News & Updates
Kinetic Vision, a Cincinnati-based design, engineering, and development firm, is an innovator’s one-stop shop for transforming even the wildest ideas into real products. The company’s design approach keeps everything in-house, including industrial design, mechanical, and electrical design, as well as, engineering, hardware/software development, machine learning, and sometimes even short-run production. Watch this webinar to learn how Kinetic Vision uses the Altium 365 platform to enable a connected and frictionless PCB design experience, increasing their productivity 5 times even
When some designers start talking materials, they probably default to FR4 laminates. The reality is there are many FR4 materials, each with relatively similar structure and a range of material property values. Designs on FR4 are quite different from those encountered at the low GHz range and mmWave frequencies. So what exactly changes at high frequencies, and what makes these materials different? To see just what makes a specific laminate useful as an RF PCB material, take a look at our guide below.
In today’s fast-paced world where iterations of electronics are spun at lightning speeds, we often forget one of the most critical aspects of development: testing. Even if we have that fancy test team, are we really able to utilize them for every modification, every small and insignificant change that we make to our prototypes? In this article, we will review a very low cost, yet highly effective and quite exhaustive test system that will get you that bang for your buck that you’ve been looking for.
If you’ve ever looked at the BOM for a reference design or an open-source project, you may have seen a comment in some of the entries in your BOM. This comment is either “DNP” or “DNI”. If you think about it, every component placed in the PCB requires some level of placement and routing effort, which takes time and money if you’re working for a client. This begs the question, why would anyone design a board with components they don’t plan to include in the final assembly?
When it’s time to share your design data with your manufacturer, it’s like taking a leap of faith. Sending off a complete documentation package might seem as easy as placing your fab files in a zip folder, but there are better ways to ensure your manufacturer understands your project and has access to all your design data. For Altium Designer users, there are multiple options for creating and packaging release data into a complete package for your manufacturers.
A heavy focus is usually put on managing your design data, but what about managing your design team? A mismanaged design team can lead to a disorganized and inaccurate design library and data. Watch this webinar to see how Altium 365 can help you to organize users into access restricted groups, manage design and designer access rights, avoid design conflicts when multiple members are working on the same design, and standardize your entire project using templates
If you’re designing a circuit board to be powered by anything except a bench-top regulated power supply, you’ll need to select a power regulator to place on your board. Just like any other component, your regulator has stated operating specs you’ll see in a product summary, and it has more detailed specs you’ll find in a datasheet. The fine details in your datasheets are easy to overlook, but they are the major factors that determine how your component will interact with the rest of your system.
It would be nice if the power that came from the wall was truly noise-free. Unfortunately, this is not the case, and although a power system can appear to output a clean sine wave, zooming into an oscilloscope trace or using an FFT will tell you a different story. When you take "dirty" power, put it through rectification, and then pass it through a switching regulator, you introduce additional noise into the system that further degrades power quality. If you’re a power supply or power systems designer, then you know the value of supplying your devices with clean, noise-free power.
If you’re an electronics designer or you’re just beginning your career as an engineer, the PCB stackup is probably one of the last things you’ll think about. Simple items like PCB copper thickness and board thickness can get pushed to the back burner, but you’ll need to think about these two points for many applications as not every board will be fabricated on a standard 1.57 mm two-layer PCB
I often get questions from designers asking about things like signal integrity and power integrity, and this most recent question forced me to think about some basic routing practices near planes and copper pour. "Is it okay to route signal traces on the same layer as power planes? I’ve seen some stackup guidelines that suggest this is fine, but no one provides solid advice." Once again, we have a great example of a long-standing design guideline without enough context.
Electronics schematics form the foundation of your design data, and the rest of your design documents will build off of your schematic. If you’ve ever worked through a design and made changes to the schematic, then you’re probably aware of the synchronization you need to maintain with the PCB layout. At the center of it all is an important set of data about your components: your schematic netlist. What’s important for designers is to know how the netlist defines connections between different components and schematics in a large project.
There are plenty of PCB manufacturing services you can find online, and they can all start to blend together. If you’re searching for a new service provider, it can be hard to compare all of them and find the best manufacturer that meets your needs. While experienced designers can spot bogus manufacturers from afar, there is always a temptation to go with the lowest priced, supposedly fastest overseas company you can find. However, there is a lot more that should go into choosing a PCB manufacturing service than just price.
Pi Filters are a type of passive filter that gets its name from the arrangement of the three constituent components in the shape of the Greek letter Pi (π). Pi filters can be designed as either low pass or high pass filters, depending on the components used. The low-pass filter used for power supply filtering is formed from an inductor in series between the input and output with two capacitors, one across the input and the other across the output. Keep reading to learn more about their application in the PCB Design.
The first question that should come up when selecting materials and planning a stackup is: what materials are needed and how many layers should be used? Assuming you’ve determined you need a low-loss laminate and you’ve determined your required layer count, it’s time to consider whether you should use a hybrid stackup. There are a few broad situations where you could consider using a hybrid stackup with low-loss laminates in your PCB
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.
Our new article outlines strategies to achieve a 10% reduction in PCB costs by optimizing design and material choices, such as adjusting stack-up materials and hole sizes, using lower-cost parts, and considering single-sided assembly. These techniques help reduce expenses without sacrificing quality.
Check how Altium 365 helps eliminate EDA software vendor lock by enabling multi-CAD support in the cloud. This allows users to work with different CAD file formats within a single platform, enhancing collaboration and reducing the need for additional licenses. This approach offers greater flexibility and is set to transform the industry.
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.