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.
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: Octopart 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.
If you’ve ever been frustrated by clunky PCB-to-mechanical workflows, you’re not alone. Learn why collaboration between mechanical and electrical engineers is harder than it should be and what’s behind the struggle.
Eliminate costly mismatches and assembly delays. This whitepaper shows you how to apply a unified digital thread across PCB, multi-board, and harness workflows - bridging ECAD/MCAD silos, ensuring connector accuracy, mechanical fit, and real-time collaboration for flawless system design.
This guide walks you through creating an MCP server that turns AI interactions with Arduino into a predictable, automated process handling tasks like board listing, compilation, and serial communication via a fast, menu‑driven interface. Skip the guesswork of prompt nudging and reduce the risk of unintended device issues.
Our brand-new article explains how zero-voltage switching improves performance in DC/DC converters through reduced losses, lower EMI, and smarter gate-drive control.
Take your first steps into mixed-signal design with the Renesas GreenPAK Introduction Kit. Ari Mahpour shows how to design, simulate, and validate a clock divider project, making it easy for beginners to start experimenting with programmable mixed-signal devices.
Targeted at procurement professionals in the automotive industry, the article outlines the evolving pressures of sourcing components for electrified and connected vehicles. It highlights Octopart’s ecosystem as a unified tool that centralizes availability, compliance, pricing, and lifecycle intelligence to optimize sourcing efficiency.
"Stack‑Up to Success" highlights how a carefully planned PCB stack‑up is foundational to preventing warpage, managing impedance, and avoiding manufacturing delays by clearly communicating layer construction, materials, and tolerance requirements to fabricators.
Gain a clear understanding of the fundamental elements within integrated circuits. This guide examines their structure, function, and role in system performance, knowledge that’s vital for anyone involved in sourcing or developing electronic designs.
Misaligned connectors can cause major issues in multi-board assemblies. In this article, David Marrakchi shows how Altium’s 3D tools help detect and fix alignment problems early in the design process.