John Clarke, Michel H. Devoret, and John Martinis built an electrical circuit-based oscillator on a microchip.

With such a wide range of electronic timing devices to choose from, why is the classic high-performance crystal oscillator still the best choice in many applications? A partial answer is their ...

Scientists have built a physics-inspired computing system that uses oscillators, rather than digital processing, to solve complex optimization problems. Their prototype runs at room temperature and ...

Many people who get analog electronics still struggle a bit to design oscillators. Even common simulators often need a trick to simulate some oscillating circuits. The Barkhausen criteria state that ...

This manuscript presents a valuable computational tool for identifying 3-5 gene regulatory network topologies capable of generating oscillatory dynamics. The application of Monte Carlo Tree Search to ...

Abstract: Virtual oscillator control (VOC) is a time-domain strategy for regulating grid-forming converters by emulating the dynamics of nonlinear oscillator circuits. Among the three commonly used ...

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 ...

The integration and miniaturization of amplifiers and oscillators, crucial for modern electronics, are achieved through integrated circuits, allowing for smaller, more reliable, and efficient devices.

Everyone interested in analog electronics should find some value in this post. Of course, an effort has been made here to make the content understandable to relative newbies. Forget about complex ...

Since their invention more than a century ago, crystal oscillators have been foundational to electronic design. They allow for precise timekeeping for the clocks in computers as well as on our wrists, ...