News & Updates
Design faster together with the innovative PCB CoDesign feature, exclusively available in Altium Designer. This cutting-edge functionality seamlessly integrates schematic and PCB design, facilitating concurrent work by multiple engineers on the same project. Learn more about this groundbreaking feature in our comprehensive manual.
Electronic components power nearly everything in our modern lives. However, as long as there are buyers for parts, counterfeiters will persist in their endeavors. Financial losses resulting from fake components are challenging to ascertain due to enforcement limitations and the difficulty in collecting data on the issue. In this article, we demonstrate how to test and verify components in batch orders.
Watch the webinar to explore the benefits of agile methodologies and how they can be translated into the physical world of hardware development! Learn how Altium 365 can support the adoption of this approach.
With increased electronics supply chain visibility, you can develop better products faster and align perfectly with budget constraints early on. Here’s why.
Explore common myths about Agile hardware development and learn how to adapt Agile principles for hardware projects.
We are going deeper into lid assembly electronics in our Open Source Laptop project. In this chapter we will tackle the PCB design of the webcam board and show you how to deal with some expected challenges, such as overall small form factor of the board or breaking out the microscopic webcam image sensor.
If you're trying to understand how commercial Altium 365 differs from Altium 365 GovCloud, you're in the right place. Click to grasp the unique features of each.
Explore the challenges and strategies of implementing Agile methodology in electronics hardware development. Understand key differences between hardware and software development within the Agile framework.
Watch our webinar and discover how Altium 365 GovCloud can assist you in PCB design while ensuring compliance with US government regulations.
The flexible circuits are ideal for applications where a thin, small, and lightweight PCB is needed. However, in such cases, challenges in assembly and fabrication often arise. This article delves into these challenges, focusing on component selection and placement and how they can significantly impact the performance of the flexible circuit in its intended application.
Have you ever performed manual tests? If your answer is yes, you're likely aware of how laborious and time-consuming the entire process can be. Allow us to introduce you to the realm of test equipment automation. Our new step-by-step guide empowers you to write code that seamlessly configures your networked test equipment, all from the convenience of your computer.
We are advancing with our brand new Pi.MX8 Project. In this chapter, we delve deeper into two crucial aspects: the overall schematic and component placement on the PCB board. Don't hesitate to check it out. Additionally, you can follow this project through our workspace; the link is provided within the article.
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.
The PCB materials industry has spent significant amounts of time developing materials that provide lowest possible signal loss for products with RF applications. For high speed and high frequency designs, losses will limit signal propagation distance and distort signals, and it will create an impedance deviation that can be seen in TDR measurements. In this article, we'll look at the balance between copper foil losses and other types of losses in a PCB, as well as some strategies that are commonly used to overcome roughness.
We are happy to announce that the Altium Designer 22.8 update is now available. Altium Designer 22.8 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!
In this article, we’ll look at beamforming implementation in an advanced method combining analog and digital techniques, known as hybrid beamforming. This method blends both digital and analog techniques to create multiple beams and thus reach multiple users with varying intensities. In the case of an RF imaging system or a radar system, hybrid beamforming in a MIMO technique also allows tracking of multiple targets with adjustable resolution.
The problem with every via impedance calculator that I have seen is simple: they are incomplete or totally wrong. The “incomplete” part refers to a lack of context; these calculators can roughly reproduce a well-known estimate from a legend like Howard Johnson in his Digital Design textbooks. However, these calculators never provide insight into what they are actually calculating, or where the calculated via impedance is accurate. Keep reading to see why these calculators get it so wrong, as well as the context surrounding via impedance.
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).
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.
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.
High-reliability electronics must go through multiple rounds of testing and qualification to ensure they can withstand their intended operating environment. Designing to performance standards, whether the baseline IPC standards or more stringent industry standards, is the first step in ensuring a reliable circuit board. In this e-book, readers will gain a thorough look into PCB testing and analysis, starting from basic tests performed on bare boards and completed assemblies.
Coupling capacitors find plenty of uses in analog applications and on differential protocols, acting essentially as high pass filters that remove DC bias carried seen on a signal. In the case of PCIe, there are a few reasons to place AC coupling capacitors on differential pairs beyond the fact that AC coupling capacitors are listed in the standard. In this article, we’ll look briefly at where to place coupling capacitors on PCIe links, as well as the reasons these are placed on PCIe links.
We are happy to announce that the Altium Designer 22.7 update is now available. Altium Designer 22.7 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!
Design to cost is a lofty idea that is only perfectly executed when supply and demand for components are in perfect harmony. Unfortunately, the current landscape for component sourcing makes design to cost more of a balancing act rather than an exercise in price reduction. To help designers in their efforts to balance cost, capabilities, and procurement, we created this ebook to help users understand how modern supply chain tools can help in these complex design problems.