News & Updates
When designing high power circuits (usually very high voltage and/or current), you’ll need to create a regulator from scratch and place it in your PCB layout. It's also the case that you may want to model a real component using discretes in a simulation in order to qualify the system's expected operating regime. As part of buck converter design, you can easily run a buck converter simulation directly in Altium Designer’s schematic editor. Here’s how you can access these features in the newest version of Altium Designer.
Just as you get used to PCIe 5.0, they decide to release another standard! The newest iteration of PCIe is Gen6, or PCIe 6.0. PCIe 6.0 brings a doubling of channel bandwidth through introduction of PAM-4 as the signaling method in high-speed differential channels. This signaling method is a first for PCIe, and it’s an important enabler of the doubled data rate we see in the current standard. In this article, I’ll run over the important points in the standard and what PCB designers can expect when designing these channels.
One of the common implementations of SPI and I2C in a PCB layout is as a protocol for reading and writing to an external Flash memory. Flash chips are a very common component in embedded systems and can offer high capacities of non-volatile memory up to Gb values. When choosing a memory chip, you'll want to match the application requirements and functionality with the bus speed you need for read and write operations in your memory chip. There is also the matter of the type of Flash memory you'll need to access (NOR vs. NAND).
Being able to design a board in your ECAD environment doesn’t mean that it is manufacturable in real life. You have to make sure your CAD representation won’t have any problems in the real world by taking some precautions. For example, there are certain areas that need to be free of components and have specified clearances like your board edge. This webinar will help you get acquainted with the creation and modification of your board shape so that you can ensure manufacturability.
There is no SPI trace impedance requirement? The reality is that SPI lines only start to need impedance control when the length of the interconnect becomes very long. And because there is no specific impedance requirement in the bus, you have some freedom in channel design and termination. So what exactly qualifies as “very long” and when is some termination method needed? We’ll break it down in this article.
During this year's AltiumLive CONNECT event, I recall receiving an interesting question about the skin effect and the distribution of current due to the presence of ground in coplanar transmission lines. In this article, we'll look at the electric field around a transmission line carrying a signal, and how this might be impacted by the skin effect.
When you get your PCBA back from an assembler, you’ll notice the packaging materials used to pack and ship the PCBA. Those materials are specific to electronics, and if you build products on behalf of clients, it’s important to know the packaging materials used for packing and shipping electronics. In this article I’ll show the main set of materials and equipment used to package electronics assemblies.
Once you've got your PCB layout finished and you're ready to start preparing for manufacturing, one of the critical steps is to create PCB Gerber files. When you're ready to create your Gerber files, you need the right set of CAM processor tools that can take data from your PCB layout. In this article, we'll guide you through this process of how to make PCB Gerber files and show some example tasks you might need to perform to generate them.
There are many aspects to designing a PCB. One of the larger aspects has to do with managing your components. We all need components for our designs, but are those components in our library and designs up-to-date or even purchasable? These questions need to be answered before we can safely use them. Altium Designer® has several tools to help you manage the components in your libraries and designs.
One of the major factors impacting reliability of a PCBA is the use of teardrops on traces in the PCB. Like many aspects of reliability, the considerations also span into the signal integrity domain, particularly as more high-reliability products require greater data handling capabilities and run at higher speeds. In this article, I’ll break down the issues present in teardrop usage on differential pairs and how these may affect impedance.
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.
Starting with a simple board today doesn't mean your next project will stay simple. Learn how Altium Designer and KiCAD compare when designs become more complex, teams get larger, and products move toward manufacturing.
Learn how Agile Teams and Duro connect design and production workflows through a unified system of record. This webinar shows how structured change management and automated data synchronization help teams reduce errors and accelerate product releases.
Agile hardware development isn’t just about working faster, it’s about working together in real time. This article explores how shared environments for ECAD, MCAD, sourcing, and requirements management eliminate handoff delays and improve decision-making across teams.
Verification becomes much easier when requirements and system performance data stay connected automatically. This article explains how reusable parameters and V&V rules help teams detect violations earlier and validate designs with greater confidence.