As clock speeds in communications systems push into the GHz range, phase noise and jitter — always key issues in analog designs — are becoming increasingly critical to the performance of digital chips ...

Imagine you're under pressure to move a hypothetical multi-gigabit-per-second communications design to production. One problem remains elusive—the high-speed communication between chips suffers ...

This file type includes high-resolution graphics and schematics when applicable. The terms noise and jitter can mistakenly be confused, even more so as data rates and signal amplitudes have changed ...

Jitter is the unwanted variations of a binary signal's leading and trailing edges. It occurs as the signal is processed or transmitted from one point to another. Most jitter is caused by noise picked ...

Jitter is a lesser-known networking issue that I can guarantee that most of you have experienced, probably recently. It's most apparent in any type of real-time communications, like video calls, VoIP ...

This white paper is aimed at system architects and physical implementation leaders working on the design of SoCs. It can be confusing to understand the impact of different jitter sources and how to ...

Jitter can seriously degrade system operation but, as Lee Morgan explains, characterising and troubleshooting jitter on embedded systems has become a lot easier. Clocks are the heartbeats of embedded ...

Use Jitter to make a quick motion graphic you can display on social channels, in email, or on your site. This article is republished with permission from Wonder Tools, a newsletter that helps you ...

The accelerating need for ever higher data rates and serial I/O density sets demanding performance requirements for current and next generation SerDes transceivers. Not only must they handle multiple ...