News & Updates
Via protection is an important part of modern PCB design. It provides additional benefits in PCB manufacturing and assembly, increasing the number of acceptable products.
Version control systems (VCS) have been around for a long time in the software world but can be surprisingly new to some folks in the electronics design industry. Version control tools are great for tracking and maintaining entire codebases without the old-school copying, pasting, zipping, and emailing steps many PCB designers use.
Power integrity problems can abound in modern PCBs, especially high-speed boards that run with fast edge rates. These systems require precise design of the PDN impedance to ensure stable power is always delivered throughout the system.
A design project doesn’t appear out of nowhere. The design process spreads over time, and project documents change. Schematic documents gradually become more complex, new functional blocks appear, and already finished parts can be modified and updated.
Capacitance is your friend whenever you need stable power integrity, which is why there is so much focus on decoupling capacitors. While these components are important and they can be used to provide targeted power integrity solutions to certain components, there is one specialty material used to supercharge capacitance in your PCB stackup or package substrate.
The problems you can experience with components and libraries are endless. These problems are the most significant source of design issues and the biggest reason behind respins, costing companies untold amounts of lost profit annually.
If you want to have a better understanding of how to use Altium 365 to maintain a strong and centralized library that is free of problems and headaches, you may want to consider attending this lecture.
As much as we would like to build every high speed PCB perfectly, with ideal SI/PI/EMI characteristics, it isn’t always possible due to many practical constraints. Sometimes a stackup can be “good enough,” even for a high-speed PCB. This always comes from the need to balance engineering constraints, functional requirements, and the need to ensure signal and power integrity in a high-speed design, and finally to ensure compliance with EMC requirements.
When it's time to release your project to your manufacturer, it's essential to ensure that all the necessary design aspects like assembly, BOM, and documentation are accurately and completely conveyed. Consistency is key to ensuring a successful release. Without clear release documentation, the designer faces increased risks of costly manufacturing response, time-consuming rework, or unintentional defects that can make it into the final product.
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.
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.
When we talk about S-parameters, impedance matching, transmission lines, and other fundamental concepts in RF/high-speed PCB design, the concept of 50 Ohm impedance comes up over and over. Look through signaling standards, component datasheets, application notes, and design guidelines on the internet; this is one impedance value that comes up repeatedly. So where did the 50 Ohm impedance standard come from and why is it important?
For the home hobbyist, protecting their electrical devices usually means keeping the coffee cup or soda can away from anything that carries a large voltage. Good practice indicates that electrical devices should be housed in an enclosure to protect expensive components and reduce the risk of electric shocks from exposed circuitry. However, what do you do if the fantastic new device you’ve designed needs to work in a humid, damp, or dripping wet environment?
Have you ever opened up an old design and wondered how much of it was still usable? Maybe you were contacted by an old client, and they want you to provide some updates on an old design. No matter what the situation is, there are times where updating old PCB designs with new parts makes sense. If done correctly and when armed with all the right information up front, you can cut down the total design time while preserving the best parts of your design in a new iteration. Here’s what you can do to update your old designs successfully and how your PCB design features can help.
The more complex the product gets, the more involved your customer will need to be to ensure you’re designing to their requirements. When you’re using a data sharing system that integrates with your PCB design tools, it’s easy to give your customers visibility into the product development process. Altium 365 is the only system that integrates with Altium Designer® and gives you the ability to give anyone access to your PCB projects, including your customers and manufacturer.
Anytime you’re looking for a fabricator to produce your new design, you should ensure they have a robust quality control program. Where can quality defects arise and how can manufacturers quickly get this information back to a design team? Sometimes emails can leave too much ambiguity and it is difficult to track progress on specific design changes in the PCB layout. If you’re planning to put a new design into high volume production, there are some basic points that should be checked during fabrication and assembly as part of a PCB manufacturing quality control program.
Controlling crosstalk is one of the key goals in any PCB design. In most instances, when we talk about crosstalk, it’s in reference to the unwanted interaction of the electromagnetic field traveling on one transmission line with a neighboring transmission line. But crosstalk can also occur in the connector pin out. This article will describe this type of crosstalk, the types of disruptions it causes, wherein the design cycle it needs to be factored in and how it can be successfully controlled.
When you’re working through a new PCB design project, and you need to keep track of your project revisions, Altium 365™ creates the ideal environment for collaborative PCB design and revision tracking. Once you upload your projects onto the cloud through the Altium 365 platform, Altium 365 creates a Git repository for your project. It allows you to make it available to collaborators through Altium Designer®. This includes a complete project history, which can be easily accessed by collaborators working on a complex project.
The moment you push your Gerbers to a manufacturer for a DFM inspection, it can be a nerve-wracking experience waiting for a response. Before you receive your working boards, there will likely be some back-and-forth communication before your board hits the fabrication line. When manufacturers and designers need to resolve problems in Gerber files before fabrication, it helps to have a Gerber compare utility. The newest version of Altium Designer now offers this feature through the Altium 365 platform, giving everyone visibility into changes to Gerbers before fabrication.
No matter how you might feel about renewable energy and associated environmental issues, electric vehicles are becoming more mainstream and will become the primary mode of transportation in the future. For the engineering community, what’s much more interesting is how our power distribution and management infrastructure can support this shift to massive increases in the use of electricity on the grid. So what’s the rub for PCB designers?
When you’re working through a complex PCB layout, it always helps to know the shortcuts you can use to stay productive. Altium Designer® keyboard shortcuts, and keyboard + mouse shortcuts, can help you easily walk through your PCB layout during design and as part of final checks during a design review. Here are some of my favorite keyboard shortcuts and viewing options that help me stay productive, and I hope they can do the same for you.
High speed PCB interconnects have continued to remain an active challenge in modeling and simulation, particularly when dealing with broadband signals. The IEEE P370 standard is a step towards addressing the challenges faced by many designers in determining broadband S-parameters for high speed structures up to 50 GHz. Although this standard has been in the works since 2015, it finally passed board approval and appears as an active draft standard.
Amplifiers can come in all shapes and sizes, depending on their bandwidth, power consumption, and many other factors. A Class-D amplifier design is normally used with high fidelity audio systems, and circuits for a Class-D amplifier are not too difficult to build in a schematic. If you’ve never worked with a Class-D amplifier or you’re looking for a fun audio project, follow along with this PCB layout.
Modern digital systems throw the digital electronics textbooks out the window, and high-speed DDR memories are a perfect example of the paradigm shift that occurs when you jump into IC and PCB design. With DDR5 still being finalized, and DDR6 now being discussed, designers who are already comfortable with DDR4 will need to consider how their design practices should adjust to accommodate the constant doubling of data speeds in these high-speed memory technologies.
In my experience, the somewhat vague information you might find in a typical crystal datasheet doesn’t enable an engineer to be wholly confident that their design expectations can be met. On the other hand, “blindly” adopting what the crystal datasheet says usually results in adequate frequency stability. If you want to get inside and uncover what is going on, you need to start thinking about the crystal as a phase-shifting network.
Antipads on vias and landing pads are a point of contention in modern PCB design, and the debate around the use of these elements in a multilayer PCB is framed as a binary choice. Like thermal reliefs, ground plane splits, and orthogonal routing, the debate around antipads on landing pads and vias is framed as an always/never choice. With today’s modern PCBs, it pays to understand the effects of antipads on signal integrity.