News & Updates
No-clean flux has become popular due to its convenience. Learn more about why this solution is used, why cleaning might still be necessary, and how to remove no-clean flux residues. We will try to dispel all these doubts in this brand new article.
Simulation of electronic circuits is a key factor in the success of your design. A SPICE circuit simulator may be used to speed up the design analysis. Learn more about how Altium Designer can help you with automated measurements, saving you time and money during the design process.
Check out our refreshed feature page about Rigid-Flex PCB Design and see how Altium Designer’s unified environment can help you manage this kind of project with no limitations or additional licensing required.
Struggling with manual data errors in your electronics projects? Watch the webinar to learn how Altium 365 cloud PLM integration with Duro® minimizes errors and rework, saving you time and money.
Thermal problems in PCBs often go unnoticed until prototyping, which can be costly. Design teams can't afford endless iterations, but they can conduct lower-cost thermal prototypes. Learn more about this approach in our new article.
Discover six challenges of managing disconnected PLM workflows in electronics product development. Identify your main challenge and find the solution here.
In this article, we will examine specific cases involving these types of components, where a very low-frequency signal or a DC signal needs to be measured, and the return path must be tracked to ensure the current loop is tight.
Replicate your circuits across multiple blocks with just a few clicks using a flawless preview pane, ensuring consistent, perfect results without the need for trial and error. Check out our new article on the PCB Layout Replication feature.
Learn how Valispace is transforming the world of requirements and systems engineering, enabling teams to do super fast design iterations and develop quality products while ensuring they comply with standards and regulations.
Pin headers are common components in PCBs, yet one specification often overlooked is the plating material. Discover more about plating materials for electrical connectors in our latest article.
Once you’ve run out of room on your 4-layer PCB, it’s time to graduate to a 6-layer board. The additional layer can give you room for more signals, an additional plane pair, or a mix of conductors. How you use these extra layers is less important than how you arrange them in the PCB stackup, as well as how you route on a 6-layer PCB. If you’ve never used a 6-layer board before, or you’ve had EMI troubles with this stackup that are difficult to solve, keep reading to see some 6-layer PCB design guidelines and best practices.
We are happy to announce that the Altium Designer 22.5 update is now available. Altium Designer 22.5 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!
PCB stackups often incorporate slightly dissimilar materials that could pose a reliability problem. Hybrid PCBs are one case where the PCB stackup will include different materials, typically a standard FR4 laminate and a PTFE laminate for RF PCBs. Designers who want to take the lead on material selection when designing their hybrid stackups should consider these factors that affect reliability. As with any PCB stackup, make sure you get your fabricator involved in the manufacturing process early to ensure reliability problems do not arise during production.
In a previous article about circuit simulation and reliability, I looked at how Monte Carlo analysis is commonly used to evaluate circuits that are subject to random variations in component values. Sensitivity analysis is a bit different and it tells you how the operating characteristics of your circuit change in a specific direction. Compared to a Monte Carlo simulation, sensitivity analysis gives you a convenient way to predict exactly how the operating characteristics will change if you were to deliberately increase or decrease the value of a component.
Field Programmable Gate Arrays, or FPGAs, have become ubiquitous amongst high-speed, real-time digital systems. The speed at which FPGAs operate continues to increase at a dizzying pace but their adoption into Continuous Integration pipelines seems not to trail as closely. In this article we will review the concept of CI pipelines, their application to FPGAs, and look at examples on how to set this up.
Conflicts can occur when multiple people work on the same project simultaneously. The user might not realize that they are not looking at the latest version of the documentation, leading to problems later. To address this issue, Altium features an intuitive graphical user interface that allows you to examine conflicts quickly and carefully
Anytime you place a component in your PCB, it’s almost like you’re gambling. All components have tolerances, and some of these are very precise, but others components can have very wide tolerances on their nominal values. In the event the tolerances on these components become too large, how can you predict how these tolerances will affect your circuits?
If you look in datasheets for most components, you’ll often find a recommended land pattern, usually alongside some mechanical package information and assembly information. This is not always the case with BGA components, especially components with high ball count. There are a few reasons for this that we can speculate: those ball counts might just be too big to put into a single page, or the manufacturer just expects you to know how to create that land pattern.
Molded interconnect devices are essentially plastic molded substrates with traces running along any surface, including at right angles and running vertically. Altium users can use the new 3D Routing extension to design their own component carriers, which can be mounted vertically in a standard assembly process. If you’ve always wanted to vertically mount components or entire circuits, but without the expense of adding a flex section to your design, the new 3D Routing extension with HARTING’s component carrier designs provides a unique solution.
Altium has released version 2.9.0 of the MCAD CoDesigner. This version has the option to exclude small components when transferring from ECAD to MCAD. The arc behavior was improved, and the support for splines in board shape and cutouts was added. With this release, you can now select a specific SOLIDWORKS configuration of a part to use on the board and view the improvements made for Siemens NX.
Altium Designer's world-class PCB design features help users quickly get started with new rigid-flex designs and prepare them for manufacturing. Rigid-flex in Altium Designer starts with designing a manufacturable PCB layer stack complete with via transitions and any calculated impedance requirements. Keep reading to see how Altium Designer supports your flex and rigid-flex designs.
Like any other advanced PCB, success in HDI design comes from designing the right stackup. One common HDI stackup used to support routing into moderate pin count, high-density BGA components is the 2+N+2 PCB layer stack for HDI boards. We’ll explore this stackup more in this article, as well as how it is related to other advanced stackups used in HDI PCBs.
Altium 365 Web Viewer now includes a built-in PDF viewer that allows you to view PDF files in releases without an external PDF viewer application. Keep reading to learn about new key features that make your work easier
There are two basic reasons for designing a flex circuit into your product: to build a compact and efficiently assembled device, or to make the circuit dynamically integrated with the mechanical function of the product. You may, of course, lean on both of these reasons for justifying the use of flex circuits. On this note, let’s look at some rigid-flex PCB applications and design examples to see the issues that spring to mind when designing flex circuits
With Altium 365, you can grant permission to teams or users based on the specific needs of a project. We have expanded Altium 365’s file-sharing setting, giving you more granular control over who can download source files and reshare projects with others
Any time you design a PCB, and you want to turn it into a real product, you will have to make sure the design obeys the constraints within the standard PCB manufacturing process. This imposes multiple rules on any design, and ECAD software will enforce design rules as you create the board to ensure you obey these important constraints. Make sure you enforce the right design rules at the beginning of the PCB design workflow
Do you ever have to edit a large group of objects on your design? Whether you are dealing with your schematic or PCB, this webinar will help you get acquainted with the main tools for group editing of objects in Altium Designer. You will also learn how to effectively apply group editing methods with filters and selection tools in different design scopes.
Version control has been a staple of software development for decades, but hardware development can benefit just as much from a version control system (VCS). Traditionally, VCS has been managed locally tying you down to a workplace, but advances in cloud technology have removed that limitation. Learn how Altium 365 cloud technology enables working concurrently on designs with built-in version control and evaluate its advantages.
The design process often requires repetitive work with tedious tasks. Altium Designer 21 represents a better way to design by revitalizing long-standing functionality and improving the user experience, as well as performance and stability, based on the feedback from our users. These improvements streamline existing design tasks and empower you to complete sophisticated rigid and rigid-flex designs with realistic 3D modeling.
Printed Electronics is emerging to become as common as 3D printing. With this fast-emerging technology, new possibilities have come into the manufacturing arena, allowing engineers and designers to develop products in markets never before realized. With the emergence of many contract manufacturers possessing this capability, the cost is competitive. Quick-turn prototypes and volume production are now all possibilities, and with Altium 365® you stay connected directly with your manufacturer throughout the design process.
An OutJob is simply a pre-configured set of outputs. Each output is configured with its own settings and its own output format, for example, output to a file or to a printer. OutJobs are very flexible – they can include as many or as few outputs as required and any number of OutJobs can be included in a project. The best approach is to use one OutJob to configure all outputs required for each specific type of output being generated from the project.
Getting your PCB layout design done takes patience and precision. Complex footprint geometries, board shape, and dense component placement require accurate primitive positioning. Each stage of PCB design needs a different snapping configuration. Often your settings can be excellent for one stage and be unfavorable for another. Learn more about different snapping usage patterns and best practices of efficient snappings.
No one wants to do a board respin because of inaccurate or incomplete manufacturing outputs confusing design intent. This webinar covers the information needed for PCB Manufacturing and Assembly, as well as, a simple way to communicate and collaborate with manufacturing.
You need to define your PCB geometry in the context of your enclosure. If your board cannot physically be assembled into the final product, it doesn't matter how well laid out it is electrically. This webinar focuses on how the MCAD CoDesigner allows you to edit your PCB in the context of a higher-level assembly, allowing you to respect the relevant mechanical constraints.
You need to define your PCB geometry in the context of your enclosure. If your board cannot physically be assembled into the final product, it doesn't matter how well laid out it is electrically.
This webinar focuses on how the MCAD CoDesigner allows you to edit your PCB in the context of a higher-level assembly, allowing you to respect the relevant mechanical constraints.