Abstract: In this article, we propose a digital-to-time conversion technique operating entirely in the sinusoidal waveform voltage domain of a crystal oscillator (XO) before the signal’s final slicing ...

Abstract: In this paper, we propose a digital-to-time conversion (DTC) technique operating entirely in the sinusiodal waveform voltage domain of a crystal oscillator (XO) before the signal's final ...

In the previous segment of this article series, we discussed in detail the operation of a crystal oscillator. We’ll now extend the discussion to various parameters associated with crystal oscillators ...

At SiTime, we often hear from many customers when they have crystal design issues such as cold startup failures, oscillator circuit problems from mismatched crystals, or failure to pass EMI tests.

Crystal oscillators are incredibly useful components, but they come with one little snag: their oscillation is temperature-dependent. For many applications the relatively small deviation is not a ...

For battery-powered circuits, it is easy to build an ultralow-current crystal oscillator designed around a 32.768-kHz crystal. This crystal is common for real-time-clock circuits. Because these ...

Crystal oscillators are incredibly useful components, but they come with one little snag: their oscillation is temperature-dependent. For many applications the relatively small deviation is not a ...

A Pierce (crystal) oscillator intended to provide a reliable clock signal for at least 1 year when powered by battery voltages as low as 2.4 V. Fig 1. This Pierce-series resonant oscillator can ...