Synchronous buck converters, as opposed to conventional buck converters, can achieve high efficiency in today's low-voltage, high-current applications because they replace the catch diode of buck ...

The synchronous buck circuit is in widespread use to provide “point-of-use” high-current, low-voltage power for CPUs, chip sets, peripherals, etc. In the synchronous buck converter, the power stage ...

Texas Instruments’ TPS53915 (Fig. 1), can supply up to 12 A output that is adjustable from 0.6 V to 5.5 V. Its input voltage ranges from 1.5 V to 18 V. A 4.5 V to 25 V VDD input powers an internal 5 V ...

With its 3.0 V to 42 V input range, the LT8609 is ideal for automotive applications that must regulate through cold-crank, load dump transients, and stop-start driving. The IC maintains a minimum ...

Saving space and offering easier integration they are suitable for applications including body electronics, audio systems, and inverter gate drivers. The A6983 converters offer flexible design choices ...

Texas Instruments (TI) introduced a four-channel buck DC/DC converter with PMBus/I2C digital interface for applications in space-constrained equipment that experience high ambient operating ...

Targeted at automotive point-of-load (PoL) applications, the AP66200Q and AP66300Q cover a wide input voltage range - from 3.8V to 60V - which allows 12V-, 24V-, and 48V-based automotive systems to be ...

Diodes has announced a 600mA automotive-compliant dc-dc converter that can run from 4.5 to 40V. Diodes has announced a 600mA automotive-compliant dc-dc converter that can run from 4.5 to 40V. Called ...

Linear Technology has announced the LTC3106, a highly integrated, 1.6µA quiescent current 300mV start-up buck-boost DC/DC converter with PowerPath management, optimised for multisource, low power ...