News & Updates

Rigid-flex PCBs help modern devices get smaller, lighter, and more compact by eliminating connectors and fitting into tight 3D spaces. This article explains how to design them properly to avoid common reliability issues.

This webinar walks through the complete post-release workflow, from generating a managed BOM to sourcing components and assembling the first prototype. It demonstrates how integrated tools streamline data enrichment, supplier selection, and guided assembly to reduce delays and errors.

BOM management is no longer just a checklist. It’s becoming a real-time engine for smarter decisions! Discover how AI, automation, and connected systems are transforming BOMs into powerful tools for navigating supply chain uncertainty.

Working across different ECAD tools can make design reviews messy and inefficient. This article shows how a multi-CAD viewer simplifies collaboration by letting teams view, comment, and manage designs in one place.

This article examines how fragmented ECAD-MCAD workflows create costly misalignments, late-stage conflicts, and inefficiencies in multiboard system design. It shows how unified, collaborative platforms enable real-time synchronization, digital twins, and cross-domain visibility to eliminate rework and streamline development.

Choosing the right PCB tool can define your entire design workflow. Discover how Altium Designer empowers professional product development, while Flux.ai keeps things simple for fast experimentation.

Rigid-flex stackups are more complex than they seem and getting them wrong early can lead to costly failures later. This article shows how smart decisions around materials, transitions, and layer structure help ensure a reliable design.

Understand how structured design reviews within Altium Agile Teams enhance visibility, traceability, and cross-team collaboration. This webinar highlights methods to detect issues early and optimize your development workflow.

Parsing long datasheets manually slows down embedded development and introduces errors. This article shows how to use a local LLM pipeline to convert datasheets into structured data that speeds up driver creation.

PCB simulation isn’t one-size-fits-all and that’s where it gets interesting! Discover the wide range of tools available, from quick circuit checks to advanced multiphysics simulations, and how they help you design with confidence.

This article explores the shift from PCB-centric design to complex, system-level development where wiring and harnesses play a critical role in product performance. It highlights how unified electromechanical workflows and bi-directional ECAD–MCAD integration improve accuracy, reduce delays, and ensure reliable, production-ready designs.

Want to catch manufacturability issues before they turn into expensive delays? Discover the essential DFM tools from real-time checks to post-layout analysis that help you get your PCB right the first time.

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.

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.

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.

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.