Skip to main content
Mobile menu
PCB Design
Altium Designer
World’s Most Popular PCB Design Software
CircuitStudio
Entry Level, Professional PCB Design Tool
CircuitMaker
Free PCB design for makers, open source and non-profits
Why Switch to Altium
See why and how to switch to Altium from other PCB design tools
Solutions
For Enterprise
The Last Mile of Digital Transformation
For Parts and Data
Extensive, Easy-to-Use Search Engine for Electronic Parts
Altium 365
Resources & Support
Explore Products
Free Trials
Downloads
Extensions
Free Altium 365 Tools
Online PCB Viewer
Resources & Support
Altium / Renesas Scheme: Information for Shareholders
Renesas / Altium CEO Letter To Customers
All Resources
Support Center
Documentation
Altium Community
Forum
Bug Crunch
Ideas
Education Programs
Professional Training / Certification
University / College Educators
University / College Students
Webinars
Store
Search Open
Search
Search Close
Sign In
High-Speed Design
Main menu
Home
PCB Design
Collaboration
Component Creation
Data Management
Design Outputs
ECAD/MCAD
HDI Design
High Speed Design
Multi-Board
PCB Layout
PCB Routing
PCB Supply Chain
Power Integrity
RF Design
Rigid Flex
Schematic Capture
Signal Integrity
Simulation
Software
Altium 365
Altium Designer
Enterprise Solutions
PDN Analyzer
Upverter
Education
Programs
Altium Academy
Engineering News
Guide Books
Newsletters
Podcasts
Projects
Training Courses
Webinars
Whitepapers
FREE TRIALS
High-Speed PCB Design
Simple solutions to high-speed design challenges
Explore Solutions
High-Speed PCB Design
PCB Creators Look No Further than Altium Designer
When it comes to PCB design software, the best software packages aren’t sold piecemeal. You need an integrated software solution that includes the latest and greatest tools demanded by the PCB design industry. Whether you are new to PCB design or you’ve been in the business for decades, Altium Designer gives you the tools to produce top-quality PCBs for any application. ALTIUM DESIGNER An integrated PCB design software package that contains all
Read Article
Reusing Your Old PCB Designs in Altium Designer
Reusing or modifying your old designs is common among engineers and designers as this helps save you a considerable amount of time. There are times where it makes sense to reuse some or all of an old board, and you might as well completely recreate a device at other times. With Altium Designer, you can implement a comprehensive data management strategy that makes it easy to reuse old designs. You can even go further and use design methodologies
Read Article
How to Make a Bridge Rectifier For PCB Layout
Power conditioning is critical when working with PCBs and for delivering power to your components. This seemingly simple activity can create signal integrity problems if your components are not designed correctly, leading to bit errors or other signal problems during operation. Your design software can help you avoid problems that might arise when you build your own bridge rectifier circuit for your PCB. Simulation and power delivery tools help
Read Article
Guide to PCB Terminology for Altium Designer
Understanding more about PCB design starts with learning the lingo. ALTIUM DESIGNER When working with a PCB design software tool, it’s best you know what it is you’re working with. Whether you are just starting out in the PCB design industry, or you’ve been at it for a long time, you will more than likely run into terminology that you aren’t familiar with. There are technical terms in the electronic design industry that you may never have had
Read Article
Troubleshooting Your Next PCB Design: Printed Circuit Boards Problems with Circuit Simulation and Analysis
Troubleshooting a PCB usually occurs after it has been received from a production run, or after it has been used for some time. Using design rules, error checking, and simulation tools during the design process can help you avoid receiving defective boards from a production run. You’ll also be able to diagnose and troubleshoot signal integrity problems that can arise from overlooking important design standards. Only the latest and greatest
Read Article
Living on the Edge (Rate) — It’s All About Time and Distance
The focus of this article is the clarify the origins of the phrase edge rate, what it really means relative to the design process and the best means for addressing it.
Read Article
Power Plane and Ground Planes: Should You Use Your PCB Power Plane as a Return Path?
Power planes (sometimes called a power layer) and ground planes are important for more than just distribution of supplying power. When defining reference planes, both with impedance controlled routing and in managing return paths, your stackup might force return currents to pass into a PCB power plane before being coupled back to a ground layer. Even though you define a GND reference layer as a the basis for your impedance-controlled trace width
Read Article
Lies Your Fabricator May Have Told You
In some of our previous articles, we have talked about the various things that go wrong when a board design is turned over to the fabricator for manufacturing. Sometimes, the things that can go awry are due to design errors but the bulk of them can be ascribed to errors incurred during the fabrication process. This article will describe the errors that can be encountered and what, if anything, can be done to avoid them. We have previously
Read Article
Transmission Line Properties That Affect Impedance—Hidden Features
Here and in several other articles published on the Altium Resource section of the company’s website, the topic of transmission line impedance has been addressed from a number of different perspectives. I have addressed transmission line impedance previously in my article, The Evolution Of Simulation Technology and Impedance and, it might seem that we may have exhausted the field of potential information that can be provided on impedance, however
Read Article
How the Fiber Weave Effect Influences High Frequency Signal Integrity
Orienting traces and choosing the right weave style can help compensate for the fiber weave effect. Watch out for resonances at high frequencies. Learn more in this latest PCB design blog.
Read Article
Pros and Cons of Orthogonal Trace Routing in Multilayer PCBs
What would limit your use of orthogonal trace routing? Like most design questions, it depends on your signal speed and stackup, as well as placement in the PCB layout. Read this latest PCB design blog by expert Zachariah Peterson to learn more.
Read Article
The Fundamentals of High Speed SerDes Design
High speed SerDes design goes far beyond computer peripherals The challenges in high speed SerDes design filter right down to the PCB level and are all about backplane/daughtercard design, transmission line layout, selecting proper equalization schemes, and much more. This even gets down to the fundamentals, where stackup and power integrity become critical when driving transmitters and receiver ICs. If you’re designing a PCB as part of a SerDes
Read Article
DDR5 PCB Layout and Signal Integrity Guidelines: What Designers Need to Know
Release of the DDR5 standard was announced in July 2020, about 18 months after the announced development of the first RAM module following the proposed standard. The standard allows peak speeds in excess of 5200 MT/sec/pin (compare that to 3200 MT/sec/pin with DDR4), with JEDEC-rated speeds up to 6400 MT/sec/pin and channel bandwidth increased up to 300 GB/s. Demand for this new generation of memories with 8, 16, and 32 GB capacities should
Read Article
PCB Bus Routing and Layout: The Basics
Power supply on a network switch Modern computing simply wouldn’t be possible without PCB bus routing and layout. The same goes for many digital systems that manipulate data in parallel. If you’re working on a new PCB design and you need to route a bus between different devices, there are some simple rules to follow to ensure your signals aren’t distorted and that successive devices are triggered correctly. As some designers may question the
Read Article
High Speed Routing Guidelines for Advanced PCBs
You can create this advanced board with these high speed routing guidelines for advanced PCBs Newer designs are continuing to get faster, with PCIe 5.0 reaching 32 Gb/s, and PAM4 pushing signal integrity and speeds to the limit. Proper interconnect design must account for the lower noise margins of advanced devices, impeccable power stability requirements, and much more to ensure signals can be received properly. With advanced devices running at
Read Article
TE Connectivity Paving the Way into 100 GBps Data Rates and Devices
In this podcast episode Nathan Tracy & Justin Pickel from TE Connectivity discuss their roles in bringing us data rates of 100 gigabits per second, the challenges this creates, and how to solve them.
Read Article
Delay Tuning for High Speed Signals: What You Need to Know
Length matched lines in a PCB Take a look at two signal readouts on an oscilloscope, and you can see how length/timing mismatches between signal traces can improperly trigger downstream gates. The situation becomes worse when we look at the travel time for a master clock signal and the roundtrip time for sent/received data in different computer interfaces. SDRAM has solved this nicely by placing a clock in the slave device and sending a clock
Read Article
Pagination
First page
« First
Previous page
‹‹
Page
9
Current page
10
Page
11
Page
12
Page
13
Page
14
Next page
››
Last page
Last »
Load More