News & Updates
Learn why BOM management is critical for both procurement managers and electronic engineers. Altium 365 BOM Portal helps to bridge the gap between these worlds. Discover how!
Watch the webinar and get a sneak peek at revolutionizing your engineering, compliance, and procurement approach with Altium 365 and Z2Data integration. Leverage comprehensive component data and advanced risk management strategies to enhance resilience in your operations.
Watch our webinar and learn how to design PCBs while staying compliant with US government security regulations. Understand the differences between commercial Altium 365 and Altium 365 GovCloud in real-case scenarios.
Happy New Year! 🎉 We are thrilled to announce that the Altium 365 Assembly Assistant is now officially released and available for direct purchase through the Altium Store.
Creating documentation for hand PCB assembly does not prevent the same documentation from being utilized to assist in automated PCB assembly. Learn more about the optimal format for this data to enhance both your hand PCB assembly and overall assembly processes.
Explore the powerful features of Altium Designer 24! Experience Constraint Manager and revolutionize your PCB design with reusable constraint sets, schematic-to-board rule transition, easy class and differential pair grouping, and more.
Curious about how to solve production blockers before they derail your product launch? Explore how Altium 365® can help you swiftly manage last-minute design changes.
We are advancing our Open Source Laptop project to the next stage: assembling lid electronics. In the first part of this phase, we are focusing on the electronics and PCB design of the webcam module.
The efficiency of production lines is crucial for any successful hardware product development. However, some challenges derail these processes. Do you face these problems, too? Let’s find out!
3D-MID technology seamlessly integrates electrical circuits with three-dimensional mechanical parts. This unique fusion of functionality unlocks a myriad of possibilities across various application areas. Explore more about this innovative feature, available in Altium Designer 24, to delve into the fascinating world of the 3D design process.
The PCB design process is always an exciting journey for a designer or the founder of a project. The first run of it can be breathtaking. In this article, we delve into strategies for minimizing PCB damage in the case of an exemplary circuit.
Explore the hidden impact of fragmented feedback loops in PCB design and testing. Check how minor communication gaps lead to significant financial burdens and learn how to address them.
The maximum PCB trace length you can place between two components depends on multiple factors, such as signaling protocol, component specification, losses in PCB laminate, and skew. With all this in mind, let’s look at where losses accumulate along the channel.
For low power devices, we generally see two types of power regulators: a low dropout regulator (LDO) or a switching regulator. You can mix and match these at different points along your power bus, but there’s still the matter of choosing whether to use an LDO vs. a switching regulator in your designs. If you’ve ever wondered how these decisions are made and when to use each type of regulator, just know that there is more to this decision than simply looking at the input/output voltage/current.
PCB fabrication is an extremely complex technological topic that deserves recognition as the most fundamental part of PCB engineering. Unless connectors, conductive adhesive, wire-bonding, or zebra-tape are used, in the modern electronics industry it’s always necessary to use some kind of flux during the soldering process to create an electric connection. In this article, we’ll discuss fluxes — what they are, what they are made of (yes, there is going to be a lot of chemistry, don’t be scared), how they should be used, and in what direction the industry is going.
As anyone who designs and builds electronic devices knows, the device will generate heat when it’s switched on. Wherever current flows through an impedance, energy losses will manifest themselves as heat. Integrated circuit packaging is getting smaller to meet the trend for more compact devices but at the cost of poorer thermal properties. This article describes the basic thermal management approaches to consider in your next designs.
We continue to explore the magic of energy conversion in a PWM transducer. Why is it magic? Theoretically, in a PWM transducer this happens without losses, isn't that magic? A PWM transducer, like a tailor with scissors, cuts the “fabric of energy” into pieces, and then, like a sewing machine, stitches the pieces of energy into a dress - DC Magnitude. What is a constant component and how can we get it? Let's explore!
There are different techniques in the world of technology to achieve various goals, both final and intermediate. Some techniques are so successful that they are commonly used with high efficiency. Electronics is no exception. The greatest example is the use of Pulse Width Modulation (PWM) signals (energy), which is applied in any modern electronic device. To apply PWM effectively, it is necessary to understand the engineering difficulties that engineers faced in the past, and the thoughts and ideas that subsequently were combined into effective, complete PWM power solutions.
If you speak with a bunch of design engineers, you might quickly form the opinion that the electrolytic capacitor has a particularly dubious reputation. A faulty electrolyte mix used in these types of capacitors led to premature device failures, and quite often, a “bit of a mess” was made to the PCBs on which they were soldered. However, despite the problem of the capacitor plague, this article is focusing on helping the designer understand how to get many more years of useful life from an electrolytic capacitor.
A schematic drawing will not only tell your PCB design software what needs to connect where, but it also communicates the purpose of a circuit to other people. It’s easy to create a schematic, but it can be harder to make a helpful schematic that can be quickly and easily read and comprehended by the reader. In this guide, based on years of industry experience, we will show you how to improve your schematic layout so that your designs are elegant and readable.
Suppose your job involves rapidly iterating designs or creating a wide variety of products for clients. In that case, there are some essential tools available that can save you a tremendous amount of time, bringing high engineering risk devices to completion successfully. Whether you’re working on internal projects or developing high mix devices for clients as a consulting or freelance firm, these indispensable tools will help you ship a higher quality product in less time.
Even though today’s cloud platforms are immaculately secure and they allow a range of files to be easily shared, there are times where you should limit the data you’re sharing to only the critical files required. For PCB designers, this means either sharing entire design projects or sharing individual files with your manufacturer, customers, contractors, or collaborators. If you want to eliminate liabilities and keep your team’s design data secure, consider these best practices for sharing PCB design data with Altium 365.
Best component companies will release reference designs for their new and legacy products to show designers an example application for a component. If the reference design is good enough and it very nicely illustrates how to quickly engineer around a few main components, I’m likely to use them in the design and the component maker has just earned my business. If you’re a newer designer and you’re wondering whether reference designs are right for your next project, follow these best practices so that you don’t make any mistakes with your reference design.
When we deal with “abstract” aspects of electromagnetic fields and how they function, it can be easy to get lost in the weeds regarding them. The first part of this article will address an important aspect of transmission line fundamentals, namely how electromagnetic fields and waves propagate on a transmission line. This article’s end goal is to create a core understanding of these concepts so that when it comes time to design a PDS, the proper design methodologies are followed and a properly working PDS is achieved appropriately, the first time and every time.
Via stubs are sometimes viewed as an annoyance, especially when you only need to make a transition between adjacent layers. For low speed, less-dense boards with low layer count, via stubs are an afterthought, or they may not receive consideration at all. For faster edge rates/higher frequencies, the conventional wisdom is to remove all via stubs. The question is: what exactly counts as “high frequency,” and how do you figure out the relevant length?
Unlike the clumsy human finger, a thermal camera can detect minute temperature differences across its view. This allows you to rapidly identify any components that are consuming current. Any parts or areas of your board that draw current will also generate heat that can easily be picked up by a thermal camera.
I want to share a little secret with you in this article: Assembling SMT prototypes boards is not only easy, but it requires very little equipment. Using just a stencil, I can easily hand prototype down to 0.3 mm pitch ICs, and 0201 (imperial) sized passive components. If you’re currently hand assembling boards with a soldering station, you need to stop this immediately and start using a stencil instead!
With the challenges of 2020 behind us, what challenges and opportunities lie ahead for hardware designers in 2021? In this article Vince Mazur, Technical Product Marketing Engineer at Altium, looks ahead to three emerging trends and share steps to address each one successfully in the year ahead.