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Design Reuse
On-Demand Webinar
Rapidly Creating New Designs And Reusing Existing Ones

It's no secret that software developers often use completed code fragments from other projects for quick and predictable results. The same can be done for PCB Design, there is no need to spend time rewiring schematics or laying out components on boards you’ve done before. Join us this webinar where we’ll go over how you can use your existing designs to create reusable design blocks, speeding up the design cycle for your future projects.

Length Tuning Impedance
Blog
What is the Impedance of Length-Tuning Structures?

Do length-tuning structures create an impedance discontinuity? The answer is an unequivocal “yes”, but it might not matter in your design depending on several factors. Applying a length-tuning structure is equivalent to changing the distance between the traces while meandering. Therefore, you will have a change in the odd-mode impedance of a single trace. The question then becomes: does this deviation in trace impedance in a length tuning structure matter?

Embedded thumbnail for Creating a Schematic Symbol - Placing Designators and Comments
How to create a Schematic Symbol
Creating a Schematic Symbol - Placing Designators and Comments

Placing your designator or comments can be done automatically, but that doesn’t mean they’re visible. We’ll walk you through how to make them visible and position them correctly no matter what orientation your symbol is with automatic positioning.

Embedded thumbnail for Creating a Schematic Symbol: Adding Additional Parts
How to create a Schematic Symbol
Creating a Schematic Symbol: Adding Additional Parts

Altium Designer makes it easy to add additional parts to your schematic library. We’ll show you how through copying and configuring your new components through the Pin Editor and the properties panel.

Designing the Next-Generation Electronics
Blog
A-SAP™ – What do you need to know?

The continued miniaturization of both packaging and component size in next-generation electronics is becoming harder and harder to work around and presents a significant challenge for both PCB designers and PCB fabricators. To effectively navigate the constraints of the traditional subtractive-etch PCB fabrication processes, PCB designs require advanced PCB fabrication capabilities while pushing the limits of finer feature size, higher layer counts, multiple levels of stacked micro vias and increased lamination cycles.

Embedded thumbnail for Component Placement Control Using Rooms
How to work with Rooms
Component Placement Control Using Rooms

Rooms give you more control over how and where your components are placed in your PCB. We’ll show you how to use room properties to limit what is allowed in and out of a room using the room definition and custom queries.

Pin-package and Via Delay Values
Blog
Pin-Package Delay and Via Delay in High Speed Length Tuning

Take a look at the inside of some integrated circuit packages, and you’ll find a number of wires bonded to the semiconductor die and the pads at the edge of the component's package. As a signal traverses makes its way along an interconnect and into a destination circuit, signals need to travel across these bond wires and pads before they are interpreted as a logic state. As you look around the edge of an IC, these bond wires can have different lengths, and they incur different levels of delay and contribute to total jitter.

Embedded thumbnail for How to work with Differential Pair Classes?
How to Work with Differential Pairs
How to work with Differential Pair Classes?

Modern boards can contain a large number of differential pairs. For convenience, they are combined into differential pairs classes. In this video, we'll walk you through how to create and apply a differential pair class. 

Embedded thumbnail for Adding Rooms from the Schematic
How to work with Rooms
Adding Rooms from the Schematic

Rooms can be added directly from the schematic sheet. From the schematic sheet they are pushed to the PCB. Here we'll look at the rooms and component classes generated by default in the schematic, how to add and configure rooms manually, and how to push them to the PCB.

6-Layer PCB Design
Blog
6-Layer PCB Design Guidelines

Once you’ve run out of room on your 4-layer PCB, it’s time to graduate to a 6-layer board. The additional layer can give you room for more signals, an additional plane pair, or a mix of conductors. How you use these extra layers is less important than how you arrange them in the PCB stackup, as well as how you route on a 6-layer PCB. If you’ve never used a 6-layer board before, or you’ve had EMI troubles with this stackup that are difficult to solve, keep reading to see some 6-layer PCB design guidelines and best practices.

Component Management
On-Demand Webinar
Help Ensure The Best Designs With Component Management

There are many aspects to designing a PCB. One of the larger aspects has to do with managing your components. We all need components for our designs, but are those components in our library and designs up-to-date or even purchasable? These questions need to be answered before we can safely use them. If not, we could just be wasting our time designing with invalid components. Altium Designer® has several tools to help you manage the components in your libraries and designs.

Altium Designer Interface
Blog
Altium Designer 22.5 Update

We are happy to announce that the Altium Designer 22.5 update is now available. Altium Designer 22.5 continues to focus on improving the user experience, as well as performance and stability of the software, based on feedback from our users. Check out the key new features in the What's New section on the left side of this window!

Are Hybrid PCB Stackups Reliable?
Blog
How Reliable is Your Hybrid PCB Stackup?

PCB stackups often incorporate slightly dissimilar materials that could pose a reliability problem. Hybrid PCBs are one case where the PCB stackup will include different materials, typically a standard FR4 laminate and a PTFE laminate for RF PCBs. Designers who want to take the lead on material selection when designing their hybrid stackups should consider these factors that affect reliability. As with any PCB stackup, make sure you get your fabricator involved in the manufacturing process early to ensure reliability problems do not arise during production.

Embedded thumbnail for How to Draw a Board Outline Using Coordinates
How-To's
How to Draw a Board Outline Using Coordinates

In this video, we cover how to draw a curve by using coordinates. This can be very helpful when creating a board outline.

Embedded thumbnail for Creating a Schematic Symbol: Mapping out the Component
How to create a Schematic Symbol
Creating a Schematic Symbol: Mapping out the Component

When creating a schematic symbol, one of your first tasks will be creating a component symbol. We’ll show you how to map out a component in the Schematic Library Editor by creating and configuring the component, adding pins, and creating graphics.

Monte Carlo vs Sensitivity Analysis
Blog
Monte Carlo Simulation vs. Sensitivity Analysis: What’s the Difference?

In a previous article about circuit simulation and reliability, I looked at how Monte Carlo analysis is commonly used to evaluate circuits that are subject to random variations in component values. Sensitivity analysis is a bit different and it tells you how the operating characteristics of your circuit change in a specific direction. Compared to a Monte Carlo simulation, sensitivity analysis gives you a convenient way to predict exactly how the operating characteristics will change if you were to deliberately increase or decrease the value of a component.

Embedded thumbnail for How and When to Use Rooms
How to work with Rooms
How and When to Use Rooms

Rooms are an extremely valuable tool within the Altium Designer PCB environment, but how and when do you use rooms? If you need to control component placement and layout, assign a specific design rule to a group of items, or if you have repeated channels that need similar layouts in your multichannel design, rooms can make it much easier.

Simulation, Build and Test
Blog
Creating Continuous Integration Pipelines for FPGAs

Field Programmable Gate Arrays, or FPGAs, have become ubiquitous amongst high-speed, real-time digital systems. The speed at which FPGAs operate continues to increase at a dizzying pace but their adoption into Continuous Integration pipelines seems not to trail as closely. In this article we will review the concept of CI pipelines, their application to FPGAs, and look at examples on how to set this up.

Embedded thumbnail for MCAD CoDesigner Quick Start: Autodesk Fusion 360
Working with MCAD CoDesigner extension
MCAD CoDesigner Quick Start: Autodesk Fusion 360

MCAD CoDesigner is built to address the challenges of electronic product design by enabling seamless collaboration between your electrical and mechanical engineers. This video will show you how to start collaborate between Altium Designer and Autodesk Fusion 360. 

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DFM and Fabrication Cost/Time Constraints
Component Placement Control for DFM

Component placement is a crucial part of making sure your design is manufacturable, so you need to be able to control placement. We’ll show you how, through rules and courtyard layers to maintain accessibility and manufacturability in your entire design through component placement control.

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The High-Speed PCB Stackup Design Challenge
Blog
The High-Speed PCB Stackup Design Challenge

As much as we would like to build every high speed PCB perfectly, with ideal SI/PI/EMI characteristics, it isn’t always possible due to many practical constraints. Sometimes a stackup can be “good enough,” even for a high-speed PCB. This always comes from the need to balance engineering constraints, functional requirements, and the need to ensure signal and power integrity in a high-speed design, and finally to ensure compliance with EMC requirements.

How I Improved My Collaboration Efficiency with Altium 365
Blog
How I Improved My Collaboration Efficiency with Altium 365

Involving the whole team that will bring a product to completion early on in the development cycle is vital to efficient development. Design reviews with all the relevant parties are critical at each step of the design process, starting with high-level component selection, then through the schematic capture and PCB layout stages. 

Countersink and Counterbore
Blog
Countersink and Counterbore

Ergonomics and convenience are important issues when designing a printed circuit board and the device as a whole. A lot of Altium Designer tools are aimed at solving them. These include Countersink and Counterbore holes, which allow the use of various types of screws in the mounting holes of the board.

Migrating Data From Other Version Control Systems
Blog
Migrating Data From Other Version Control Systems

The development of electronic devices always involves the release of many different types of files. And these files are not static - they change as the project progresses. When filling a project with data, a user creates new files, modifies outdated files that have become irrelevant. Managing project data is a separate task, especially for large developments where several participants with different specializations are involved in the process.

Properties Panel Tuning
Blog
Properties Panel Tuning

High-speed PCBs often require tuning groups of tracks, both single and differential. Altium Designer includes powerful tools that allow you to solve such tasks quickly and with high quality. Study this document and achieve the desired result even faster.

Reflectionless Matching vs. Conjugate Matching: An Apparent Contradiction
Blog
Reflectionless Matching vs. Conjugate Matching: An Apparent Contradiction

There is one confusion related to impedance matching that comes up again and again, and it appears to be a fundamental confusion between reflection and power delivery. This leads to an apparent contradiction that arises when we try to generalize power delivery to wave reflection, despite the fact that the two were not meant to be related.

Properties Panel Routing
Blog
Properties Panel Routing

Routing is one of the most time-consuming stages of PCB design. Altium Designer has a large set of tools that allow you to do it as accurately and quickly as possible. This document will help you to learn how to manage your routing effectively and use it to its fullest extent.

Quarter-Wave Transformer Design For Real and Reactive Loads
Blog
Quarter-Wave Transformer Design For Real and Reactive Loads

RF systems operate with specific impedance values across entire interconnects, including on PCBs. Not all RF components are packaged in integrated circuits with defined impedances, so impedance matching circuits and line sections are needed to ensure signal transmission between different sections of an interconnect. One of these impedance matching techniques is the quarter-wave impedance transformer, which can be implemented as a printed trace with specific impedance.

Schematic
Blog
Altium Designer 22.10 Update

We are happy to announce that the Altium Designer 22.10 update is now available. Altium Designer 22.10 continues to focus on improving the user experience, as well as performance and stability of the software, based on feedback from our users. Check out the key new features in the What's New section on the left side of this window!

Component Warpage Causes in a PCB
Blog
Component Warpage Causes in a PCB

A staff member at a PCB manufacturer once explained to me that they thought we were having an issue with a package warping. Unfortunately, component warping can occur both in a PCB and in components. In this article, we'll give an overview of warpage in a PCB, specifically in the circuit board and in the components.

Link Budget Calculator
Blog
RF Signal Chain and Link Budget Basics

If you're designing a wireless IoT device, and you know how to calculate the link budget, you can reasonably estimate whether your signal will reach its destination and be read by the receiver. To calculate the link budget, the designer needs to know something about all other sources of gain and loss in the system. Once link budget is determined, the designer can judge whether some modification is needed in their RF signal chain. 

How to Calculate SMD Pad Sizes?
Blog
Best Methods for Calculating SMD Pad Size in PCB Design

SMD components require precisely sized pads for soldering during assembly. The designer is responsible for ensuring pad sizes are correct, either by calculating them and comparing with footprint data, looking through datasheets, or by memorizing SMD pad size standards. If you have a component and you don't have access to the footprint, and you decide to biuld the footprint yourself, what resources are available to ensure you have the correct pad size?

Can You Fix a Warped PCB?
Blog
Can You Fix a Warped PCB?

Before we get too deep into this article, I’ll give you the simple answer. You probably can’t fix warping in your PCB after it’s already been fabricated. You can prevent an unwarped board from becoming warped during assembly, but only as long as materials were selected properly and the board is put into reflow correctly. We’ll run over some of these points in this article, and I’ll examine some points that might help you recover a warped board.

What is an Eye Diagram?
Blog
What is an Eye Diagram?

The eye diagram is a useful measurement or simulation as part of channel compliance. The measurement shows many different factors that can affect signal behavior simultaneously, ultimately allowing for qualification of errors and losses in a channel. In this article, I’ll run over some of the fundamental measurements that you could manually extract from an eye diagram and how they reveal some strategies for improving channel designs.

Skills for Today's PCB Designers
Blog
What Skills Are Needed to be a PCB Layout Designer?

To readers who have been working in the PCB industry for most of your career, you have probably seen a very diverse group of professionals with varied skill sets and backgrounds. Designers might get started as engineers or as technicians, and some designers learn how to create beautiful PCB layouts in university. No matter how you got into PCB design, there are some important skills to know that will take you a long way towards advancing your career.

How to Fix the Top PCB Design Mistakes
Blog
Beginner PCB Design Mistakes and How To Avoid Them

When starting out with PCB design, it’s common to treat the process as simply ‘connecting the dots’: as long as connections are made, it’s not particularly important how these connections are made. Having reviewed quite a number of PCBs of other PCB design engineers over the last few years, there are common, unfortunately erroneous, occurrences between a lot of them. This article aims to illustrate the top five beginner PCB design mistakes and what we can do to avoid making them. Let’s get started!

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Embedded thumbnail for Remove Unused Via Pads
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.

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.

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.

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.

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.

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.

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.

Embedded thumbnail for High-Speed Return Paths
How To Work with High-Speed Projects
High-Speed Return Paths

For high speed designs it is critical to maintain your return path for adequate signal integrity. We’ll show you how, using best practices and error resolutions in Altium Designer.

Embedded thumbnail for Working with Design Variants
How to Work with Draftsman
Working with Design Variants

Altium Designer’s Draftsman Document allows for several different board views and variants that you can work with. We’ll show you how to add new variants and work with their properties to display exactly what you need in your Draftsman Document

Embedded thumbnail for Creating Schematics in High-speed Projects
How To Work with High-Speed Projects
Creating Schematics in High-speed Projects

There are several powerful features in Altium Designer for creating schematics in high speed projects. We’ll show you a few, such as how to utilize nets, net classes, blankets, design rules, and differential pairs.

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How to Work with Multichannel Schematic
Creating Connectivity

Multichannel connectivity can be created in a few different ways. We’ll show you how to create connectivity using ports and net labels efficiently and effectively. 

Embedded thumbnail for Hierarchical Structure for High-Speed Projects
How To Work with High-Speed Projects
Hierarchical Structure for High-Speed Projects

A Hierarchical structure can make your high speed project much easier to navigate and complete. We’ll show you some tips and tricks for creating and maintaining a high speed. Hierarchical design project.

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