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3D MID Design Whitepaper

Dive into a dynamic design experience where you can visualize and edit your circuits in true 3D, offering unparalleled precision. Altium Designer's 3D-MID (Mechatronic Integrated Device) Design tool revolutionizes the design process, providing a fresh perspective. Explore the capabilities and benefits of this feature in our comprehensive guide.

Blog
Types of Wiring Harnesses for Electronics

In today's world, many products utilize multiple PCBs interconnected with each other, often leading to a complex network of cables within an enclosure. The most effective way to manage these wires and cables is by constructing a wiring harness. This article explores the various types of harnesses used in electronics.

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Octopart
Expert Insights on Alternate Parts

Join Philip Salmony in this enlightening series as he unravels the complexities of sourcing alternate parts to enhance your designs. In this episode, watch Phil effortlessly locate a substitute Ceramic Capacitor, backed with invaluable tips, tricks, and strategies that will transform your approach to part sourcing and revolutionize your design process.

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Start Altium Designer 24 Training for Free

Level up your design skills with Altium Designer 24 training! Whether you're looking to brush up on the basics or delve into advanced techniques, our instructor-led or on-demand videos will help you master the latest features.

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PCB Layout Replication Whitepaper

Experience seamless acceleration in your design workflow with Altium Designer® 24's PCB Layout Replication feature. Effortlessly duplicate layouts for recurring circuit blocks and component groups, amplifying efficiency and reducing expenses.

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New Constraint Manager
New Constraint Manager: Physical Constraints, Layout Checks & Constraint Sets

Part IV of our Constraint Manager Series is live! In this episode, we explore essential steps like setting up physical constraints, conducting layout checks, and organizing constraint sets for efficient PCB design management. Follow along to enhance your workflow and optimize your designs.

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Wearable Design Project
Wearable Design Project - Power Supply

Part IV of our Wearable Design Project series is here! Join Piet Callemeyn as he tackles power supply strategy for our wireless heart rate sensor. Learn about battery integration, charging mechanisms, and power gating modes for optimal energy use. Whether you're a novice or expert, this episode provides practical insights into wearable tech design.

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Custom Pad Stack Whitepaper

Explore our manual on the Custom Pad Stack enhanced feature. From thermal connections to pad shapes, every detail matters. Pads are no longer merely points; they demand unique, tailored solutions. With Altium Designer 24, you can customize pad shapes, fine-tune thermal relief, and master rounded/chamfered rectangle pads to meet manufacturing standards, conquer tight spaces, and elevate your design game significantly.

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How-To's
How to Integrate Skip Vias in HDI PCB Design

Discover the intricacies of utilizing Skip Vias in HDI PCB design through this comprehensive guide. This video provides a step-by-step walkthrough on integrating skip vias into your high-density interconnect PCBs, delving into the advantages, disadvantages, and strategic applications to optimize electronic functionality.

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Pi.MX8 Project - Board Layout Part 2

We are continuing the exploration of board layout in our Pi.MX8 Project. In this chapter, we focus on defining the impedance profiles, establishing matching design rules for the correct trace width, and initiating the routing of the DRAM interface.

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New Constraint Manager
New Constraint Manager: Starting a New PCB: Testing Clearance Matrix & Custom Rules

Starting a new PCB project? Follow along as we guide you through essential steps, focusing on leveraging the Clearance Matrix and Custom Rules for precise design control. Unlock the full potential of Constraint Manager in Altium Designer 24 to kickstart your projects efficiently.

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Three ways to manage your BOM costs
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Improving Supply Chain Success with BOM Management

It’s no secret that component shortages have become more frequent this year. In fact, countries around the world are losing billions in revenue due to supply issues. Having the right components on hand is more crucial than ever as availability, obsolescence, counterfeit products and environmental non-compliance risks continue to grow. Fortunately, many shortages can be avoided by introducing proactive supply chain practices.

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?

Designing the Next-Generation Electronics
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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.

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.

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.

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.

Monte Carlo vs Sensitivity Analysis
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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.

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.

Collaborators Visualization
Blog
Soft Locks [Conflict Prevention] in Altium 365

Conflicts can occur when multiple people work on the same project simultaneously. The user might not realize that they are not looking at the latest version of the documentation, leading to problems later. To address this issue, Altium features an intuitive graphical user interface that allows you to examine conflicts quickly and carefully

Guide to Monte Carlo in SPICE
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The Basics of Monte Carlo in SPICE: Theory and Demo

Anytime you place a component in your PCB, it’s almost like you’re gambling. All components have tolerances, and some of these are very precise, but others components can have very wide tolerances on their nominal values. In the event the tolerances on these components become too large, how can you predict how these tolerances will affect your circuits?

BGA Land Patterns and Footprints
Blog
What's In Your BGA Land Pattern and Footprint

If you look in datasheets for most components, you’ll often find a recommended land pattern, usually alongside some mechanical package information and assembly information. This is not always the case with BGA components, especially components with high ball count. There are a few reasons for this that we can speculate: those ball counts might just be too big to put into a single page, or the manufacturer just expects you to know how to create that land pattern.

Molded Interconnect Devices
Blog
MIDs Make a Comeback as Vertical SMD Modules for Your PCB

Molded interconnect devices are essentially plastic molded substrates with traces running along any surface, including at right angles and running vertically. Altium users can use the new 3D Routing extension to design their own component carriers, which can be mounted vertically in a standard assembly process. If you’ve always wanted to vertically mount components or entire circuits, but without the expense of adding a flex section to your design, the new 3D Routing extension with HARTING’s component carrier designs provides a unique solution.

MCAD CoDesign Process
Blog
MCAD CoDesigner 2.9.0 is Out

Altium has released version 2.9.0 of the MCAD CoDesigner. This version has the option to exclude small components when transferring from ECAD to MCAD. The arc behavior was improved, and the support for splines in board shape and cutouts was added. With this release, you can now select a specific SOLIDWORKS configuration of a part to use on the board and view the improvements made for Siemens NX.

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

Altium Designer's world-class PCB design features help users quickly get started with new rigid-flex designs and prepare them for manufacturing. Rigid-flex in Altium Designer starts with designing a manufacturable PCB layer stack complete with via transitions and any calculated impedance requirements. Keep reading to see how Altium Designer supports your flex and rigid-flex designs.

2+N+2 PCB Stackups
Blog
2+N+2 PCB Stackup Design for HDI Boards

Like any other advanced PCB, success in HDI design comes from designing the right stackup. One common HDI stackup used to support routing into moderate pin count, high-density BGA components is the 2+N+2 PCB layer stack for HDI boards. We’ll explore this stackup more in this article, as well as how it is related to other advanced stackups used in HDI PCBs.

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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.

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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.

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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.

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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.

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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.

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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.

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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.

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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.

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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.

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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. 

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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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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.

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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

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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. 

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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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