News & Updates
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.
Watch the webinar to learn how the SiliconExpert Integration in Altium 365 can optimize your workflows and elevate your design process. Make data-driven design decisions!
Watch the webinar and learn from Altium's Director of Security, Bruno Blasigh, and Renata Lang, Altium 365 Product Marketing Manager, about designing PCBs that meet US government requirements using Altium 365's GovCloud.
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.
Learn how the SiliconExpert integration in Altium 365 can optimize your workflows and elevate your design process. Hear from experts from SiliconExpert and discover insights into data-driven design decisions. Also don't miss the chance to see the integration in action and explore improved risk analysis and alternative component discovery features.
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.
Dive into the world of Altium's MCAD CoDesigner and its compatibility with SOLIDWORKS. Watch the recording to explore a unified approach with a real-life project that will redefine your design process and find out more about how you can optimize your Electronic Lifecycle Management by bringing together all experts involved in product development.
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.
Looking for a way to reduce time and increase the accuracy of the manual assembly of PCBs? Watch this webinar recording for a transformative session and learn how XVP Photonics achieved these goals with Assembly Assistant!
Involving the whole team that will bring a product to completion early on in the development cycle is vital to efficient development. Design reviews with all the relevant parties are critical at each step of the design process, starting with high-level component selection, then through the schematic capture and PCB layout stages.
Ergonomics and convenience are important issues when designing a printed circuit board and the device as a whole. A lot of Altium Designer tools are aimed at solving them. These include Countersink and Counterbore holes, which allow the use of various types of screws in the mounting holes of the board.
The development of electronic devices always involves the release of many different types of files. And these files are not static - they change as the project progresses. When filling a project with data, a user creates new files, modifies outdated files that have become irrelevant. Managing project data is a separate task, especially for large developments where several participants with different specializations are involved in the process.
High-speed PCBs often require tuning groups of tracks, both single and differential. Altium Designer includes powerful tools that allow you to solve such tasks quickly and with high quality. Study this document and achieve the desired result even faster.
There is one confusion related to impedance matching that comes up again and again, and it appears to be a fundamental confusion between reflection and power delivery. This leads to an apparent contradiction that arises when we try to generalize power delivery to wave reflection, despite the fact that the two were not meant to be related.
Routing is one of the most time-consuming stages of PCB design. Altium Designer has a large set of tools that allow you to do it as accurately and quickly as possible. This document will help you to learn how to manage your routing effectively and use it to its fullest extent.
RF systems operate with specific impedance values across entire interconnects, including on PCBs. Not all RF components are packaged in integrated circuits with defined impedances, so impedance matching circuits and line sections are needed to ensure signal transmission between different sections of an interconnect. One of these impedance matching techniques is the quarter-wave impedance transformer, which can be implemented as a printed trace with specific impedance.
We are happy to announce that the Altium Designer 22.10 update is now available. Altium Designer 22.10 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!
A staff member at a PCB manufacturer once explained to me that they thought we were having an issue with a package warping. Unfortunately, component warping can occur both in a PCB and in components. In this article, we'll give an overview of warpage in a PCB, specifically in the circuit board and in the components.
If you're designing a wireless IoT device, and you know how to calculate the link budget, you can reasonably estimate whether your signal will reach its destination and be read by the receiver. To calculate the link budget, the designer needs to know something about all other sources of gain and loss in the system. Once link budget is determined, the designer can judge whether some modification is needed in their RF signal chain.
SMD components require precisely sized pads for soldering during assembly. The designer is responsible for ensuring pad sizes are correct, either by calculating them and comparing with footprint data, looking through datasheets, or by memorizing SMD pad size standards. If you have a component and you don't have access to the footprint, and you decide to biuld the footprint yourself, what resources are available to ensure you have the correct pad size?
Before we get too deep into this article, I’ll give you the simple answer. You probably can’t fix warping in your PCB after it’s already been fabricated. You can prevent an unwarped board from becoming warped during assembly, but only as long as materials were selected properly and the board is put into reflow correctly. We’ll run over some of these points in this article, and I’ll examine some points that might help you recover a warped board.
The eye diagram is a useful measurement or simulation as part of channel compliance. The measurement shows many different factors that can affect signal behavior simultaneously, ultimately allowing for qualification of errors and losses in a channel. In this article, I’ll run over some of the fundamental measurements that you could manually extract from an eye diagram and how they reveal some strategies for improving channel designs.
To readers who have been working in the PCB industry for most of your career, you have probably seen a very diverse group of professionals with varied skill sets and backgrounds. Designers might get started as engineers or as technicians, and some designers learn how to create beautiful PCB layouts in university. No matter how you got into PCB design, there are some important skills to know that will take you a long way towards advancing your career.
When starting out with PCB design, it’s common to treat the process as simply ‘connecting the dots’: as long as connections are made, it’s not particularly important how these connections are made. Having reviewed quite a number of PCBs of other PCB design engineers over the last few years, there are common, unfortunately erroneous, occurrences between a lot of them. This article aims to illustrate the top five beginner PCB design mistakes and what we can do to avoid making them. Let’s get started!
As the PCB design community embraces the benefits of this new printed circuit board fabrication technique, there are of course many questions to be answered. Today’s blog will address some of the most commonly asked questions related to circuit layer stack up as people are introduced to this new technology.