New timing portfolio delivers sub-20 fs jitter, 2 GHz performance, and rugged thermal stability, replacing analog limitations with scalable CMOS precision for AI, 5G, and aerospace systems IRVINE, ...
A small yet innovative experiment is taking place at CERN. Its goal is to test how the CERN-born optical timing signal—normally used in the Laboratory's accelerators to synchronize devices with ...
Timing signal jitter can have a profound impact on a wide variety of applications from analog radio frequency (RF) or audio-to-digital communications. While information in a communications system, for ...
Scientists have demonstrated a capability long sought by physicists: transmitting extremely precise time signals through the air between far-flung locations at powers that are compatible with future ...
The North American Nanohertz Observatory for Gravitational Waves (NANOGrav) is a gravitational-wave detector that monitors areas in the vicinity of Earth using a network of pulsars (i.e., clock-like ...
Maxiva GNSS-PTP solution for broadcast and telecom facilities connects to second-generation Global Navigation Satellite Systems and other timing sources When you purchase through links on our site, we ...
Optical detector The black rectangle at the centre of this image is a high-speed semiconductor photodiode that converts laser pulses to super-stable microwave frequencies. The diode is surrounded by a ...
This new lineup introduces high-performance timing solutions designed to meet the demands of complex and high-speed computing and communications systems. With the launch of the new MS11X0 oscillator ...