Consider the following illustration in Figure 1 of what we shall see is an oscillator, specifically, a Colpitts oscillator. Figure 1 The Colpitts oscillator where the passive components are arranged ...

Abstract: This paper explores the robust design of Colpitts and Hartley oscillators. Considering the uncertainty and unmodelled dynamics for Colpitts and Hartley oscillators, the period and amplitude ...

The two persons above are the geniuses who gave us two classic oscillator circuits as shown in Figure 1. Figure 1 The two classic oscillators circuits: Colpitts (left) and Clapp (right). However, a ...

Abstract: This article presents a dual-core oscillator with third-harmonic extraction at 150 GHz. The oscillator is built around a Colpitts topology, leveraging the harmonic-rich transistor drain ...

We’ve read a lot about oscillators, but crystal oscillators seem to be a bit of a mystery. Hobby-level books tend to say, build a circuit like this and then mess with it until it oscillates.

Sensors monitoring mechanical and biological systems must often scavenge power from the thing being sensed. The oscillator circuits shown here let you operate those sensors. Sensor circuits that ...

Crystal oscillators are fundamental components in modern electronic systems, providing the precise timing necessary for communication, computation, and sensor network operations. Recent advances in ...