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How to Design a BGA • Dec 6, 2021

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.

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Blog • Dec 2, 2021

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.

How to Design a BGA • Dec 1, 2021

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.

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Blog • Nov 30, 2021

The Main Advantages when using Draftsman to Create a Component Mounting Drawing

Quite often, a standard assembly drawing is not enough to ensure the quality of a PCB assembly, especially when designing high-density boards. It would also be helpful to include additional detailing for simpler devices. The use of a Draftsman document brings an elegant, yet powerful solution to make these tasks easier.

How to Design a BGA • Nov 26, 2021

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.

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Blog • Nov 25, 2021

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.

On-Demand Webinar • Nov 24, 2021

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®.

Blog • Nov 23, 2021

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.

How to Design a BGA • Nov 22, 2021

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.

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How to Design a BGA • Nov 19, 2021

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.

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Blog • Nov 18, 2021

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

Via Stitching • Nov 17, 2021

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.

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Blog • Nov 16, 2021

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.

How To Work with High-Speed Projects • Nov 15, 2021

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.

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How To Work with High-Speed Projects • Nov 12, 2021

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.

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Blog • Nov 11, 2021

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.

On-Demand Webinar • Nov 10, 2021

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.

Blog • Nov 9, 2021

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.

How to Work with Draftsman • Nov 8, 2021

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.

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How To Work with High-Speed Projects • Nov 5, 2021

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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Blog • Mar 2, 2026

What is the Best PCB Design Tool For Students?

Students need PCB software that’s intuitive, affordable, and useful for building real skills. This article compares the strengths and weaknesses of leading design tools, from hobbyist platforms to industry-standard software.

Blog • Feb 25, 2026

What Is Collaborative Engineering?

Collaborative engineering is all about breaking down silos so electrical, mechanical, and sourcing teams can work as one with shared data and real-time updates. This article shows how that approach helps you spot issues early, reduce rework, and get products out the door with fewer surprises.

Blog • Feb 23, 2026

Bend Reliability: How Trace Geometry and Materials Impact Flex Lifespan

Focused on durability under repeated mechanical stress, this piece details how routing strategy, copper thickness, adhesive systems, and bend radius selection determine flex lifespan. Engineers will find actionable recommendations for reducing strain concentration and improving long-term performance in high-cycle applications.

Blog • Feb 18, 2026

PCB Design Process: The EDA Design Approach

Dive into how a modern EDA workflow transforms PCB design by linking electrical, mechanical, and manufacturing requirements from idea to final release. With constraint‑driven integration, you can cut down on respins and bring better boards to market faster.

Blog • Feb 12, 2026

Getting Started for Mechanical Engineers

Explore our collection of MCAD Collaboration walkthroughs, where you’ll discover how to synchronize mechanical constraints and keepouts, maintain traceability with advanced history and revision control, and streamline electromechanical connectivity through harness synchronization. These topics and many more are covered in this article.

Blog • Feb 10, 2026

Are Your ECAD Tools Holding Back Engineers’ Productivity?

The article highlights that productivity issues often stem from tool limitations rather than engineer effort, especially as project complexity grows. ECAD tools that offer clear version control, cross-discipline integration, and workflow awareness are key to sustaining efficiency.

Blog • Feb 5, 2026

How Integrated PCB Design Cuts Development Time for Complex Electronics

Fewer tool handoffs, fewer errors, and smoother collaboration that’s the power of integrated PCB design. Learn how unifying your design environment can cut development time and help you deliver complex electronics faster.

Blog • Feb 3, 2026

Registration Challenges in UHDI: Why Fabrication Tolerances Matter in Your Layout

As UHDI structures shrink, achieving accurate layer-to-layer registration becomes less forgiving than ever. Learn why fabrication tolerances matter so much in ultra-fine geometries and how to design with registration limits in mind from the start.

Blog • Jan 29, 2026

How Engineering Project Management Tools Are Changing Engineering Teams’ Productivity

Engineering project management tools play a critical role in managing timelines, resources, and cross-disciplinary coordination. This article breaks down the most impactful systems for improving execution and team performance.

Blog • Jan 27, 2026

7 Ways to Catch Rules & Constraints Early – Checklist

Discover seven actionable ways to spot and fix rules and constraint issues before they derail your PCB project. Using Altium Designer Agile, these tips help you build more manufacturable and reliable boards with fewer iterations.

Blog • Jan 22, 2026

Do You Need an IPC-D-356 Netlist?

If your output package is Gerber-based, adding an IPC-D-356 netlist can dramatically improve how your design is reviewed and validated for production. Here’s when it matters, what it contains, and how to generate it quickly in Altium.

Blog • Jan 20, 2026

How Agile BOM Management Helps You Lock in Pricing Before Market Shifts

When engineering and procurement work from different BOM versions, delays and cost surprises follow. Learn how agile BOM management brings teams onto one connected BOM so they can respond fast, manage risk, and lock pricing early.

Blog • Jan 15, 2026

Flexible Circuits: Enhancing Performance with Shielding, Heat Dissipation, and Stiffeners

A flex circuit can look perfect on paper and still fail in the real world due to EMI, hot spots, or mechanical strain. This article breaks down how shielding, thermal planning, and stiffeners help deliver designs that stay reliable over time.

Blog • Jan 13, 2026

Avoid These Top 3 Power Distribution Failures in PCB Design

Power distribution issues can silently undermine your PCB’s reliability. This article uncovers the top three failure modes and shows how Power Analyzer by Keysight helps you catch them early in the design phase and how Altium Agile Teams turns those checks into structured team action.

Blog • Dec 11, 2025

From BOM to Requirements and Back: Building Sourcing Constraints Into Specs

When engineering and procurement remain disconnected, supply-chain problems will sneak up on you. This guide argues convincingly: embed sourcing constraints into your requirements from day one, and avoid costly rework down the line.

Blog • Dec 9, 2025

Understanding Power Integrity in PCB Design: Power Analyzer by Keysight Whitepaper

Power integrity is the backbone of reliable PCB design. This whitepaper explains how to analyze and optimize voltage drop, current density, and grounding directly within Altium Designer Agile using the Power Analyzer by Keysight.