News & Updates
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.
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.
Discover essential strategies for high-speed PCB design, focusing on signal integrity, EMI mitigation, and thermal management. Our latest article provides insights on managing crosstalk, optimizing grounding, and addressing thermal challenges to ensure reliable PCB performance.
Designing microvias with sintered paste in rigid-flex PCBs offers enhanced electrical conductivity and mechanical strength, crucial for high-density applications. Our new article explores the benefits of sintered paste and provides essential design tips to optimize microvia performance and reliability.
Watch our webinar to learn how our centralized electronics design data platform can quickly integrate with your IT access, tracking, and compliance tools, while also making it easier to work in teams.
The concept of design variants entails taking a single PCB design, and then on the assembly side, modifying specific components used in the design. Either by not installing, not installing, or choosing alternate components as replacements on a specific assembly to ultimately create different end products. In that way, you could support multiple product lines. This article describes the approach to working with variants.
Before anything else, some advice. The revisions and lifecycle are an area that takes some planning. It used to be that Concord Pro was primarily for components, but now it has gone far beyond that. With the ability to store and manage many other items, including your various templates, projects, even PDF documents, not everything will have the same revision scheme. Concord Pro is so powerful that it can handle any revision scheme you’d want to set up.
Whether the board will be placed in a high pressure vessel or underwater, your design will need to withstand pressure to avoid failure. On the enclosure side, your vessel should be rated up to a certain pressure and may require frequent cycling to prevent implosion. On the electronics side, component selection and layout (especially at high voltage) become critical to preventing failure and ensuring reliability.
The first update of Altium Designer 20.2 and Altium NEXUS Client 3.2 is now available. You can update through the Altium Designer update system ("Extensions and Updates") or download fresh builds from the Downloads section of the Altium website. Click on "Read More" to see a list of all changes in this update.
The history of engineering, both electrical and mechanical, is littered with approximations that have fallen by the wayside. These approximations worked well for a time and helped advance technology significantly over the decades. However, any model has limits on its applicability, and the typical RLCG transmission line model and frequency-independent impedance equations are no different. Copper foil roughness modeling and related transmission line impedance simulations are just one of many areas in which standard models cannot correctly treat signal behavior.
Once you’re planning for production of any new board, you’ll likely be planning a battery of tests for your new product. These tests often focus on functionality and, for high speed/high frequency boards, signal/power integrity. However, you may intend for your product to operate for an extreme period of time, and you’ll need some data to reliably place a lower limit on your product’s lifetime. In addition to in-circuit tests, functional tests, and possibly mechanical tests, the components and boards themselves can benefit from burn-in testing.
If you remember your days in school, then you probably remember the feeling of happiness and celebration when you pass a big exam. You’ll feel the same sense of adulation when your board spin passes a barrage of pre and post assembly tests, but a complex design might not reach that stage unless you implement the right design for testability methods. There are some simple steps that can help your manufacturer identify and quickly implement important bare-board and in-circuit testing (ICT), especially on critical circuit blocks.
This article describes the best hints and tips for designers of rigid-flex circuits. These tips include choosing the most appropriate material, suggestions for coordinating the PCB with the manufacturer, and a set of rules to be followed while PCB design.
There are a number of factors at play when it comes to the impact of inductance on high-frequency power distribution systems. This article will focus on the inductance of the capacitor footprint along with the inductance of vias from the capacitor footprint to the PCB power planes. Included are the various types and sizes of footprints for ceramic capacitors as well as a footprint for a tantalum capacitor; how changing the footprint impacts inductance and test results obtained for different capacitors.
In order to properly suppress common-mode noise, differential pairs must be routed in parallel, with perfect symmetry, and with matched lengths. In real PCBs, meeting these three objectives isn’t always possible. Instead of eyeing out your different pair lengths, the interactive routing tools in Altium Designer make differential pair length matching easy. You can encode permissible length mismatches as design rules as part of controlled impedance routing, or you can manually perform differential pair tuning using a variety of meandering styles. Here’s how this works in Altium Designer.
Augmented reality, virtual surgery, limb replacements, medical devices, and other new technologies need to incorporate haptic vibration motors and feedback to give the wearer a full sense of how they are interacting with their environment. Unless these cutting-edge applications include haptic vibration and feedback, users are forced to rely on their other four senses to understand the real or virtual environment.
Over the last 20 years, electronic devices have become increasingly sophisticated. Less than two decades ago, just having a mobile phone to make calls was rare; today, our phones power our lives. To meet the growing demand for smartphone technology, technology has become faster, more functional, and intuitive. Improvements to the component base have streamlined processes while reducing manufacturing costs.
Going deeper into crosstalk, there is always the issue of verifying EMI/EMC compliance through test and measurement. With the multitude of signal integrity problems that can arise in real PCBs, how can the astute designer distinguish them all? Some problems are clearer than others, with specific signal integrity measurements being developed for testing and measuring particular aspects of signal behavior. The fact is, multiple signal integrity problems could be present on a single interconnect simultaneously.
Once you’ve finished your new project and you’re ready to push it to your manufacturer, you’ll normally be stuck in an endless email chain with an engineer, or you’ll have to share cloud links with each other. The cloud sharing and design release tools in Altium Designer and Altium Concord Pro are a huge help in this area. In this post, I’m going to take an existing project I’ve worked with in a number of recent blogs, create some fabrication and assembly documentation, and finally push this data to a manufacturer using Altium Concord Pro.
To this day, I still see many PCB layout “rules of thumb” that first became common nearly 20 years ago. Do these rules still universally apply? The answer is a firm “maybe.” The discussion around PCB layout rules of thumb is not that these rules are correct or incorrect. The problem is that the discussion around these rules often lacks context, leading to the always/never type of discussion seen in some popular forums. My goal in this article is to communicate the context behind the common PCB design rules.
As the operating speed of components has increased, controlled impedance is becoming more common in digital, analog, and mixed-signal systems. If the controlled impedance value for an interconnect is incorrect, it can be very difficult to identify this problem during an in-circuit test. However, testing is normally performed on a PCB test coupon, which is manufactured on the same panel as the PCB. If you want to get through board spins quickly and aid future designs, you might consider designing a test coupon and keeping it handy for future designs.
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.
It is essential to ask questions and review the design approaches used with your team. Design reviews are essential in the design process, but they can be inconvenient for team members and lack traceability or history. To create the best designs, you need review methods that are as cutting edge as the boards you're making.