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Efficient PCB Routing Using Gloss and Retrace Tools

The primary goal of your traces is to carry signals throughout your board without losses. To do this properly, you must familiarize yourself with the requirements for signals on the printed circuit board and how to optimize the topology of the board in terms of signal integrity. We will analyze the most popular routing cases applicable for using the Gloss and Retrace tools in Altium Designer to optimize your signal integrity.

Selecting Materials for High Voltage PCB Design and Layout
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Selecting Materials for High Voltage PCB Design and Layout

High voltage PCBs are subject to certain safety and reliability concerns that you won’t find in most other boards. If your fabrication house specializes in high voltage PCBs and keeps materials in stock, they can likely recommend a material set, as well as a standard stackup you might use for certain voltage ranges and frequencies. If you need to choose your own materials, follow the tips below to help you narrow down to the right material set.

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Working with MCAD CoDesigner extension
Shaping the PCB in MCAD

Through the MCAD Co-designer in Altium Designer, you can collaborate with a mechanical engineer to shape the PCB in your MCAD tool and keep it updated in Altium Designer. We’ll show you how in Altium Designer and in your MCAD tool.

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How to work with Selection
Cross Select Mode

Cross Select Mode is a unique tool that allows for cross-selection of objects between the schematic and PCB thanks to the Altium Unified platform. This makes it easy to look for specific components, as well as take advantage of component placement tools.

Via tenting in PCB Layout
Blog
When to Use Tented Vias in Your PCB Layout

There are some guidelines I see many designers implement as a standard practice, often without thinking about it. Some of these practices are misunderstood or implemented without best practices. Others are implemented without thinking about the potential problems. One of these is the use of tented vias, which is sometimes implemented in a PCB layout by default. Is this always the right practice?

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How to work with Selection
Tools for Efficient Selection

Efficient selection tools can make a difference in how long and how clean your design can be. Learn how to utilize the Edit Select Menu tools in Altium Designer to take control over your layout.

Capacitive load termination
Blog
How to Impedance Match and Terminate Capacitive Loads

The idea of a purely capacitive load is something of a fallacy. Yes, capacitors exist, but all capacitors are non-ideal, and it is this deviation from a theoretical capacitance that determines how to impedance match a load that exhibits capacitive behavior. Let’s take a look at this important aspect of interconnect design and see what it really means to terminate a capacitive load.

Embedded thumbnail for Tools for Easily Selecting Objects in the PCB
How to work with Selection
Tools for Easily Selecting Objects in the PCB

Explore more than basic mouse movements by taking a look at the tools that Altium Designer has to offer for making selecting and moving objects in the PCB an easy task. This will increase your productivity and allow you to spend more time designing

Using Altium 365 Over Your Vanilla Version Control System
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Using Altium 365 Over Your Vanilla Version Control System

There are all sorts of version control systems 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.

Why Use a Version Control System in PCB Design
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Why Use a Version Control System in PCB Design

Version Control Systems (VCS) have been around for many decades within the software world but can be surprisingly new to some folks in the electronics design industry. This article will cover what a VCS is, what it does, and why you should be using one for your PCB design projects.

IPC 6012 Class 3 Annular Ring
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Meeting Standards: IPC 6012 Class 3 Annular Ring

Designers often conflate leftover annular ring and pad sizes - they need to place a sufficiently large pad size on the surface layer to ensure that the annular ring that is leftover during fabrication will be large enough. As long as the annular ring is sufficiently large, the drill hit will not be considered defective and the board will have passed inspection. In this article, I'll discuss the limits on IPC-6012 Class 3 annular rings as these are a standard fabrication requirement for high-reliability rigid PCBs.

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Working with Polygons
How to Work with The Polygon Manager

It is important to have a high-level view of all polygons on the PCB design. The Polygon Manager lets you rename polygons, set their pour order, perform re-pouring or disable pouring on selected polygons, add/scope the polygon connection style and clearance design rules, and add polygon classes for selected polygons.

PCB fabrication notes
Blog
Decoding PCB Fabrication Notes

Sending a board out for fabrication is an exciting and nerve-wracking moment. Why not just give your fabricator your design files and let them figure it out? There are a few reasons for this, but it means the responsibility comes back to you as the designer to produce manufacturing files and documentation for your PCB. It’s actually quite simple if you have the right design tools. We’ll look at how you can do this inside your PCB layout and how this will help you quickly generate data for your manufacturer.

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How to Work with Differential Pairs
Assigning Impedance Profiles for Differential Pairs

When you assign an impedance profile to a differential pair you open up several options for control over your routes. We'll show you how to do just that, as well as how to fix errors that may pop up and how to create classes for differential pairs based on assigned impedance profiles.

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How-To's
How to Highlight or Select Net Connections in the PCB

We’ll show you how to highlight net selections so you can easily track where connections are made. We’ll show you how to hide and show nets, and how to use the view configuration and PCB panels to view and highlight nets across your design, and how to assign net colors in both the PCB and the schematic.

HDI PCB design and HDI PCB manufacturing process
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Design Basics for HDI and the HDI PCB Manufacturing Process

As the world of technology has evolved, so has the need to pack more capabilities into smaller packages. PCBs designed using high-density interconnect techniques tend to be smaller as more components are packed in a smaller space. An HDI PCB uses blind, buried, and micro vias, vias in pads, and very thin traces to pack more components into a smaller area. We’ll show you the design basics for HDI and how Altium Designer® can help you create a powerful HDI PCB.

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How to Design a BGA
Remove Unused Via Pads

The Remove Unused Pad Shapes tool in Altium Designer gives you control over the via pads in your design. We’ll show you how to use it to increase the usable area of power and ground polygons, increase the density of conductors between hole rows, and fixing incorrect connections.

All About PCB Test Points
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Is It Printed or a Component? All About PCB Test Points

Test points in your electronic assembly will give you a location to access components and take important measurements to verify functionality. If you’ve never used a test point or you’re not sure if you need test points, keep reading to see what options you have for test point usage in your PCB layout.

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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.

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Product Lifecycle Management in Electronics Manufacturing
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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.

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.

Engineering Design Review Guide
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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

Schematic Review Checklist
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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.

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.

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.

Man working in Altium Designer
Blog
Best Practices in Hardware Version Control Systems

Any project can get very complex, and the PCB design team needs to track revisions throughout a project. Why worry about tracking revisions? In the event you ever receive changes to product functional requirements, major changes are made to your product’s architecture, or you’re ready to finalize the design and prepare for fabrication, it’s best to clone a project at its current state and begin working on a new version. Keeping track of all these design changes in a PCB design project takes the type of hardware version control tools you’ll find in Altium 365™.

Copper pour and via stitching
Blog
Copper Pour and Via Stitching: Do You Need Them in a PCB Layout?

To pour or not to pour, to stitch or not to stitch… Over many years, some common “rules of thumb” have become very popular and, ultimately, taken a bit out of context. Rules of thumb are not always wrong, but taking PCB design recommendations out of context helps justify bad design practices, and it can even affect the producibility of your board. Like many aspects of a physical PCB layout, via stitching and copper pour can be like acid: quite useful if implemented properly, but also dangerous if used indiscriminately.

MOSFET Components
Blog
Should You Use Power MOSFETs in Series?

Power MOSFETs enable a huge range of electronic systems, specifically in situations where BJTs are not useful or efficient. MOSFETs can be used in high current systems in parallel arrangements, but what about their use in series? Both arrangements of MOSFETs have their pitfalls that designers should consider. Let’s look at MOSFETs in series as they are quite useful in certain systems, but be careful to design your circuits and your PCB for reliability.

MLCC controlled ESR capacitor
Blog
Controlled ESR Capacitors: Should You Use Them for Power Integrity?

I can’t think of a single product I’ve built that doesn’t require capacitors. We often talk a lot about effective series inductance (ESL) in capacitors and its effects on power integrity. What about effective series resistance (ESR)? Is there a technique you can use to determine the appropriate level of resistance, and can you use ESR to your advantage?

Ground Pour, Impedance and Losses
Blog
Microstrip Ground Clearance Part 2: How Clearance Affects Losses

If your goal is to hit a target impedance, and you’re worried about how nearby pour might affect impedance, you can get closer than the limits set by the 3W rule. But what are the effects on losses? If the reason for this question isn’t obvious, or if you’re not up-to-date on the finer points of transmission line design, then keep reading to see how nearby ground pour can affect losses in impedance-controlled interconnects.

Choosing the Right Microphone for Embedded Applications
Blog
Choosing the Right Microphone for Embedded Applications

If you need to capture sound waves for your electrical device to process, you'll need a microphone. However, microphones these days have become very advanced, and there are so many options to choose from. They range from the relatively simple and popular condenser type microphones to state-of-the-art sound conversion solutions incorporating internal amplifiers and other electronic processing functionality. In this article, we'll take a look at some of the options available.

 Computer planet with circuit grid
Blog
Composite Amplifiers and How They Give the Best of Both Worlds

There are many times where you need an amplifier with high gain, low noise, high slew rate, and broad bandwidth simultaneously. However, not all of these design goals are possible with all off-the-shelf components. Here are some points to consider when working with a composite amplifier design and how to evaluate your design with the right set of circuit simulation tools.

Impedance balancing power supply
Blog
Reduce Common-Mode Noise in Your Power Supply with Impedance Balancing

Simple switching regulator circuits that operate in compact spaces, like on a small PCB, can usually be deployed in noisy environments without superimposing significant noise on the output power level. As long as you lay out the board properly, you’ll probably only need a simple filter circuit to remove EMI on the inputs and outputs. As the regulator becomes larger, both physically and electrically, noise problems can become much more apparent, namely radiated EMI and conducted EMI in the PCB layout.

Part 1: Why Your PCB Design Review Process Is Obsolete and What You Can Do About It
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Part 1: Why Your PCB Design Review Process Is Obsolete and What You Can Do About It

A PCB design review is a practice to review the design of a board for possible errors and issues at various stages of product development. It can range from a formal checklist with official sign-offs to a more free-form inspection of schematic drawings and PCB layouts. For this article, we will not delve into what to check during a design review process but rather look at how a review process itself usually unfolds and how to optimize it to get the most out of your time.

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Embedded thumbnail for Coming Soon: Ansys CoDesigner
How-To's
Coming Soon: Ansys CoDesigner

Ansys CoDesigner (which will be released on the13th of December) simplifies your design process by connecting ECAD and Simulation to eliminate manual export/import steps. With features like design change synchronization and commenting, Altium Designer ECAD engineers and Ansys Electronics Desktop (AEDT) SIM engineers can collaborate seamlessly in one workspace.

Embedded thumbnail for Coming Soon: Automatic Multi-Net Tuning
How-To's
Coming Soon: Automatic Multi-Net Tuning

Automatic Multi-Net Tuning enhances PCB design accuracy and efficiency by automatically adjusting multiple nets simultaneously to meet specific design rules, including length and delay. Learn more about this feature, which will be released on December 13th. Its flexibility enables effective work with differential pairs and traces at any angle. It not only identifies but also rectifies issues related to automatic length tuning, ensuring your designs adhere to key standards without the need for manual adjustments.

Embedded thumbnail for Coming Soon: PCB CoDesign
How-To's
Coming Soon: PCB CoDesign

PCB CoDesign makes it easier for everyone to work together and meet project deadlines. In Altium Designer 24, which is scheduled for release on December 13th, we are introducing a new feature. This feature optimizes your resources through a Git-like approach, allowing multiple team members to work simultaneously and commit changes to a master branch. This expedites the design process and lowers project costs.

Embedded thumbnail for Coming Soon: MultiBoard Draftsman
How-To's
Coming Soon: MultiBoard Draftsman

MultiBoard Draftsman enhances the efficiency of design reviews and assembly precision by offering a unified platform for detailed viewing and documentation of MultiBoard Designs. Discover more about this feature in our brand-new short video.

Embedded thumbnail for Coming Soon: PCB Layout Replication
How-To's
Coming Soon: PCB Layout Replication

PCB Layout Replication allows quick replication of layouts for repetitive circuitry blocks in a flat PCB design. In this short video we will show you how this new tool (scheduled for release on December 13th) eliminates the need to do repetitive tasks manually or for various workarounds like snippets or multi-channel designs.

Embedded thumbnail for Coming Soon: Constraint Manager
How-To's
Coming Soon: Constraint Manager

Constraint Manager simplifies PCB design by facilitating collaborative constraint definition from both Schematic and PCB. Learn more about this new feature, which streamlines the process of setting electrical clearances and creating rules while centralizing class management for time-saving convenience.

Embedded thumbnail for Debounce Circuit
Simulation in Altium Designer
Debounce Circuit

Learn how to simulate the circuit, identify a common issue, and walk through how to diagnose and correct any errors found in a seemingly well-designed debounce circuit. 

Embedded thumbnail for Import Component Footprints Faster with Altium Designer. Part II: Using an External Library, Internal IPC Compliant Footprint Wizard, and Datasheet-Based Creation
Import Component Footprints Faster with Altium Designer
Import Component Footprints Faster with Altium Designer. Part II: Using an External Library, Internal IPC Compliant Footprint Wizard, and Datasheet-Based Creation

In this video, we will guide you through three distinct manual component import methods; employing an external library, utilizing the internal IPC Compliant Footprint Wizard, or creating one yourself based on documentation.

Embedded thumbnail for Import Component Footprints Faster with Altium Designer. Part I: Manufacturer Part Search & External Plugin
Import Component Footprints Faster with Altium Designer
Import Component Footprints Faster with Altium Designer. Part I: Manufacturer Part Search & External Plugin

In this video, we will demonstrate the first two methods of importing components into Altium Designer; through Manufacturer Part Search or by using an external plugin.

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Simulation in Altium Designer
Buck Converter

Learn how to run a transient simulation, analyze the waveforms, and measurement techniques you can use to determine a voltage ripple with a buck converter as an example. 

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How-To's
Edge Plating in RF Design

PCB Edge Plating provides additional noise suppression and improves EMC. In this video we provide you some practical tips for creating metalized PCB edges in Altium Designer.

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Custom Pad Stack in Altium Designer
Custom Paste Mask and Solder Mask

Altium Designer allows you to freely customize paste and solder mask shapes, which allows you to adapt your design for non-standard component footprints.

Embedded thumbnail for Colpitts Oscillator
Simulation in Altium Designer
Colpitts Oscillator

Learn how to effectively fix errors in circuit simulation and other problem-solving techniques using a Colpitts Oscillator design as an example. 

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Custom Pad Stack in Altium Designer
Custom Thermal Reliefs for Pads

Altium Designer allows you to add, remove, and edit thermal relief spikes anywhere on a pad, regardless of its shape. Using these can improve soldering and prevent manufacturing problems like tombstoning.

Embedded thumbnail for Notch Filter
Simulation in Altium Designer
Notch Filter

Learn how to run an AC sweep analysis, execute a Monte Carlo simulation, and interpret the results using a notch filter as an example. 

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Custom Pad Stack in Altium Designer
Custom Pad Shapes

Modern components often contain pads with complex shapes. Altium Designer allows you to create custom pad shapes quickly and easily, and manage them like you would a standard pad.

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