News & Updates
Your design data may be more exposed than you think. This webinar shows how to identify common security gaps and secure engineering workflows with centralized access control and governance.
Your flex PCB may look perfect in CAD but coverlay doesn't stay perfectly still during manufacturing. This article reveals why designing for lamination behavior is one of the most important steps in building reliable flex circuits.
As hardware development grows more collaborative, disconnected point tools can introduce data inconsistencies, traceability gaps, and costly coordination challenges. This article examines how integrated PCB design environments connect design, mechanical, supply chain, and review workflows to improve efficiency throughout the product lifecycle.
Signal integrity and power integrity are closely connected, with problems in one often affecting the other as designs become faster and more complex. This webinar explains how integrated analysis workflows help engineers evaluate PDN performance, identify potential issues early, and improve overall design quality.
Every manual handoff adds time and risk to the product development process. This article shows how modern design workflows automate routine tasks, improve data visibility, and help engineering teams focus on innovation instead of administration.
Your signal may be perfect on the PCB and fail the moment it crosses a connector. This article explores the hidden SI challenges in multi-board systems and how engineers can eliminate them before they become costly debugging sessions.
Still building BOMs the hard way? Discover how modern workflows can help you create a prototype-ready BOM faster while improving visibility into pricing, availability, and risk.
This article examines the challenges of maintaining power integrity and controlling EMI in complex multiboard systems. It provides practical strategies for managing return paths, connector transitions, and power distribution across interconnected assemblies.
Learn how Agile Teams evolves beyond traditional PCB design workflows to support connected product development. This webinar explores how centralized data, collaboration tools, and governance capabilities help teams accelerate delivery while maintaining control.
Using separate tools often creates inefficiencies and increases the risk of mistakes. This article explains how integrated design environments streamline workflows by keeping design data connected and accessible.
PCB design challenges change significantly as organizations scale. This article explores the key differences between mid-size and enterprise design environments, from collaboration and governance to data management and workflow automation.
Not all BOM solutions work the same way. This article explains the key differences between BOM tools and BOM portals, and why real-time data and collaboration are becoming essential for modern electronics development.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.