News & Updates
One common question from designers is current-carrying capacity of conductors in a PCB. Trace and via current-carrying capacity are legitimate design points to focus on when designing a new board that will carry high current. The goal is to keep conductor temperatures below some appropriate limit, which then helps keep components on the board cool. Let’s dig into the current state of thermal demands on vias in PCBs and how they compare to internal and external PCB traces.
SPICE simulation saves you critical time in the prototyping phase. Understanding your simulation interface makes it simple to analyze how your circuits work in different scenarios. Altium Designer provides an intuitive, dedicated interface to support your simulation verification, setup, and analysis directly in your schematic environment. You also benefit from growing support for popular model formats, as well as generic models, simplifying circuit definition and simulation.
A combination of good printed circuit board design and good shielding mitigates EMI. Good PCB design for EMI shielding revolves around the layout, the placement of filters, and ground planes. A well-designed PCB minimizes parasitic capacitance and ground loops. Keep reading to learn more about PCB shielding.
Any project can get very complex, and the PCB design team needs to track revisions throughout a project. Why worry about tracking revisions? In the event you ever receive changes to product functional requirements, major changes are made to your product’s architecture, or you’re ready to finalize the design and prepare for fabrication, it’s best to clone a project at its current state and begin working on a new version. Keeping track of all these design changes in a PCB design project takes the type of hardware version control tools you’ll find in Altium 365™.
To pour or not to pour, to stitch or not to stitch… Over many years, some common “rules of thumb” have become very popular and, ultimately, taken a bit out of context. Rules of thumb are not always wrong, but taking PCB design recommendations out of context helps justify bad design practices, and it can even affect the producibility of your board. Like many aspects of a physical PCB layout, via stitching and copper pour can be like acid: quite useful if implemented properly, but also dangerous if used indiscriminately.
The primary source of high-speed problems is not due to high clock frequency but rather the fast rise and fall times of component signals. With fast edge rates, reflections may occur at the receiver side, and when the board routing is dense, crosstalk may become a problem. During this webinar, you'll sharpen your knowledge and develop new skills that you can use to design High-Speed PCB's more efficiently and effectively.
Power MOSFETs enable a huge range of electronic systems, specifically in situations where BJTs are not useful or efficient. MOSFETs can be used in high current systems in parallel arrangements, but what about their use in series? Both arrangements of MOSFETs have their pitfalls that designers should consider. Let’s look at MOSFETs in series as they are quite useful in certain systems, but be careful to design your circuits and your PCB for reliability.
I can’t think of a single product I’ve built that doesn’t require capacitors. We often talk a lot about effective series inductance (ESL) in capacitors and its effects on power integrity. What about effective series resistance (ESR)? Is there a technique you can use to determine the appropriate level of resistance, and can you use ESR to your advantage?
If your goal is to hit a target impedance, and you’re worried about how nearby pour might affect impedance, you can get closer than the limits set by the 3W rule. But what are the effects on losses? If the reason for this question isn’t obvious, or if you’re not up-to-date on the finer points of transmission line design, then keep reading to see how nearby ground pour can affect losses in impedance-controlled interconnects.
The primary source of high-speed problems is not due to high clock frequency but rather the fast rise and fall times of component signals. With fast edge rates, reflections may occur at the receiver side, and when the board routing is dense, crosstalk may become a problem. During this webinar, you'll sharpen your knowledge and develop new skills that you can use to design High-Speed PCB's more efficiently and effectively.
Discover AI-driven vision capabilities with the Kria KV260 Vision AI Starter Kit, presented by Ari Mahpour. Ideal for prototyping vision solutions, this kit offers an accessible entry point into advanced AI applications.
Explore how Model-Based Systems Engineering (MBSE) integrates with digital twins to enhance design accuracy, collaboration, and lifecycle management in modern engineering projects. This approach bridges the gap between physical systems and digital models, enabling real-time simulation and optimization.
The Wire Bonding in Altium Designer article highlights how Altium Designer 25’s wire bonding feature streamlines complex designs for advanced assemblies like 3D stacked dies and RF modules. This tool enhances efficiency and precision, catering to modern electronic design needs.
Altium Designer 25 introduces groundbreaking features for seamless collaboration and precision in PCB design, from PCB CoDesign to advanced simulation and MCAD tools. Discover how AD25 is transforming electronic product development.
Explore the future of wire bonding, from new applications to cost-saving trends, in this article by Samer Aldhaher. Stay updated on key innovations in this essential connection technology.
Discover how Altium 365’s Jira integration can streamline collaboration and keep projects running smoothly with real-time design updates and task tracking. Perfect for teams seeking efficiency!
Discover how integrating BOM management and CAD systems can streamline your PCB design process in this insightful article. Learn how combining these tools enables smoother collaboration, reduces errors, and improves design efficiency, helping you optimize your workflows from concept to manufacturing.
Resistors are fundamental components in electronic circuits, essential for controlling current and voltage. This article explores their basic principles, types, and key applications, helping you understand their crucial role in electronics.
Efficient PCB design is crucial for avoiding costly delays in product development. This article offers practical tips and best practices for PCB designers to streamline their workflows, minimize errors, and ensure timely project completion.
Signal integrity is the backbone of high-speed digital systems. In this new article by Rafał Stępień, we break down signal reflections and how to optimize your designs with effective impedance matching techniques.
In the second article of the "Mastering EMI Control in PCB Design" series Dario Fresu explores how effective component placement can reduce electromagnetic interference (EMI) in printed circuit boards. He highlights strategies such as board segregation and careful management of high-speed signals and their harmonics to ensure signal integrity and minimize emissions.
Check out this article where Rafał Stępień dives into the essentials of maintaining signal integrity in high-speed digital systems. Discover key techniques like controlling signal reflections, reducing crosstalk, and designing differential pairs in Altium Designer 24 to ensure reliable and efficient PCB performance.
The Requirements & Systems Portal is now live in Altium 365! Engineers can write, manage, and verify requirements within the Altium 365 workspace. You can link your requirements directly to schematics and PCB designs to ensure all engineers are working with the latest data. Request access today!
Looking to enhance signal integrity in your PCB designs? Check out our latest article by David Marrakchi, where he shares key strategies and best practices for achieving reliable high-speed designs.
Check out our article, where Lawrence Romine shares his top tools for conducting efficient Bill of Materials (BOM) reviews in PCB design. It highlights key features in Altium 365, Octopart, and ActiveBOM that help engineers avoid unsourceable components and streamline procurement.
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.