Learn how to significantly improve the efficiency of your PCB routing process with guided routing technology in Altium Designer. To learn more about this topic please see the full solution - Enhance Your Routing Efficiency with ActiveRoute - at Altium.com.
PCB Routing Guidelines for DDR4 Memory Devices
By ensuring you have proper PCB design guidelines in place, your DDR4 memory can be used most effectively i...
Other content in this Stream
Pin-Package Delay and Via Delay in High Speed Length Tuning
Pin-package delay and via delay will affect skew in your board, requiring ultra-accurate delay matching.
Using an IPC-2221 Calculator for High Voltage Design
Take a look at our trace spacing data compiled from IPC-2221 calculator results.
Any Angle Routing: When Should You Use It?
Any angle routing does just what it suggests: you can route traces in your design at any angle you like.
Should You Use Your Power Plane as a Return Path?
Automated return path checking tools can help you trace through the ground and power plane as a return path.
Using Prepreg vs. Core for Controlled Impedance Routing
Should you use core or prepreg for controlled impedance routing? Here’s how your choice will affect controlled impedance.
How the Fiber Weave Effect Influences High Frequency Signal Integrity
Here are some guidelines for modeling and preventing high frequency signal integrity problems due to the fiber weave effect.
The Case Against Orthogonal Trace Routing in Multilayer PCBs
Here’s why you should avoid orthogonal trace routing in multilayer PCBs. If you design the right stackup, you won’t need orthogonal routing.
The Fundamentals of High Speed SerDes Design
We’ve compiled some important guidelines for high speed SerDes design. Here’s what you need to know.
Substrate Integrated Waveguide Routing for mmWave PCBs
Substrate integrated waveguide routing has become popular in recent years. Here’s how you can implement this new technique in your PCBs.
Parasitic Extraction with an Electromagnetic Solver in PCB Routing
Automated parasitic extraction is critical for delay matching. An integrated electromagnetic solver can help you accurately match delay as your route traces.
PCB Bus Routing and Layout: The Basics
Here are some tips for PCB bus routing and layout. You can take advantage of interactive routing tools to speed up design.
MIPI Physical Layer Routing and Signal Integrity
Here’s what you need to know about MIPI physical layer design and routing for your next mobile device.
Plated Through-Hole Vias in mmWave PCBs
You might be tempted to use through-hole vias in mmWave PCBs. Here’s what to watch for with PHT vias and components.
PCB Trace Width vs. Current Table for High Voltage Design
Take a look at our PCB trace width vs. current table for high voltage/high power PCB designers.
Delay Tuning for High Speed Signals: What You Need to Know
Here’s what you need to know about delay tuning in your next high data rate PCB.
Follow Your Multilayer Ground Return Path to Prevent EMI
Here’s how you can check the ground return path for single-ended signals.
Push and Shove Router: How it Works and Why You Need It
Here’s how to work with the different push and shove router modes in Altium Designer.
Microvia Technology and Beyond for HDI Design
Microvia technology has made HDI design significantly easier, but new routing architectures are paving the way for even higher density design methodologies.
PCIe BGA Fanouts and Escape Routing
One important aspect in PCIe design is BGA escape routing. Here are some strategies for designing PCIe BGA fanouts.
Standard Board Thickness and Your Layer Stack