Switching regulators are widely used in industrial, infrastructure, communications, consumer, and automotive applications. One of the most popular switching regulator topologies is the buck converter ...

Buck-boost converter topologies fit into a wide range of applications. Whether you are charging a battery from a battery, powering a string of LEDs, or running a handheld device from a single cell, ...

Why we should use a multiphase buck converter. How to use buck converters in parallel to increase the output current/power. How to derive the small-signal transfer function of a multiphase buck ...

As electronics become more advanced, the need for efficient power management increases. One crucial element of power management is the DC-DC converter, which is a device that converts DC voltage from ...

For most functions, a higher level of integration usually signifies monotonically greater value to a design, but in the case of buck converter components, the choice is not so automatic. Integration ...

To meet these demands, the Berlin-based Ferdinand-Braun-Institut (FBH) has developed a novel, highly efficient and compact ...

Analog Devices has created a pair of 6A buck-boost converters for automotive use. “MAX25239 and MAX25240 small-footprint 2V to 36V converters are the industry’s only 6A automotive buck-boost with ...

Diodes has announced four automotive buck converters for 48V rail point-of-load use. The parts are similar, but rated at 5 to 100V or 5 to 80Vin, and 2.5A or 3.5A out. There are not synchronous ...

[Hugatry] wanted to replace the adjustment pot on an LM2596 buck converter with a microprocessor-controlled voltage. The regulator IC uses a divider to generate a 1.25V reference from the output. The ...