Mixed-signal printed circuit boards (PCBs) present unique challenges in high-performance applications, such as vibration analysis and other multi-channel data acquisition systems. Nonlinear ...

Physicists have demonstrated an experimental, next-generation atomic clock -- ticking at high 'optical' frequencies -- that is much smaller than usual, made of just three small chips plus supporting ...

Over the past couple of decades, more and more applications are going digital. Implementation of digital systems is very simple as it is entirely about logic; however, complexity increases ...

National Institute of Standards and Technology (NIST) physicists have set a new world record for atomic clock stability using a pair of ytterbium-based timepieces. Stable down to quintillionths of a ...

The importance of timing requirements and jitter budgets for FPGAs, ASICs, and SoCs. How to utilize the information portrayed in a clock tree to choose the most well-suited clock generator for your ...

The goal of the Defense Advanced Research Projects Agency’s (DARPA’s) Chip-Scale Atomic Clock (CSAC) program is to provide warfighters with enhanced radio communications and jam-resistant navigation ...

The interpretation of signals within a synchronous digital communications system relies upon timing. Whether a 1 or a 0 is read by a receiver depends entirely on when the signal is sampled, and sample ...

Sometimes, the parts list says it all. 777 transistors, 1223 resistors, 136 LEDs, 455 crimp connectors, 41 protoboards and 500 grams of solder. That’s what went into this transistor logic clock build.