With phase noise levels down to −178 dBc/Hz at 100 kHz offset and tight ppb‑class stability, designers are not limited ...

Back in 2019, Google made waves by claiming it had achieved what has been called “quantum supremacy”—the ability of a quantum computer to perform operations that would take a wildly impractical amount ...

Field trials in real-world environments show Multi-Link Operation (MLO) with commercial devices improving uplink ...

Why You Can’t Just Use a Spectrum Analyzer Industry has an increasing demand for spectrally pure signals in applications such as imaging radar, mobile communications, satellite communications, weather ...

As the number of higher-throughput applications grows, so does the need for a wider bandwidth and network coverage in wireless systems. Given limited spectrum allocation, wireless communication ...

To support the data rates of 64Gbps and beyond, we believe a fundamental architectural shift is necessary. This article outlines our R&D team's upcoming PLL suitable for high-speed SerDes having ultra ...

Using a spectrum analyzer is the oldest, most straightforward, and most widely used means of measuring phase noise. The basic procedure starts with measuring the carrier power (Pc) of the device under ...

Some brief theory and typical measurements of phase noise. How to produce the lowest phase noise at a PLL output. A standard design procedure for a typical Type 2, second-order loop. As stated in ...

Noise has always been important to communications experts, but it’s quickly becoming an issue that every semiconductor designer has to contend with. Some chips already have been compromised. Noise can ...

Field trials in real-world environments show Multi-Link Operation improving uplink performance under interference by up to 116% and significantly reducing latency. The Wireless Broadband Alliance (WBA ...