News & Updates
During the recent IPC APEX expo, there was a lot of discussion about SAP, or semi-additive PCB processes. As with any new technology adoption there were people that are excited to jump right in and start designing with much finer feature sizes and work through the inevitable changes to the traditional thought process. Others are in a "let’s wait and see" mode and of course there are a few skeptics there as well, so keep reading to learn more.
Parasitic extraction: the integrated circuit design community must grapple with this task on a daily basis, especially once gate features are reduced below ~350 nm and chips run at high switching speeds. The PCB community also has to deal with this idea in order to better design power delivery networks, interconnects with precise impedance, and properly quantify crosstalk and coupling mechanisms.
Most designers don’t realize they need to worry about power integrity until they have a power integrity problem. Other designers might build boards that can’t handle the demands of modern digital and high frequency components, and they may not realize the problems that lurk in their power delivery network (PDN). Although the basic concepts involved in designing for power integrity are well-known, myths about power integrity abound, and designers need tools to help them evaluate and qualify power integrity in a PDN.
The use of ferrites in a PDN is one design recommendation that is fraught with unclear guidance and over-generalized recommendations. If you see an application note or a reference design that recommends placing a ferrite in a PDN, should you follow this in your specific design, or should you ignore this and focus on adding capacitance?
When you’re done creating a new board, it’s time to send your design data to the manufacturer. Before releasing your designs, you’ll want to make sure that everything is ready and works as intended. In this informative webinar, we’ll review some of the must-have checks before sending your output data for fabrication.
Before your board can be put into production and prepared for assembly, you have to generate a set of files that assist your manufacturer. These are your PCB design output files, also known as manufacturing files, fabrication data, assembly files, and a host of other names. Before you send your design file off to a manufacturer in an email, make sure to get a list of their required fabrication and assembly files first. If you’re a new designer, take some time to read over the basic PCB manufacturing file extensions below.
Transformers can provide very effective signal isolation and are used to manipulate AC voltage and current levels. They can achieve all this with a greater than 95% power efficiency, which is why we commonly see them used in bench power supplies, audio gear, computers, kitchen appliances, and wall-warts. However, transformer theory can be unintuitive and in this article we answer on questions about them
There are all sorts of version control systems (VCS) out there that people have been using with their PCB design software. As discussed in Why Use a Version Control System, we looked at different options ranging for local hard drive storage to sophisticated online revisioning systems. In this article we will be reviewing the differences between a standard VCS and Altium 365.
Controlled impedance routing at high frequencies is difficult enough, and it's important to make sure that you stay within your loss budget on long routes or in lossy media. When you have to route a long trace or a long differential pair to a connector or another component, what can you do if you're reaching the end of your loss budget? In this article, we’ll take a look at the skip reference routing method and explain how it can help recover some loss budget in a lossy interconnect.
What most people don’t seem to grasp is that every aspect of the PCB is critical. It all plays a significant part in the operation of the final product. The layer stack is no different. We need to keep in mind materials and the intricacies therein, including thickness, weave, dielectric constants, and more. A proper layer stack is needed for each and every design, so it's important to know how to navigate the layer stack manager and all of its features.
We are pleased to announce that Altium 365 is officially SOC 2 Type 1 certified. System and Organization Controls (SOC) 2 is a widely recognized attestation of security compliance defined by the AICPA and is considered the standard for ensuring data security and operational maturity. A SOC 2 certification provides valuable information for companies to assess the quality of the security provided by a service such as Altium 365.
Do you have extensive knowledge about the Pi.MX8 module? We're excited to introduce a new series of articles focusing on an innovative approach to utilizing this module. In this inaugural chapter, we provide insights into the preparation for this project and detail the elements that will be used.
Learn why BOM management is critical for both procurement managers and electronic engineers. Altium 365 BOM Portal helps to bridge the gap between these worlds. Discover how!
Happy New Year! 🎉 We are thrilled to announce that the Altium 365 Assembly Assistant is now officially released and available for direct purchase through the Altium Store.
Creating documentation for hand PCB assembly does not prevent the same documentation from being utilized to assist in automated PCB assembly. Learn more about the optimal format for this data to enhance both your hand PCB assembly and overall assembly processes.
Explore the powerful features of Altium Designer 24! Experience Constraint Manager and revolutionize your PCB design with reusable constraint sets, schematic-to-board rule transition, easy class and differential pair grouping, and more.
Curious about how to solve production blockers before they derail your product launch? Explore how Altium 365® can help you swiftly manage last-minute design changes.
We are advancing our Open Source Laptop project to the next stage: assembling lid electronics. In the first part of this phase, we are focusing on the electronics and PCB design of the webcam module.
The efficiency of production lines is crucial for any successful hardware product development. However, some challenges derail these processes. Do you face these problems, too? Let’s find out!
3D-MID technology seamlessly integrates electrical circuits with three-dimensional mechanical parts. This unique fusion of functionality unlocks a myriad of possibilities across various application areas. Explore more about this innovative feature, available in Altium Designer 24, to delve into the fascinating world of the 3D design process.
The PCB design process is always an exciting journey for a designer or the founder of a project. The first run of it can be breathtaking. In this article, we delve into strategies for minimizing PCB damage in the case of an exemplary circuit.
Explore the hidden impact of fragmented feedback loops in PCB design and testing. Check how minor communication gaps lead to significant financial burdens and learn how to address them.
Would you like to improve the protection of your data? Altium 365 GovCloud can help you achieve these goals. It’s a version of Altium 365, engineered to meet the stringent demands of US government regulations.
We are heightening the anticipation for our Open Source Laptop project. In this chapter, we delve into the ambient light sensor module. Learn more about how to implement it into this project.
Experience accelerated design collaboration with PCB CoDesign, exclusively available on Altium Designer starting from December 13th. This innovative feature adopts a collaborative approach by seamlessly integrating schematic and PCB design, enabling multiple engineers to work on the same project. Explore this cutting-edge feature on our newly launched page dedicated to its functionalities.
Learn the key lessons from the presentation at Iteration22; “Joe Justice, Wikispeed - Everyone Must Be a Chief Engineer at SpaceX.” Read on and discover how to speed up the development of complex products.
We are continuing our journey into lid assembly mechanics inside the Open Source Laptop Project. In this chapter, we are focusing on the sensor PCB above the display panel.