The advantages offered by a synchronous buck or boost topology can also be applied to a buck-boost topology, where the converter’s output voltage falls within its input range. In this case, a ...

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 ...

Power-supply design becomes complicated when you’re faced with multiple conflicting specifications. One example is the design of a double-data-rate (DDR) memory supply for an automotive environment.

What if a single innovation could save industries millions of dollars, slash carbon emissions, and redefine what we thought was possible in energy efficiency? Enter ABB’s new 56.2 MW brushless ...

The synchronous buck converter is a widely used topology in low-voltage, high-current applications. One common application is a point-of-load (POL) converter that transforms a system bus voltage of 48 ...

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 ...

Like a cross between traditional belting and chain, timing belts include a main body and engaging surfaces — a.k.a. teeth. They're used to synchronize motion on everything from copiers to conveyors.

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