News & Updates
In comparison to the build-up of a PCB, the stackup is more concerned with the electrical type of each layer, that is are we working with signals, power, or ground. Continue reading to learn how you can optimize your layer stack.
Altium’s VP of marketing Lawrence Romine discusses the multi-board and harness design capabilities coming in Altium Designer 23.
Controlled ESR capacitors are important for power integrity in your design as they can help smooth out the PDN impedance spectrum in your high speed PCB.
Whenever we say something to the effect of “components can’t work without a correctly designed PCB,” we only have to look at component packaging for evidence. It is true that component packages come with parasitics that affect signal integrity, but there is one area that we don’t often look at in terms of component packaging: power integrity.
In this article, we’ll look at all that is required to start creating your own custom microcontroller-based hardware designs. You’ll see that there actually isn’t too much to this, as microcontroller manufacturers over the years have tried to make the learning curve less steep and their devices more, and more accessible. This is both from an electrical point of view but also – equally importantly – from a programming point of view.
If you’ve taken time to learn about PCB material options and layer constructions, you have probably seen the wide range of materials that are available on the market. Materials companies produce laminates with varying Dk values, Tg values, weave styles, CTI values, and mechanical properties to target various applications in the electronics industry.
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.
If you’re waiting for truly connected cars on a grand scale, there is still a massive amount of work to be done, both on the hardware and software sides. Connected cars can only become a widespread reality once the automotive industry and telecom carriers can decide which protocol will work best for vehicle-to-everything (V2X) communication. PCB designers will then need to step in to create these systems and fit them into a vehicular environment.
Are you struggling with your manual assembly process? Would you like to speed it up and improve component placement accuracy? Read the story of XVP Photonics; with Assembly Assistant, they improved the component placement time by 25%. Discover how!
DC-to-DC buck converters are extensively employed in electronic devices. In this article, we will introduce you to one of our new projects—a DC-to-DC converter designed to serve as a power supply as well.
You need a robust requirements management process to ensure your design intent communication stays clear and organized. Read on to explore the crucial connection between well-managed requirements and today’s design.
Switching regulator modules have become indispensable in a wide array of electronic devices, providing a more efficient means of voltage conversion between different levels by storing and releasing energy. Explore further insights into these devices in today's dynamic world of electronics.
We want to invite you to explore the fundamentals of USB Type-C Power Delivery which is now the most popular energy transmission in current times. We will show you how to easily incorporate a dedicated PD IC into your own designs.
It is time to delve deep into the mechanical design of our Open Source Laptop project. In this article we give you an update about the first part of fitting elements into the system. You will learn more about laptop lid, webcam integration, light sensor and microphones which will be used in this project.
Whether you're designing a high-speed PCB, or a complex embedded system, it will need some level of testing. In this article, we will show you some simple tricks that can make testing and debugging a prototype much easier.
Crosstalk is one of the most common issues related to electronics. Learn the basics of this phenomenon in PCB design, and gain knowledge on how to avoid it in your projects.
Preparing complex PCB designs can often keep you awake at night. Learn more about some of the most common issues encountered in multi-board electrical connections.
Introduce an update on the My Altium user page that highlights your certificates and tracks your training progress, with one-click access to the Training Dashboard and Training Catalog pages. Easily view and share your certificates, keep an eye on your learning journey, and explore a variety of training resources.
In this article, we will begin with a basic explanation of how rigid-flex technology differs from rigid board technology. We will then provide an overview of the advantages and conclude with a discussion of the challenges to be aware of.
Through-hole components are frequently employed in power electronics, particularly when dealing with AC power from a wall outlet. In this article, you can delve into the intrusive soldering process and discover when it can be applied in PCB design.
Multi-board designs are the key to meeting evolving demands, requiring robust PCB Harness Design for seamless interconnection and success. Join us as we explore the importance of PCB Harness Design capabilities and how they are crucial for the success of multi-board designs.
Whether you purchase products off-the-shelf or online, they all come housed within an enclosure. In some cases, these enclosures are intentionally ruggedized to withstand harsh environments or mechanical shocks. You can learn more about enclosures in this new and interesting article.
We are continuing our journey through the lid assembly design phase of our Open Source Laptop project. In this section, we will discuss the layout of the test adapter and provide a demonstration of the first test for the display panel, along with the initial steps involved in assembling the boards.
In the exciting next phase of the open-source laptop project we're (finally) diving into design, and getting hands-on with the display panel. Discover how we're selecting the right panel, integrating it seamlessly, and creating a custom DisplayPort adapter to illuminate the screen. Plus, learn how our choices impact features like microphones, webcams, and touch sensors, and how Altium can help bring it all to life. It’s not too late to join as we continue on this innovative journey!