News & Updates
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.
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.
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.
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.
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.
RF structures can be complicated to design and layout, particularly because many RF systems lead double lives as digital systems. Getting an analog signal out of a component and into a waveguide for high isolation routing is not so simple as placing a microstrip or stripline coming off your source component. Instead, you need to create a special microstrip to waveguide transition structure to ensure strong coupling into and out of your waveguide.
Layouts for complex electrical systems may need to make extensive use of copper pour to provide ground nets, power nets, shielding, and other copper structures for power and signal integrity. Backplanes, motherboards, RF products, and many other complex layouts will make use of copper pour and polygons that can’t be easily placed as custom components. The rules-driven design engine in Altium Designer® also ensures that any PCB polygon pour you place in your PCB layout will comply with clearance rules and will be checked against other electrical design rules.
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.
If you need to connect multiple boards into a larger system and provide interconnections between them, you’ll likely use a backplane to arrange these boards. Backplanes are advanced boards that borrow some elements from high speed design, mechanical design, high voltage/high current design, and even RF design. They carry their own set of standards that go beyond the reliability requirements in IPC.
The upcoming Gen6 version of PCIe is pushing the limits of signal integrity for many computer systems designers. As with any high-speed signaling standard, signal integrity is a major design consideration, which requires the right set of design and analysis techniques. Rather than digging deep to find PCIe 5.0 signal integrity requirements from PCI-SIG, we’ve compiled the important points for today’s PCB layout engineers. Layout engineers should pay attention here as these design requirements will become more stringent in later PCIe generations.
An essential aspect of project management is time management, especially when your design team is working remotely. Your time management strategy is team-based and individual, but time can easily get spent on important tasks when working as part of a team. So how can you streamline important collaboration tasks for your design team to increase productivity?
In these days of easily-available internet and quarantines, everyone is working remotely. It’s nice being able to spend time with family and regain control over your schedule, but keeping track of projects and revisions while securing user access feels like its own job. With the right set of project and data management tools, you can easily share your data with collaborators without tracking email chains.
When I started using my Altium 365 Workspace for collaboration, I found I could make things run more smoothly when I kept things organized. However, I prevented any issues thanks to all the organization tools built into the Explorer panel within Altium Designer. Let’s take a look at how you can get the most value out of your Altium 365 Workspace in terms of organization and access management.
This article explores how modern engineering teams manage complex projects involving multiple ECAD, MCAD, and manufacturing file formats across distributed workflows. It highlights the importance of design authority, disciplined revision control, and bidirectional collaboration to ensure accurate integration between PCBs and mechanical systems.
Complex multiboard designs demand more than just connecting boards together. They require every interface to work flawlessly under real-world conditions. Discover how better pin assignments, return paths, and mechanical planning can dramatically improve reliability and reduce rework.
Engineering and sourcing teams work best when BOM decisions happen with live market data in view. This article explains how integrated cost and availability insights help teams collaborate earlier and avoid redesigns driven by supply chain issues.
Poor ECAD-MCAD coordination often leads to enclosure conflicts, connector misalignment, and costly redesigns. This article shows how integrated collaboration helps teams catch manufacturability issues earlier and keep projects moving smoothly.
Ultra HDI is changing the rules of PCB design and registration tolerance is now part of the design conversation from day one. Discover how smarter spacing, stackup planning, and collaboration with fabricators can dramatically improve manufacturability and reliability.
Because ECAD formats are typically incompatible, teams often struggle with versioning, conversions, and fragmented review processes. This article breaks down how multi-CAD viewers provide a unified, read-only environment that supports structured design reviews, comments, and task assignment across disciplines.
Sharing PCB designs doesn’t have to be complicated. Check out the best online ECAD viewers that let anyone view and collaborate on designs right from a browser.
Rigid-flex PCBs help modern devices get smaller, lighter, and more compact by eliminating connectors and fitting into tight 3D spaces. This article explains how to design them properly to avoid common reliability issues.
This webinar walks through the complete post-release workflow, from generating a managed BOM to sourcing components and assembling the first prototype. It demonstrates how integrated tools streamline data enrichment, supplier selection, and guided assembly to reduce delays and errors.
BOM management is no longer just a checklist. It’s becoming a real-time engine for smarter decisions! Discover how AI, automation, and connected systems are transforming BOMs into powerful tools for navigating supply chain uncertainty.
Working across different ECAD tools can make design reviews messy and inefficient. This article shows how a multi-CAD viewer simplifies collaboration by letting teams view, comment, and manage designs in one place.
This article examines how fragmented ECAD-MCAD workflows create costly misalignments, late-stage conflicts, and inefficiencies in multiboard system design. It shows how unified, collaborative platforms enable real-time synchronization, digital twins, and cross-domain visibility to eliminate rework and streamline development.
Choosing the right PCB tool can define your entire design workflow. Discover how Altium Designer empowers professional product development, while Flux.ai keeps things simple for fast experimentation.
Rigid-flex stackups are more complex than they seem and getting them wrong early can lead to costly failures later. This article shows how smart decisions around materials, transitions, and layer structure help ensure a reliable design.
Understand how structured design reviews within Altium Agile Teams enhance visibility, traceability, and cross-team collaboration. This webinar highlights methods to detect issues early and optimize your development workflow.
Parsing long datasheets manually slows down embedded development and introduces errors. This article shows how to use a local LLM pipeline to convert datasheets into structured data that speeds up driver creation.