ROHM Semiconductor announced four new compact DC-DC step-down converter ICs suitable for consumer and industrial applications, including refrigerators, washing machines, Programmable Logic Controllers (PLCs), and inverters. ROHM is expanding the lineup which includes the BD9E203FP4-Z, a 2A buck converter with switching frequency of 350kHz. In recent years, increasing application functionality in consumer devices and industrial equipment has driven the demand to minimize board space, resulting in a rise in the adoption rate of compact DC-DC converter ICs.

Furthermore, as reducing standby power consumption is becoming a significant challenge, there is a growing need for DC-DC converter ICs to deliver higher efficiency during light load (low power) conditions. To meet these demands, ROHM developed products that achieve higher efficiency in an even smaller package than existing SOP-J8 (JEDEC standard: SOIC8 equivalent) products. The new converter ICs deliver an output current of 1A to 3A in the compact TSOT23 package (2.8mm × 2.9mm).

This reduces component area by up to 72% compared to the general SOP-J8 package (4.9mm × 6.0mm), contributing to the miniaturization of power supply blocks. In addition, adopting a flip chip on lead frame TSOT23 package design enables high-efficiency operation by eliminating bond wire resistance. The BD9E105FP4-Z, BD9E202FP4-Z, and BD9E304FP4-LBZ also utilize a COT control mode during light load operation.

As a result, efficiency during light load operation is improved over standard products, making them ideal for applications requiring low standby power consumption. Going forward, ROHM will continue to focus on developing, Application Examples, 3.3V/5V/12V/24V power supply applications. Consumer appliances: Refrigerators, washing machines, air conditioners, etc.

Industrial equipment: PLCs, inverters, AC servos, etc. Calculation Sheet: A calculation tool for application circuits that facilitates external constant design. By setting values as described, users will be able to determine the circuit parameters that satisfy the desired characteristics.