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Embedded thumbnail for Compensating Transmission Line Losses in a PCB Calculator
How-To's
Compensating Transmission Line Losses in a PCB Calculator

This tutorial uncovers the key difference between ideal, lossless impedance calculations and real-world signal behavior giving you practical techniques to design controlled impedance PCBs that deliver reliable performance.

Blog
How to Make Your PCB Layout AOI and X-Ray Friendly

Designing for inspection is key to reliable manufacturing. This article covers practical PCB layout tips to optimize your board for AOI and X-ray inspection helping you reduce defects, false positives, and production delays.

Embedded thumbnail for How Close Can You Bring a Reference Plane?
How-To's
How Close Can You Bring a Reference Plane?

Explore our in-depth investigation into practical simulations using both Altium Designer and Polar Si9000. We demonstrate impedance sensitivity analysis and reveal the real limitations of optimizing reference plane proximity for improved signal shielding.

Blog
Understanding Systems Engineering

Read our brand-new article where we explore the key areas of an engineering project and the different stages of electronic product development from a project execution perspective. From initiation and planning to design, development, validation, testing, and certification, we walk you through each phase to help you understand how successful electronic products are brought to life.

Embedded thumbnail for Do PCB Thermal Vias Actually Work?
How-To's
Do PCB Thermal Vias Actually Work?

Are thermal vias really helping your PCB’s heat management? Tech Consultant Zach Peterson dives into simulation data, research, and a controversial article to uncover the truth. Learn why via count and spacing matter more than sheer quantity.

Embedded thumbnail for Stripline Routing Deep Dive: How Close Is Too Close?
How-To's
Stripline Routing Deep Dive: How Close Is Too Close?

In this video, Zach Peterson takes a deep dive into what happens when reference layers are incorrectly set in a PCB stackup and how that affects impedance, signal integrity, and EMC. He also shares valuable insights into stripline routing proximity issues and best practices for assigning reference planes.

Blog
Power Integrity Issues?

Power problems can be hard to spot until it’s too late. See how easy it is to analyze your power nets, check voltage drops, and improve reliability with Power Analyzer by Keysight - all without leaving your design environment.

Embedded thumbnail for Coming Soon: Solder Mask Zero Expansion
New in Altium Designer 25
Coming Soon: Solder Mask Zero Expansion

Solder Mask Zero Expansion marks a move toward industry alignment, specifically with IPC-7351B and IPC-2581B standards. It changes the default solder mask expansion value from 4 mil to 0 mil. Discover more upcoming updates on our Coming Soon Page.

Embedded thumbnail for Analog Supply without a Ferrite: Proper Isolation Techniques Explained
How-To's
Analog Supply without a Ferrite: Proper Isolation Techniques Explained

In our new tutorial, you'll learn why ferrite beads may not be the best choice for isolating analog and digital supply pins on integrated circuits. Zach Peterson debunks common misconceptions about ferrite bead isolation and introduces better alternatives, including dedicated LDOs, precision voltage references, and effective filtering techniques to help you achieve cleaner analog signals in your designs.

Blog
Signal Mistakes Are Expensive

See how the Signal Analyzer by Keysight in Altium Designer lets you run signal integrity checks directly within your design environment. Read our article to learn how to effectively manage impedance, return paths, stackups, and more.

Embedded thumbnail for Enhanced Constraint Manager in Altium Designer 25. Part II: Physical Constraints and Routing Differential Pairs
Enhanced Constraint Manager in Altium Designer 25
Enhanced Constraint Manager in Altium Designer 25. Part II: Physical Constraints and Routing Differential Pairs

In the second video of Samer Aldhaher’s "Enhanced Constraint Manager" series, we continue designing a 1 kW, 400 V brushless DC motor driver. This episode focuses on setting physical constraints using constraint sets, routing differential pairs, and demonstrating the Auto Shrinking feature in Altium Designer 25.

Embedded thumbnail for Auto-tuning Your Way to Faster PCB Design
Altium Designer's 25 Quantitative Benefits
Auto-tuning Your Way to Faster PCB Design

Watch how the Auto Tuning feature in Altium Designer 25 delivers optimized DDR4 routing in a single click! Fewer steps, massive time savings. Try our Benefit Calculator to estimate your own time and cost savings.

Blog
Twice the Insight. One Seamless Simulation Bundle

Ensure power and signal integrity with the Keysight Bundle in Altium Designer. Catch issues early, reduce rework, and optimize your PCBs - all within one integrated environment featuring Signal & Power Analyzer.

Embedded thumbnail for Enhanced Constraint Manager in Altium Designer 25. Part I: From Directives to Creepage Rules
Enhanced Constraint Manager in Altium Designer 25
Enhanced Constraint Manager in Altium Designer 25. Part I: From Directives to Creepage Rules

We are introducing a new video series on the Enhanced Constraint Manager in Altium Designer 25. In the first chapter, Samer Aldhaher demonstrates how to define net classes, apply clearance and creepage rules, and validate constraints within both the schematic and PCB. The video uses a 1kW, 400V brushless DC motor driver project to illustrate real-world applications.

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Use your DRCs
Blog
Design Rule Checking in the PCB Design Workflow

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 

How to select high frequency materials
Blog
Best Practices for High-Frequency PCB Material Selection

High frequency PCB design can seem esoteric, and I've heard many an engineer describe it as "black magic"! The subject is also a bit confusing, especially once someone asks which frequencies could be reasonably considered "high". Before you do anything inside the layout for a high-speed or RF PCB, you will need to pay attention to the materials being used in the board. If you're unsure which high frequency PCB materials you should use, then keep reading to learn more.

PCB Noise Reduction
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PCB Noise Reduction: Do You Need Isolation, Shielding, or Filters?

Of all the noise and operational challenges designers face in their PCBs, there is one overarching problem that is arguably most popular: electronic noise. It could originate as an SI/PI problem, it could possibly arise from some external source, or it could be good old-fashioned crosstalk! These tend to fall into three categories: adding shielding, doing something to create isolation, or placing filters. Let's look at all of these as they tend to be the default solution set when confronted with many noise problems.

What’s New in Altium 365
Blog
What’s New in Altium 365: Version Control for Hardware, Layer Stackup in Web Viewer, and SOC 2 Type 1 Certification

In February, we hit a new record in the number of users on the platform. The Altium 365 user community is now 20,000 strong! You can now migrate from an external version control system to Altium 365 preserving the history of commits. We also received the SOC 2 Type 1 certification from KPMG, made layer stack available in the web viewer, and added the brand new capability to track tasks in the context of your design project. Keep reading to learn more!

Rigid-Flex in Altium Designer
Blog
Support for Rigid-Flex in Altium Designer

Rigid-flex in Altium Designer starts with designing a manufacturable PCB layer stack complete with via transitions and any calculated impedance requirements. Flex sections also need to be placed in the layer stack before moving into the PCB layout. Once inside the PCB editor, bending lines can be clearly defined in the PCB layout, and these can be visualized in Altium Designer's 3D PCB design tools. Keep reading to see how Altium Designer supports your flex and rigid-flex designs.

Specifying your stackup
Blog
Communicating PCB Layer Stackup Needs to Manufacturers

In the business of PCB design, communicating needs to manufacturers and vendors is a top priority. The context of our requests is sometimes lost either by not providing the correct information, not listing enough information, or not giving any information. Although the experienced PCB designer can take steps to specify everything they want to see in their PCB stackup, eventaully the manufacturer will handle that decision in an effort to balance available materials with processing capabilities and yield.

Risk Vs. Reward
Blog
Risk Vs. Reward

During the recent IPC APEX expo, there was a lot of discussion about SAP, or semi-additive PCB processes.  As with any new technology adoption there were people that are excited to jump right in and start designing with much finer feature sizes and work through the inevitable changes to the traditional thought process. Others are in a "let’s wait and see" mode and of course there are a few skeptics there as well, so keep reading to learn more.

Parasitic Extraction for your traces
Blog
Parasitic Extraction with an Electromagnetic Solver in PCB Routing

Parasitic extraction: the integrated circuit design community must grapple with this task on a daily basis, especially once gate features are reduced below ~350 nm and chips run at high switching speeds. The PCB community also has to deal with this idea in order to better design power delivery networks, interconnects with precise impedance, and properly quantify crosstalk and coupling mechanisms.

PCB
Blog
Ebook: PDN Simulation and Analysis Guide

Most designers don’t realize they need to worry about power integrity until they have a power integrity problem. Other designers might build boards that can’t handle the demands of modern digital and high frequency components, and they may not realize the problems that lurk in their power delivery network (PDN). Although the basic concepts involved in designing for power integrity are well-known, myths about power integrity abound, and designers need tools to help them evaluate and qualify power integrity in a PDN.

Ferrites in PDN Simulation
Blog
Ferrite Beads and Transfer Impedance in a PDN Simulation

The use of ferrites in a PDN is one design recommendation that is fraught with unclear guidance and over-generalized recommendations. If you see an application note or a reference design that recommends placing a ferrite in a PDN, should you follow this in your specific design, or should you ignore this and focus on adding capacitance? 

PCB Design Outputs
Blog
Overview of PCB Design Output Files

Before your board can be put into production and prepared for assembly, you have to generate a set of files that assist your manufacturer. These are your PCB design output files, also known as manufacturing files, fabrication data, assembly files, and a host of other names. Before you send your design file off to a manufacturer in an email, make sure to get a list of their required fabrication and assembly files first. If you’re a new designer, take some time to read over the basic PCB manufacturing file extensions below.

How transformers work
Blog
Transformer Theory Made Simple

Transformers can provide very effective signal isolation and are used to manipulate AC voltage and current levels. They can achieve all this with a greater than 95% power efficiency, which is why we commonly see them used in bench power supplies, audio gear, computers, kitchen appliances, and wall-warts. However, transformer theory can be unintuitive and in this article we answer on questions about them

Take advantage of the VCS-based workflow in Altium 365
Blog
Using Altium 365 Over Your Vanilla Version Control System

There are all sorts of version control systems (VCS) out there that people have been using with their PCB design software. As discussed in Why Use a Version Control System, we looked at different options ranging for local hard drive storage to sophisticated online revisioning systems. In this article we will be reviewing the differences between a standard VCS and Altium 365.

Recovering Copper Losses
Blog
Recover Conductor Losses By Clearing Your PCB Ground Layer

Controlled impedance routing at high frequencies is difficult enough, and it's important to make sure that you stay within your loss budget on long routes or in lossy media. When you have to route a long trace or a long differential pair to a connector or another component, what can you do if you're reaching the end of your loss budget? In this article, we’ll take a look at the skip reference routing method and explain how it can help recover some loss budget in a lossy interconnect.

Altium 365 SOC 2 Type 1 Certified
Blog
Announcing SOC 2 Type 1 Certification for Altium 365

We are pleased to announce that Altium 365 is officially SOC 2 Type 1 certified. System and Organization Controls (SOC) 2 is a widely recognized attestation of security compliance defined by the AICPA and is considered the standard for ensuring data security and operational maturity. A SOC 2 certification provides valuable information for companies to assess the quality of the security provided by a service such as Altium 365.

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

See how Altium Develop empowers engineering teams with fast, cloud-connected PCB design built for modern collaboration. This live demo from Embedded World North America 2025 showcases real-time co-creation, smooth MCAD-ECAD integration, and a design environment that lets you stay focused on what matters building great products.

Embedded thumbnail for From Collaboration to Co Creation – Presentation Embedded World North America 2025
Embedded World 2025
From Collaboration to Co Creation – Presentation Embedded World North America 2025

In this Embedded World North America 2025 presentation, learn how Altium enables electrical, mechanical, firmware, sourcing, and manufacturing teams to collaborate seamlessly in real time through shared data, shared context, and shared visibility. Experience how unified workflows reduce rework, speed up decision-making, and empower teams to deliver exceptional products faster.

Embedded thumbnail for PCB Design: Defining Electrical Clearances in High Voltage PCBs
How-To's
PCB Design: Defining Electrical Clearances in High Voltage PCBs

Unlock the essential principles behind defining electrical clearances for high-voltage PCB designs in our brand-new tutorial. Learn how to apply accurate, layer-specific clearance rules using IPC-2221 standards and harness the full power of Altium’s query system.

Embedded thumbnail for Demonstration Altium AGILE Enterprise - Embedded World North America 2025
Embedded World 2025
Demonstration Altium AGILE Enterprise - Embedded World North America 2025

Experience how Altium Agile Enterprise turns complex engineering collaboration into a streamlined, unified workflow. In this live demonstration from Embedded World North America 2025, you’ll see how multi-disciplinary teams can simplify processes, minimize rework, and maintain clear alignment from requirements through release. All within a single, powerful platform.

Embedded thumbnail for Highlights from the Altium Booth at Embedded World North America 2025
Embedded World 2025
Highlights from the Altium Booth at Embedded World North America 2025

Check out our short recap of Altium’s participation at Embedded World North America 2025 in Anaheim. In the coming weeks, we’ll be sharing a few exciting presentations and demos featuring our new products: Altium Develop, Altium Agile, and Octopart Discover.

Embedded thumbnail for USB-PD Business Card: Examination & Power Test
How-To's
USB-PD Business Card: Examination & Power Test

Join us as we explore a PCB business card received at the PCB West Conference. We'll take a closer look under the microscope to examine its intricate components, test its power delivery capabilities, and uncover the engineering marvel behind this tiny device.

Embedded thumbnail for Altium Develop: Returning to Our Roots
How-To's
Altium Develop: Returning to Our Roots

Lawrence Romine unveils Altium’s groundbreaking approach to product development with Altium Develop. This innovative solution realigns the company with its core mission - empowering individual engineers and small teams. Explore the strategic vision behind creating a product that seamlessly balances accessibility, robust functionality, and intuitive design.

Embedded thumbnail for Altium Training - Navigating Schematics: Schematic Preference Settings for Navigation
Altium Training
Altium Training - Navigating Schematics: Schematic Preference Settings for Navigation

Unlock smarter design navigation in Altium! Learn how to customize navigation preferences to boost your design insight and visualize connectivity like never before. In this video, we’ll explore Design Insight settings, interactive connectivity hover features, and quick thumbnail navigation between schematic sheets. All designed to make your workflow faster, clearer, and more intuitive.

Embedded thumbnail for PCB Design Tools for Every Team Size: Altium's New Approach
How-To's
PCB Design Tools for Every Team Size: Altium's New Approach

Explore how Altium is transforming PCB design with software solutions built for teams of every size. In this exclusive PCB West 2025 interview, Justin Sears highlights the key distinctions between Altium Develop and Altium Agile helping you identify the ideal platform for your design needs.

Embedded thumbnail for PCB Design: Sequential Lamination vs Sub-Lamination
How-To's
PCB Design: Sequential Lamination vs Sub-Lamination

Explore the key distinctions between sequential lamination and sub-lamination techniques, and learn how each approach influences microvia placement, board complexity, and design flexibility in high-density interconnect (HDI) circuit board fabrication.

 

Embedded thumbnail for PCB Design Review: Power Meter Layout Deep Dive
How-To's
PCB Design Review: Power Meter Layout Deep Dive

Gain practical insights into PCB design with an in-depth power meter project review, covering parameter optimization, BOM control, and IPC-compliant high-voltage spacing.

Embedded thumbnail for Drawing Tools for Pro Schematics in Altium
How-To's
Drawing Tools for Pro Schematics in Altium

In our brand-new tutorial, you’ll learn how to create professional-looking schematics in Altium using built-in drawing tools and features. We’ll show you how to add custom title blocks, revision histories, tables of contents, block diagrams, and color schemes to make your schematics stand out.

Embedded thumbnail for 3 GHz RF Amplifier Deep Dive
How-To's
3 GHz RF Amplifier Deep Dive

Check out our design review of a 3.6 GHz RF amplifier! This in-depth analysis highlights schematic issues, PCB layout challenges, and key RF design principles to help you build better high-frequency circuits.

Embedded thumbnail for The Right Way to Use SIG/GND/PWR/SIG Stackups
How-To's
The Right Way to Use SIG/GND/PWR/SIG Stackups

Find out how to properly implement signal-ground-power-signal stackups in 4-layer PCB designs. Check out our tutorial from Zach Peterson, where he explains when to use dedicated power layers, how to route signals correctly over split power planes, and common mistakes to avoid for optimal EMI performance and signal integrity.

Embedded thumbnail for Altium Training - Design Environment: Documents and Panels
Altium Training
Altium Training - Design Environment: Documents and Panels

In our new tutorial, we explore different panel display modes, including docked, floating, and tabbed grouping arrangements. Effective panel management is essential for creating an efficient design environment tailored to your specific workflow requirements.

Embedded thumbnail for Mechanically Drilled Blind & Buried Vias: PCB Design Rules Explained
How-To's
Mechanically Drilled Blind & Buried Vias: PCB Design Rules Explained

Discover the essential design rules and manufacturing processes for mechanically drilled blind and buried vias in PCB layouts in this comprehensive tutorial. We cover the stack drill-and-plate fabrication process, aspect ratio limitations, sub-lamination design, and copper weight considerations. You’ll also learn how these vias differ from HDI microvias and gain a clear understanding of the critical design constraints needed for successful PCB manufacturing.

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