Increased efficiency and increased current through multi-chip modules with built-in MOSFET

Increased efficiency and increased current through multi-chip modules with built-in MOSFET

Multi-chip module products use a MOSFET with built-in body diodes with fast reverse recovery times (trr) suitable for motors. The latest products have achieved high efficiency by reducing losses by approximately 38% compared with conventional products in sine wave drive. Our products are aligned with the rated current of 5 A in small-surface packages (SSOP30) of 20 x 14.2 × 2.2 mm. In addition, the source terminals of each phase are individually separated. By combining them with our microcontrollers (MCUs) and motor drivers (MCDs), we can cope with sensorless control such as vector control using the three-shunt method.

The latest products have low on-resistance, and are equipped with a 600-V-breakdown-voltage super-junction MOSFET (SJMOS) with a built-in body diode (HSD: High Speed Diode) with a fast reverse-recovery-time (trr), which has been on the market for many years. As a result, the sine-wave drive is approximately 1.8 W (@input power = 40 W) compared with conventional products and highly efficient, reducing losses by approximately 38%.

Multi-chip module 3-Phase Brushless DC Motor Driver ICs

Related information

문의

기술 문의

문의

문의

자주 있는 문의

자주 있는 문의

Queries about purchasing, sampling and IC reliability

재고 확인 및 구매

keyword:

Disclaimer for External Link
Through this website you are able to proceed to the website of our distributors ("Third Party Website") which is not under the control of Toshiba Corporation and its subsidiaries and affiliates (collectively "Toshiba"). The Third Party Website is made available to you as a convenience only and you agree to use the Third Party Website at your own risk. The link of the Third Party Website does not necessarily imply a recommendation or an endorsement by Toshiba of the Third Party Website. Please be aware that Toshiba is not responsible for any transaction done through the Third Party Website, and such transactions shall be subject to terms and conditions which may be provided in the Third Party Website.