News & Updates
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.
Watch this webinar to learn how the SiliconExpert Integration in Altium 365 can optimize your workflows and elevate your design process.
Want to keep your entire team on the same page? Watch this webinar to discover how Altium 365’s suite of applications revolutionizes electronics design from conception to production.
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.
Tired of juggling multiple tools for project management? Learn how the Jira Integration for Altium 365 can optimize your workflows.
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!
Watch our webinar to learn more about the new application joining the Altium 365 suite. The new Requirements & Systems Portal will help align engineering teams to get to market quicker.
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.
It’s no secret that component shortages have become more frequent this year. In fact, countries around the world are losing billions in revenue due to supply issues. Having the right components on hand is more crucial than ever as availability, obsolescence, counterfeit products and environmental non-compliance risks continue to grow. Fortunately, many shortages can be avoided by introducing proactive supply chain practices.
Do length-tuning structures create an impedance discontinuity? The answer is an unequivocal “yes”, but it might not matter in your design depending on several factors. Applying a length-tuning structure is equivalent to changing the distance between the traces while meandering. Therefore, you will have a change in the odd-mode impedance of a single trace. The question then becomes: does this deviation in trace impedance in a length tuning structure matter?
The continued miniaturization of both packaging and component size in next-generation electronics is becoming harder and harder to work around and presents a significant challenge for both PCB designers and PCB fabricators. To effectively navigate the constraints of the traditional subtractive-etch PCB fabrication processes, PCB designs require advanced PCB fabrication capabilities while pushing the limits of finer feature size, higher layer counts, multiple levels of stacked micro vias and increased lamination cycles.
Take a look at the inside of some integrated circuit packages, and you’ll find a number of wires bonded to the semiconductor die and the pads at the edge of the component's package. As a signal traverses makes its way along an interconnect and into a destination circuit, signals need to travel across these bond wires and pads before they are interpreted as a logic state. As you look around the edge of an IC, these bond wires can have different lengths, and they incur different levels of delay and contribute to total jitter.
Once you’ve run out of room on your 4-layer PCB, it’s time to graduate to a 6-layer board. The additional layer can give you room for more signals, an additional plane pair, or a mix of conductors. How you use these extra layers is less important than how you arrange them in the PCB stackup, as well as how you route on a 6-layer PCB. If you’ve never used a 6-layer board before, or you’ve had EMI troubles with this stackup that are difficult to solve, keep reading to see some 6-layer PCB design guidelines and best practices.
We are happy to announce that the Altium Designer 22.5 update is now available. Altium Designer 22.5 continues to focus on improving the user experience, as well as performance and stability of the software, based on feedback from our users. Check out the key new features in the What's New section on the left side of this window!
PCB stackups often incorporate slightly dissimilar materials that could pose a reliability problem. Hybrid PCBs are one case where the PCB stackup will include different materials, typically a standard FR4 laminate and a PTFE laminate for RF PCBs. Designers who want to take the lead on material selection when designing their hybrid stackups should consider these factors that affect reliability. As with any PCB stackup, make sure you get your fabricator involved in the manufacturing process early to ensure reliability problems do not arise during production.
In a previous article about circuit simulation and reliability, I looked at how Monte Carlo analysis is commonly used to evaluate circuits that are subject to random variations in component values. Sensitivity analysis is a bit different and it tells you how the operating characteristics of your circuit change in a specific direction. Compared to a Monte Carlo simulation, sensitivity analysis gives you a convenient way to predict exactly how the operating characteristics will change if you were to deliberately increase or decrease the value of a component.
Field Programmable Gate Arrays, or FPGAs, have become ubiquitous amongst high-speed, real-time digital systems. The speed at which FPGAs operate continues to increase at a dizzying pace but their adoption into Continuous Integration pipelines seems not to trail as closely. In this article we will review the concept of CI pipelines, their application to FPGAs, and look at examples on how to set this up.
Conflicts can occur when multiple people work on the same project simultaneously. The user might not realize that they are not looking at the latest version of the documentation, leading to problems later. To address this issue, Altium features an intuitive graphical user interface that allows you to examine conflicts quickly and carefully
Anytime you place a component in your PCB, it’s almost like you’re gambling. All components have tolerances, and some of these are very precise, but others components can have very wide tolerances on their nominal values. In the event the tolerances on these components become too large, how can you predict how these tolerances will affect your circuits?
If you look in datasheets for most components, you’ll often find a recommended land pattern, usually alongside some mechanical package information and assembly information. This is not always the case with BGA components, especially components with high ball count. There are a few reasons for this that we can speculate: those ball counts might just be too big to put into a single page, or the manufacturer just expects you to know how to create that land pattern.
Molded interconnect devices are essentially plastic molded substrates with traces running along any surface, including at right angles and running vertically. Altium users can use the new 3D Routing extension to design their own component carriers, which can be mounted vertically in a standard assembly process. If you’ve always wanted to vertically mount components or entire circuits, but without the expense of adding a flex section to your design, the new 3D Routing extension with HARTING’s component carrier designs provides a unique solution.
Altium has released version 2.9.0 of the MCAD CoDesigner. This version has the option to exclude small components when transferring from ECAD to MCAD. The arc behavior was improved, and the support for splines in board shape and cutouts was added. With this release, you can now select a specific SOLIDWORKS configuration of a part to use on the board and view the improvements made for Siemens NX.
Altium Designer's world-class PCB design features help users quickly get started with new rigid-flex designs and prepare them for manufacturing. Rigid-flex in Altium Designer starts with designing a manufacturable PCB layer stack complete with via transitions and any calculated impedance requirements. Keep reading to see how Altium Designer supports your flex and rigid-flex designs.
Like any other advanced PCB, success in HDI design comes from designing the right stackup. One common HDI stackup used to support routing into moderate pin count, high-density BGA components is the 2+N+2 PCB layer stack for HDI boards. We’ll explore this stackup more in this article, as well as how it is related to other advanced stackups used in HDI PCBs.
Watch this webinar and learn how to remove ECAD data silos to enhance design collaboration, efficiently manage all your BOMs, and reduce supply chain risks with Multi-CAD File Support.
Learn how to make informed decisions and mitigate supply chain risks with Altium 365 BOM Portal. Improve your time to market and proactively manage supply chain risks.
Watch the webinar and get a sneak peek at revolutionizing your engineering, compliance, and procurement approach with Altium 365 and Z2Data integration. Leverage comprehensive component data and advanced risk management strategies to enhance resilience in your operations.
Watch our webinar and learn how to design PCBs while staying compliant with US government security regulations. Understand the differences between commercial Altium 365 and Altium 365 GovCloud in real-case scenarios.
Learn how to make informed decisions and mitigate supply chain risks with Altium 365 BOM Portal. Improve your time to market and proactively manage supply chain risks.
Have you ever dealt with a component shortage or unexpected EOL causing a design change at the last minute? Watch our webinar to learn how to solve these problems and overcome production blockers with Altium 365 and Basler AR!
Do you need help with disjointed design and requirement processes? Watch the webinar and learn how Altium 365 Requirements Manager powered by Valispace connects design data and requirements for faster design with fewer errors.
Watch the webinar to learn how the SiliconExpert Integration in Altium 365 can optimize your workflows and elevate your design process. Make data-driven design decisions!
Watch the webinar and learn from Altium's Director of Security, Bruno Blasigh, and Renata Lang, Altium 365 Product Marketing Manager, about designing PCBs that meet US government requirements using Altium 365's GovCloud.
Learn how the SiliconExpert integration in Altium 365 can optimize your workflows and elevate your design process. Hear from experts from SiliconExpert and discover insights into data-driven design decisions. Also don't miss the chance to see the integration in action and explore improved risk analysis and alternative component discovery features.
Dive into the world of Altium's MCAD CoDesigner and its compatibility with SOLIDWORKS. Watch the recording to explore a unified approach with a real-life project that will redefine your design process and find out more about how you can optimize your Electronic Lifecycle Management by bringing together all experts involved in product development.
Looking for a way to reduce time and increase the accuracy of the manual assembly of PCBs? Watch this webinar recording for a transformative session and learn how XVP Photonics achieved these goals with Assembly Assistant!
? Join our experts to learn how you can develop products faster with fewer errors with the Altium 365 + Valispace Integration. This integration connects your live design and requirements workflow to implement design intent better and comply with industry standards.
An exclusive Expert Panel Discussion on Altium 365 GovCloud featuring industry experts Mahesh Venugopala and Bruno Blasigh. Gain valuable insights on cloud security, compliance, and more.
Join our insightful webinar on Altium 365 Version Control System (VCS) designed for solo users, where Ari Mahpour will guide you through creating and managing projects on the cloud-based platform.
Get ready to speed up your design process with new Altium Designer collaboration capabilities. Designing a PCB is a team effort. Engineers must work with customers, manufacturers, and other stakeholders to get the best results. You need help to bring your design to life, even if you're a one-person team.