ROHM Developed New 5-Model Lineup of Low ON Resistance 100V Dual MOSFETs with Pre-driver ICs
ROHM has developed Dual MOSFETs that integrate two 100V chips in a single package - ideal for fan motor drives applied in communication base stations and industrial equipment. New five models have been added as part of the HP8KEx/HT8KEx (Nch+Nch) and HP8MEx (Nch+Pch) series.
Recent years have seen a transition to higher voltages from conventional 12V/24V to 48V systems in communication base stations and industrial equipment, - intending to achieve higher efficiency by reducing current values. In these situations, switching MOSFETs requires a withstand voltage of 100V to account for voltage fluctuations, as 48V power supplies are also used in the fan motors for cooling these applications. However, increasing the breakdown voltage raises ON resistance (RDS(on)) (which is in a trade-off relationship), leading to decreased efficiency, and making it difficult to achieve both lower RDS(on) and higher breakdown voltage. Moreover, unlike multiple individual drive MOSFETs normally applied in fan motors - dual MOSFETs that integrate two chips in one package are increasingly being adopted to save space.
In response, ROHM developed two new series - the HP8KEx/HT8KEx (Nch+Nch) and the HP8MEx (Nch+Pch) - that combine Nch and Pch MOSFET chips using the latest processes. Both series achieve the industry’s lowest RDS(on) by adopting new backside heat dissipation packages with excellent heat dissipation characteristics. As a result, RDS(on) is reduced by up to 56% compared with standard dual MOSFETs (19.6mΩ for the HSOP8 and 57.0mΩ for the HSMT8 Nch+Nch), contributing to significantly lower set power consumption. At the same time, combining two chips in a single package provides greater space savings by reducing area considerably. For example, replacing two single-chip TO-252 MOSFETs with one HSOP8 decreases footprint by 77%.
Next, ROHM will continue to expand its dual MOSFET lineup to withstand voltages ideal for industrial equipment while also developing low-noise variants. This is expected to contribute to solving social issues such as environmental protection by saving space and reducing power consumption in various applications.
Product Lineup
Dual Nch+Nch MOSFETs
Application Examples
- Fan motors for communication base stations
- Fan motors for factory automation, and other industrial equipment
- Fan motors for data center servers, etc.
Combination with a Pre-driver IC to Achieve the Optimal Motor Drive Solution
Combining these products with ROHM’s market-proven pre-driver ICs for single-/3-phase brushless motors makes it possible to consider even smaller motors featuring lower consumption and quieter drive. By providing total support for peripheral circuit design that marries the dual-MOSFET series with pre-driver ICs, ROHM can offer the best motor drive solutions for customer needs.
Solution examples with 100V Dual MOSFETs
- HT8KE5 (Nch+Nch Dual MOSFET) + BM64070MUV (3-Phase Brushless Motor Pre-Driver IC)
- HT8KE6 (Nch+Nch Dual MOSFET) + BM64300MUV (3-Phase Brushless Motor Pre-Driver IC) and more
- +1 Like
- Add to Favorites
Recommend
- Silicon Carbide cooperation between SEMIKRON and ROHM Semiconductor: ROHM’s SiC technology empowers SEMIKRON’s eMPack® for the next generation of electric vehicles
- Notice of Integration of ROHM Three Sales Companies in China
- Continental acknowledges ROHM Semiconductor with the “Supplier of the Year 2022 Award“
- ROHM‘s Nano Energy™ and LAPIS Technology‘s Charge Control IC Help Maxell Energy Harvesting-compatible Evaluation Kit
- ROHM Online Distributor China | Sekorm
- ROHM SiC MOSFETs Solve Design Challenges for Leading Solar Energy Company Midnite Solar
- Ultra-Low IQ PMIC from ROHM Selected to Power NXP iMX8M Nano for High Performance Embedded Artists Industrial Control Board
- ROHM’s Product Longevity Program Enables Worry-free Adoption of ROHM Products
This document is provided by Sekorm Platform for VIP exclusive service. The copyright is owned by Sekorm. Without authorization, any medias, websites or individual are not allowed to reprint. When authorizing the reprint, the link of www.sekorm.com must be indicated.