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Embedded thumbnail for Tent Vias under BGA
How to Design a BGA
Tent Vias under BGA

When via are located close to component pads some soldering issues can arise, but this can be fixed with Tented vias. We’ll show you how to manually tent vias and how to tent vias through the Design Rules.

How to Design to a Differential Impedance Specification
Blog
How to Design to a Differential Impedance Specification

The concept and implementation of differential impedance are both sometimes misunderstood. In addition, the design of a channel to reach a specific differential impedance is often done in a haphazard way. The very concept of differential impedance is something of a mathematical construct that doesn’t fully capture the behavior of each signal in a differential trace. Keep reading to see a bit more depth on how to design to a differential impedance spec and exactly what it means for your design.

Embedded thumbnail for Via-in-Pad for BGA
How to Design a BGA
Via-in-Pad for BGA

We’ll teach you how to use Via-in-pad to reduce inductance, improve signal integrity, and improve power distribution system performance in BGA designs.

Embedded thumbnail for Using HDI Stackups during BGA Design
How to Design a BGA
Using HDI Stackups during BGA Design

Micro Vias and Buried Vias play an important role in high density interconnection layer stackups (HDI Stackups). We’ll show you how to add via and create rules to allow you to take full advantage of the HDI Stackup.

Product Lifecycle Management in Electronics Manufacturing
Blog
Product Lifecycle Management in Electronics Manufacturing

An effective product lifecycle management (PLM) solution will integrate the tools and processes employed to design, develop and manufacture a new device. This solution goes beyond engineering activities to include the project management, process control, and financial management of the end-to-end business processes. PLM solutions create this collaborative environment where product development can flourish, bringing additional benefits in efficiencies and transparent communications, breaking silos, and speeding up the development process.

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On-Demand Webinar
Length Matching in High Speed Buses

With ever increasing speeds in high-speed data systems comes a couple of PCB layout challenges. High-speed busses like DDR, VME, PCIe just to mention a few can all reach data transfer speeds that require strict timing with very tight tolerances, thereby leaving very little slack in the PCB layout. Watch this on-demand webinar to learn why it's imperative to match track lengths in high-speed data systems and differential signals. You’ll see how to properly define PCB length matching and time delay constraints, and how to effectively route high-speed signals in Altium Designer®.

Tight versus loose coupling
Blog
Should You Use Tight vs. Loose Differential Pair Spacing and Coupling?

In this article, we want to get closer to a realistic description of tight coupling vs. loose coupling in terms of differential pair spacing, as well as how the differential pair spacing affects things like impedance, differential-mode noise, reception of common-mode noise, and termination. As we’ll see, the focus on tight coupling has its merits, but it’s often cited as necessary for the wrong reasons.

Embedded thumbnail for Automatic Fanout With BGA
How to Design a BGA
Automatic Fanout With BGA

When routing a BGA it can be necessary to use automatic fanout to make the routing process easier and faster. We’ll show you how to run the automatic fanout for routing a BGA and how the rules can affect the outcome of the route.

Embedded thumbnail for Specifying NSMD and SMD for BGA
How to Design a BGA
Specifying NSMD and SMD for BGA

BGA layouts use two types of pads: SMD, Solder Mask Pads, or NSMD, Non-Solder Mask Pads. Here we’ll walk you through the differences and how to specify and edit them for your layout.

Engineering Design Review Guide
Blog
How to Solve Your Engineering Design Review Challenges

You’ve possibly gone through plenty of engineering design reviews, both on the front-end of a project and the back-end before manufacturing. Engineering design reviews are performed to accomplish multiple objectives, and with many engineering teams taking a systems-based approach to design and production, electronics design teams will need to review much more than just a PCB layout and BOM. Today’s challenges with sourcing, manufacturability, reliability, and mechanical constraints are all areas that must be confronted in real designs

Embedded thumbnail for Via Shielding and Stitching
Via Stitching
Via Shielding and Stitching

Altium Designer gives you full control over your via shielding and stitching. We’ll show you how to use our shielding and stitching tools, how to alter their parameters, and how to remove any unwanted via shielding and stitching.

Schematic Review Checklist
Blog
Schematic Review Checklist

One of the most common points of failure of a device occurs even before you start to layout your circuit board. Mistakes in your schematic design can easily make their way all the way into prototypes or production without a second thought once layout starts. In this article, I’m not going to extol the virtues of a good schematic design. Instead, this article is a simple no frills checklist.

Embedded thumbnail for xSignals for DDR3 and DDR4
How To Work with High-Speed Projects
xSignals for DDR3 and DDR4

In a high-speed design, DDR3 and DDR4 memory chips can utilize xSignal classes to match track lengths from the controller to the memory chip easily and quickly using the xSignals wizard.

Embedded thumbnail for High-Speed Tuning
How To Work with High-Speed Projects
High-Speed Tuning

If you use high-speed interfaces like USB 3.0, PCIE, or DDR3/DDR4, you need to use match length tuning to ensure that they work properly. We’ll show you why and how, as well as demonstrating the different tools for length tuning.

Via current carrying capacity for PCBs
Blog
PCB Via Current-Carrying Capacity: How Hot is Too Hot?

One common question from designers is current-carrying capacity of conductors in a PCB. Trace and via current-carrying capacity are legitimate design points to focus on when designing a new board that will carry high current. The goal is to keep conductor temperatures below some appropriate limit, which then helps keep components on the board cool. Let’s dig into the current state of thermal demands on vias in PCBs and how they compare to internal and external PCB traces.

Simple Simulation in Altium Designer
On-Demand Webinar
SPICE Simulation Made Simple

SPICE simulation saves you critical time in the prototyping phase. Understanding your simulation interface makes it simple to analyze how your circuits work in different scenarios. Altium Designer provides an intuitive, dedicated interface to support your simulation verification, setup, and analysis directly in your schematic environment. You also benefit from growing support for popular model formats, as well as generic models, simplifying circuit definition and simulation.

PCB Shield
Blog
Phalanx, not Failure: PCB Shielding to Protect Your Design

A combination of good printed circuit board design and good shielding mitigates EMI. Good PCB design for EMI shielding revolves around the layout, the placement of filters, and ground planes. A well-designed PCB minimizes parasitic capacitance and ground loops. Keep reading to learn more about PCB shielding.

Embedded thumbnail for Using Document Parameters with Draftsman
How to Work with Draftsman
Using Document Parameters with Draftsman

The Draftsman Editor in Altium Designer uses document parameters to allow fine grain control over the draftsman document. We’ll show you how you can use the document parameters in your Draftsman document. 

Embedded thumbnail for High-Speed Features of Creating a Stack
How To Work with High-Speed Projects
High-Speed Features of Creating a Stack

The foundation of any high speed design is the layer stack. We’ll show you some of Altium Designer’s powerful layer stack creation features.

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Altium Designer interface
Blog
Altium OutJob Files vs. Project Release: What's the Difference?

When it’s time to share your design data with your manufacturer, it’s like taking a leap of faith. Sending off a complete documentation package might seem as easy as placing your fab files in a zip folder, but there are better ways to ensure your manufacturer understands your project and has access to all your design data. For Altium Designer users, there are multiple options for creating and packaging release data into a complete package for your manufacturers.

Power component on PCB
Blog
Testing the Limits of Your LDO's Efficiency

If you’re designing a circuit board to be powered by anything except a bench-top regulated power supply, you’ll need to select a power regulator to place on your board. Just like any other component, your regulator has stated operating specs you’ll see in a product summary, and it has more detailed specs you’ll find in a datasheet. The fine details in your datasheets are easy to overlook, but they are the major factors that determine how your component will interact with the rest of your system.

PCB Laboratory Equipment
Blog
How Total Harmonic Distortion Affects Your Power System

It would be nice if the power that came from the wall was truly noise-free. Unfortunately, this is not the case, and although a power system can appear to output a clean sine wave, zooming into an oscilloscope trace or using an FFT will tell you a different story. When you take "dirty" power, put it through rectification, and then pass it through a switching regulator, you introduce additional noise into the system that further degrades power quality. If you’re a power supply or power systems designer, then you know the value of supplying your devices with clean, noise-free power.

Copper on PCB
Blog
What PCB Copper Thickness Should You Use?

If you’re an electronics designer or you’re just beginning your career as an engineer, the PCB stackup is probably one of the last things you’ll think about. Simple items like PCB copper thickness and board thickness can get pushed to the back burner, but you’ll need to think about these two points for many applications as not every board will be fabricated on a standard 1.57 mm two-layer PCB

Finished PCB
Blog
Should You Route Signals in Your PCB Power Plane?

I often get questions from designers asking about things like signal integrity and power integrity, and this most recent question forced me to think about some basic routing practices near planes and copper pour. "Is it okay to route signal traces on the same layer as power planes? I’ve seen some stackup guidelines that suggest this is fine, but no one provides solid advice." Once again, we have a great example of a long-standing design guideline without enough context.

PCB Routing
Blog
The Anatomy of Your Schematic Netlist, Ports, and Net Names

Electronics schematics form the foundation of your design data, and the rest of your design documents will build off of your schematic. If you’ve ever worked through a design and made changes to the schematic, then you’re probably aware of the synchronization you need to maintain with the PCB layout. At the center of it all is an important set of data about your components: your schematic netlist. What’s important for designers is to know how the netlist defines connections between different components and schematics in a large project.

Produced PCB
Blog
How to Compare PCB Manufacturing Services for Your Board

There are plenty of PCB manufacturing services you can find online, and they can all start to blend together. If you’re searching for a new service provider, it can be hard to compare all of them and find the best manufacturer that meets your needs. While experienced designers can spot bogus manufacturers from afar, there is always a temptation to go with the lowest priced, supposedly fastest overseas company you can find. However, there is a lot more that should go into choosing a PCB manufacturing service than just price.

Low-Pass Filter Arragement
Blog
Pi Filter Designs for Power Supplies

Pi Filters are a type of passive filter that gets its name from the arrangement of the three constituent components in the shape of the Greek letter Pi (π). Pi filters can be designed as either low pass or high pass filters, depending on the components used. The low-pass filter used for power supply filtering is formed from an inductor in series between the input and output with two capacitors, one across the input and the other across the output. Keep reading to learn more about their application in the PCB Design.

Hybrid PCB
Blog
How to Design a Hybrid PCB Stackup

The first question that should come up when selecting materials and planning a stackup is: what materials are needed and how many layers should be used? Assuming you’ve determined you need a low-loss laminate and you’ve determined your required layer count, it’s time to consider whether you should use a hybrid stackup. There are a few broad situations where you could consider using a hybrid stackup with low-loss laminates in your PCB

Battery and clock
Blog
Efficient Battery Power Supplies

Batteries offer a great power source for electrical devices that need to be mobile or located somewhere where connection to a mains electricity supply or other power source is impossible. The biggest problem with battery power is the expectation of users that the device will operate for significant periods with the need for recharging or replacing the batteries. This demand is placing the onus on the designer to improve efficiency and reduce power demand to meet this need.

Blog
What Target Impedance Should You Use in Your PDN?

A number of us on this blog and in other publications often bring up the concept of target impedance when discussing power integrity in high-speed designs. Some designs will be simple enough that you can take a “set it and forget it” approach to design a functional prototype. For more advanced designs, or if you’re fine-tuning a new board that has existing power integrity problems, target impedance is a real consideration that should be considered in your design.

Dual Power Supply Components Cover
Blog
An Overview of Dual Power Supply Design

Dual power supplies are circuits that generate two different output voltages from a single input source. The simplest method of generating dual output voltages is to use a transformer with two taps on the output winding. Bespoke transformers can have any voltage ratio depending on the number of windings in each part of the output side of the transformer.

Power planes inside PCB
Blog
Overlapping Planes in Your Mixed-Signal PCB Layout

With digital boards that are nominally running at DC, splitting up a power plane or using multiple power planes is a necessity for routing large currents at standard core/logic levels to digital components. Once you start mixing analog and digital sections into your power layers with multiple nets, it can be difficult to implement clean power in a design if you’re not careful with your layout.

Altium Designer interface
Blog
Follow Mixed Signal PCB Design Guidelines With the Best CAD Tools

High-speed digital PCBs are challenging enough to design, but what about mixed-signal boards? Many modern systems contain elements that operate with both digital and analog signaling, and these systems must be designed to ensure signal integrity in both domains. Altium Designer has the layout and signal integrity tools you need to ensure your mixed-signal PCB design does not experience interference and obeys important design standards. 

Blog
Get Ready for WiFi 7 under the 802.11be Standard

Just as WiFi 6 and 6E are starting to hit the market and new chipsets become available, WiFi 7 is in the works under the 802.11be standard.  While this technology still has not hit the market, I would expect more inquiries for experimental systems, evaluation modules, and surface-mountable modules to come up once the first chipsets become available. Now is the time to start thinking about these systems, especially if you’re developing evaluation products to support WiFi 7.

Protected electronic device
Blog
What Goes Into Rugged Electronics Design?

Rugged electronics need to take a punch mechanically, but there is more that goes into a rugged system than being able to survive a drop on the pavement. This is as much about enclosure design as it is about component selection and manufacturing choices. Mil-aero designers often use the term “harsh environment” to describe a number of scenarios where an electronic device’s reliability and lifetime will be put to the test. If you want to make your next product truly rugged, it helps to adopt some of their strategies in your PCB layout.

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Embedded thumbnail for How to Set Up Flex PCB Materials in Altium
How-To's
How to Set Up Flex PCB Materials in Altium

Discover how to set up flex and rigid-flex PCB materials in Altium with the Layer Stack Manager. In this tutorial, you’ll follow the key steps for defining polyimide cores, adhesive layers, coverlay, and stiffeners helping you build accurate, production-ready rigid-flex PCB designs.

Embedded thumbnail for How Benchmark Unifies Hardware Development with the Altium Platform
Altium Stories
How Benchmark Unifies Hardware Development with the Altium Platform

Discover our latest customer success story and see how Benchmark streamlined hardware development using the Altium Platform. By leveraging a unified environment with real-time data, synchronized ECAD-MCAD workflows, and built-in collaboration tools, their engineering teams eliminated manual handoffs, improved cross-domain visibility, and accelerated project delivery while staying perfectly aligned.

Embedded thumbnail for ESP32-S3 Design Deep Dive: Power, RF, and Layout Best Practices
How-To's
ESP32-S3 Design Deep Dive: Power, RF, and Layout Best Practices

Explore our detailed design review of a custom ESP32-S3 PCB. This four-layer board is built around the ESP32-S3 microcontroller chip (not the standard module) and includes an integrated LiPo charging circuit, USB-C with data line protection, NCP voltage regulators, and a ceramic chip antenna with a properly tuned impedance matching network.

Embedded thumbnail for Working as One for What Matters Most | How Benchmark Unifies Engineering Teams
Altium Stories
Working as One for What Matters Most | How Benchmark Unifies Engineering Teams

See how Benchmark Electronics uses Altium’s collaborative hardware development platform to unify its electrical, mechanical, and software engineering teams. By replacing manual processes, disconnected tools, and siloed workflows with a shared workspace, Benchmark unlocked a new way of working.

Embedded thumbnail for PCB Design Tips to Improve RF Power Amplifier Layout
How-To's
PCB Design Tips to Improve RF Power Amplifier Layout

Take a deeper look at RF power amplifier PCB design as we expand on our original 6 GHz RF signal generator tutorial with an in-depth design review. Discover essential layout optimization techniques such as switching regulator routing, feedback loop placement, stitching via implementation, and effective copper balancing.

Embedded thumbnail for How Altium's Assembly Assistant unifies Quantum Systems' Dev Process
Altium Stories
How Altium's Assembly Assistant unifies Quantum Systems' Dev Process

Quantum Systems develops unmanned drone systems for aerial intelligence and rapid, field-ready innovation. With the Assembly Assistant, their team streamlined a once tedious prototype build process, eliminating manual exports, file conversions, and unnecessary guesswork.

Embedded thumbnail for Creating Stacking Stripes for PCB Fabrication: Altium Tutorial
How-To's
Creating Stacking Stripes for PCB Fabrication: Altium Tutorial

Watch our new tutorial where we demonstrate how to place stacking stripes along the edge of a PCB and configure design rules to control clearances. In this video, you’ll learn how to create a dummy net, use the query system to apply rules specifically to stacking stripes, and leverage split planes on internal layers.

Embedded thumbnail for Empower Your Designs with Advanced Power Analysis
How-To's
Empower Your Designs with Advanced Power Analysis

Power Analyzer brings clarity. Agile Teams brings control. Combined, they help teams deliver reliable hardware with confidence.

Embedded thumbnail for Component Selection Process Tips for PCB Design
How-To's
Component Selection Process Tips for PCB Design

Explore our new component selection tutorial and learn Zach Peterson’s proven approach to finding and choosing parts that take your electronic designs from good to exceptional.

Embedded thumbnail for Signal Analyzer by Keysight Promo Video
How-To's
Signal Analyzer by Keysight Promo Video

Design faster, collaborate smarter, and catch signal integrity issues early with Altium Agile Teams and the Signal Integrity Analyzer by Keysight — both integrated directly into Altium Designer Agile. Check out our new promo video to learn more.

Embedded thumbnail for NFC Reader Testing: Flashing and Validating the Project
How-To's
NFC Reader Testing: Flashing and Validating the Project

Join Zach Peterson as we build and test an NFC reader board from start to finish. You’ll see how a custom NFC reader goes from manufacturing to working hardware, with step-by-step guidance on firmware flashing, power checks, and RFID tag detection.

Embedded thumbnail for Power Analyzer by Keysight Promo Video
How-To's
Power Analyzer by Keysight Promo Video

Unlock faster, more reliable PCB design with Altium Designer Agile Teams and Power Analyzer by Keysight. Integrated directly inside Altium Designer, this powerful combination enables fast, secure, and adaptive collaboration helping engineering teams move quickly, stay aligned, and scale confidently. Watch this short video to see how this software improves your PCB design process.

Embedded thumbnail for Do 90-Degree Bends Destroy Signal Integrity? The Surprising Answer
How-To's
Do 90-Degree Bends Destroy Signal Integrity? The Surprising Answer

Discover why the long-held belief about 90-degree PCB traces may be more myth than reality. This video explains key signal integrity principles and uncovers insights that can help you make more informed design decisions.

Embedded thumbnail for Taking Control Without Adding Complexity – Presentation Embedded World North America 2025
New in Altium Designer 20
Taking Control Without Adding Complexity – Presentation Embedded World North America 2025

See how Altium makes project oversight faster and smarter with automated workflows, real-time tracking, and connected design data without adding work for engineers. Watch our Embedded World North America 2025 presentation to learn more.

Embedded thumbnail for Demonstration Altium DISCOVER - Embedded World North America 2025
Embedded World 2025
Demonstration Altium DISCOVER - Embedded World North America 2025

Check out our live demo from Embedded World North America 2025 showcasing Octopart Discover. In this video, you’ll see how the platform helps reduce sourcing risk, shorten design cycles, and keep projects moving forward with confidence.

Embedded thumbnail for Altium Agile for Modern Electronics Development - Presentation Embedded World North America 2025
Embedded World 2025
Altium Agile for Modern Electronics Development - Presentation Embedded World North America 2025

Watch our presentation from Embedded World North America 2025 to learn how Altium Agile brings structure, visibility, and velocity to modern hardware development. Discover how multidisciplinary teams can eliminate workflow chaos, track progress in real time, and accelerate delivery without compromising quality.

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