The LT8711 [1] is a DC/DC controller that supports synchronous buck, boost, SEPIC and ZETA topologies, or nonsynchronous buck-boost topologies. Analog Devices offers numerous synchronous buck and ...

This article describes emerging trends in synchronizing digital ICs and shows how process scaling, rapid increases in clock frequencies, and demand for lower power dissipation will affect the choice ...

The IRDCSYN2 reference design board for the IR1176 application-specific synchronous rectification IC is rated at 3.3 Vdc and 20A with an efficiency of 90%. The reference design includes a fully ...

Technology developed for driving synchronous FETs in flyback topologies can be directly applied in LLC topologies. This technology offers significant gains in efficiency for applications with low ...

The dual-sprocket design of Synchronous Plus synchronous drives feature both metric and standard-tapped holes coupled with a high-capacity Synchronous Plus belt, resulting in 50% more horsepower ...

Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...

Computer architecture researchers evaluate key areas such as pipelining, organization, instruction issue, branching, and exception handling when considering asynchronous and synchronous design and ...