Critical applications across multiple industries now require precise synchronization at the edge and access Smart grids, telecoms, utility networks and more also need protection against GNSS ...

What is SyncE, and why is it so important to modern communications networks? The short answer is that it’s shorthand for Synchronous Ethernet. The longer answer is that it’s a variant of standard ...

The material presented in this Application Note enables the user to simply and inexpensively synchronize a fixed frequency PWM controller to a wide range (>2x) of frequencies. The reader learns why ...

Races, missed next-state values due to long paths, and metastability can result from corrupted clock signals. This post describes the challenges of clock network and clock jitter analysis in more ...

The IEEE 1588 Precision Time Protocol enables precise time synchronization over the packet-based Ethernet network so that the time on a slave clock at one end of the network agrees with a master clock ...

You’d think that synchronizing the clocks across a fleet of modern servers is a solved problem, but it’s actually quite a hard challenge to solve, especially if you want to get to nanosecond accuracy.

Modern timekeeping relies on the accuracy of atomic clocks, which revolutionized timekeeping by using the quantum behavior of atoms to measure time. Discover how these incredibly precise clocks work, ...