News & Updates
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.
Differential data transmission lines usage can be challenging for even experienced designers. First you need to be familiar with the concepts of differential data transmission, find out why it is used, and what the potential advantage for your signal. This webinar will help you determine what part of your designs need differential pairs implementations and how to create such pairs with a given wave impedance in Altium Designer.
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).
Being able to design a board in your ECAD environment doesn’t mean that it is manufacturable in real life. You have to make sure your CAD representation won’t have any problems in the real world by taking some precautions. For example, there are certain areas that need to be free of components and have specified clearances like your board edge. This webinar will help you get acquainted with the creation and modification of your board shape so that you can ensure manufacturability.
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.
High-speed signal integrity is essential in PCB design to ensure data accuracy and system reliability. Key issues like impedance mismatches, crosstalk, and signal reflections need to be addressed through strategies such as controlled impedance traces, differential pairs, and suitable material choices. Check out our first article of the series about this topic.
Our new article on signal integrity in multi-board PCBs covers essential aspects like connector pinouts, cable designs, and interconnect strategies. These factors ensure reliable performance in high-speed applications across industries such as military, aerospace, and AI.
Discover how multi-CAD support is transforming electronics design with Altium 365 by enabling seamless integration of diverse CAD file formats. This innovation addresses vendor lock-in issues, boosting collaboration, version control, and project management across different CAD tools.
We invite you to explore a new chapter in the PiMX8 Project, focusing on the final stages of PCB layout design for the Pi.MX8 compute module. This installment covers critical topics such as routing power planes and signal delay tuning, essential for ensuring proper functionality and performance.
Thermoformed flexible PCBs are specially designed and fabricated by heating and molding them into specific shapes, making them suitable for compact and complex applications like automotive dashboards and wearable devices. This process involves precise temperature control and careful handling to ensure durability and quality. Discover more from Tara Dunn's new article.
Altium Designer's wire bonding feature enhances PCB design by supporting chip-up configurations for Chip on Board (CoB) designs. It offers easy validation of bond wiring in 3D views, ensuring accurate and efficient design processes. Check more about this feature on Altium's new feature page.
High-frequency surface-mount device (SMD) passives like resistors and capacitors play a crucial role in PCB layouts, particularly in circuits operating above 1 GHz. Our article explores how these components function at high frequencies, their operational limits, and the importance of considering parasitic elements in design.
Design for Manufacturing (DFM) is a crucial aspect of aerospace projects. This process ensures high-quality designs that meet the unique challenges of the aerospace industry, such as extreme conditions and stringent reliability standards. Learn more about essential DFM tips in our brand-new article.
Curious about the intersection of mechanical and electrical design? Both are crucial in the PCB design process, especially for multi-board systems. Read our latest article to learn how ECAD and MCAD can address significant challenges during PCB preparation.
Discover everything you need to know about Altium 365 and experience our suite of applications for secure, seamless, and streamlined collaboration. Visit now to explore how to streamline your electronic product development.
Automated measurements are no longer tough. With our Mixed Simulation mode, everything is easier. Learn more about this feature based on DC-DC buck converter design in this brand new article.
In the dynamic field of electronics design, Altium Designer stands out as a pioneer, continuously advancing the boundaries of PCB (Printed Circuit Board) design. Discover the latest innovations in 3D-MID design, high-speed design, and interactive routing in this new article by David Marrakchi.
Check out our new article explaining how to ensure sufficient pad area for soldering, manage misregistration tolerance, and maintain proper solder dams between components. It also highlights the role of collaboration with fabrication houses and the use of CAD tools in defining land patterns for advanced electronics designs.
We continue our exploration of the Pi.MX8 open-source computer module project. In this new installment, we focus on routing planning and then cover all the layers' routing with all the details you need to know if you want to prepare a similar project.
Check our compilation of essential resources you'll need to use blind and buried vias successfully in an HDI PCB. In our brand new article, we present the main and most valuable information about this technology, which may not be new but is still highly useful in High-Density Interconnect projects.
Discover how Penn Electric Racing builds award-winning, fully electric racecars with Altium 365, pushing the boundaries of technology and design.