamless across all domains. Here, we explore how ECAD-MCAD co-design delivers an integrated workflow that supports first-pass success and compliance with strict aerospace standards.

Many PCB assemblies fail not because of exotic faults, but due to basic issues like incorrect BOM entries or footprint mismatches that force rework or scrap. This article dives into the most common causes and how to prevent costly defects in your design-to-manufacturing process.

Forget one-shot AI hacks Ari Mahpour shows the thoughtful, sustainable way to integrate AI into embedded firmware development. Learn the core principles (planning gate, HAL abstraction, observability, timeout design) that can help you push your efficiency 5-10 times in real hardware projects.

Join Altium at PCB West 2025 in Santa Clara, CA, on October 1! Stop by Booth 300 for the official launch of the new Altium platform, built on the foundation of Altium Designer and Altium 365. Be sure to check out our live demos of Altium Develop and Altium Agile.

Moving from single-board to multi-board systems is a leap in complexity. You must manage not just routing, but power, signal integrity, mechanical fit, and regulatory requirements across boards. In this article, you’ll discover how Altium’s advanced simulation and compliance tools help engineering teams overcome these challenges and deliver reliable multi-board solutions.

As electronics continue to miniaturize and functionality increases, even minor misalignments between enclosures and connectors can derail a project. This article explores how early integration of ECAD and MCAD workflows helps detect and eliminate those costly issues before the first prototype is built.

Electronics hardware development is falling behind broader product development disciplines due to fragmented workflows, poor collaboration, and limited compliance visibility. This gap introduces risk, delays, and missed opportunities but executives see real business value in modernizing electronics development through better integration, traceability, and lifecycle visibility.

High-mix, low-volume (HMLV) electronics manufacturing requires agile sourcing strategies to handle shifting BOMs, erratic lead times, and component volatility. All while controlling costs and ensuring compliance. Cloud-based tools like Altium provide real-time component visibility, BOM collaboration, and supplier integrations to help navigate HMLV complexities.

As robotics systems become increasingly miniaturized and intricate, ensuring perfect fit, form, and function across electrical and mechanical domains is critical to avoid design setbacks. Real-time ECAD-MCAD integration with two-way sync empowers teams to streamline workflows, reduce PCB rework, and deliver more reliable designs faster.

We are excited to announce the launch of three new platform-based solutions that will transform the way electronic products are designed, built, and delivered: Altium Discover, Altium Develop, and Altium Agile. These solutions are designed to simplify processes, accelerate innovation, and make collaboration seamless across the entire electronics lifecycle. Together, they realize the purpose of Altium and Renesas: To Make Our Lives Easier.

Discover how short-sighted ordering practices fuel volatility in the semiconductor market and why smarter, data-driven approaches are key to building resilience and sustainability.

Mechanical engineering teams frequently encounter delays from fragmented communication, disconnected toolchains, and inefficient synchronization processes. This article examines five critical workflow bottlenecks and highlights how ECAD-MCAD integration with real-time, bidirectional updates can eliminate rework and accelerate design iterations.

Optimizing multiboard PCB systems demands visibility across logical, physical, and manufacturing domains. This article outlines how Altium’s environment lets engineers establish system‑level schematics, 3D spatial validation, harness documentation, and synchronized outputs to streamline design and production.