+44 (0)24 7671 8970
More publications     •     Advertise with us     •     Contact us
 
Loading...
News Article

ST adds automotive super-junction MOSFETs

News

Latest MDmesh DM9 devices ensure offer sharper switching for lower turn-on and turn-off losses

ST has announced automotive-grade 600V/650V super-junction silicon MOSFETs. Part of the STPOWER MDmesh DM9 AG series, they are designed to deliver high efficiency and ruggedness for on-board chargers (OBCs) and DC/DC converter applications in both hard- and soft-switching topologies.

Described as having outstanding RDS(on) per die area and minimal gate charge, the silicon-based devices combine low energy losses with excellent switching performance.

Compared to the previous generation, the latest MDmesh DM9 technology is said to ensure a tighter gate-source threshold voltage (VGS(th)) spread that results in sharper switching for lower turn-on and turn-off losses.

In addition, body-diode reverse recovery is improved, leveraging a new optimised process that also increases the MOSFETs’ overall ruggedness.

ST says that the diode’s low reverse-recovery charge (Qrr) and fast recovery time (trr) make the MDmesh DM9 AG series suitablel for phase-shift zero-voltage switching topologies that demand the utmost efficiency.

The family offers a selection of through-hole and surface-mount packages. The TO-247 LL (long-lead) is a popular through-hole option that eases design-in and leverages proven assembly processes. Among the surface-mount packages, the H2PAK-2 (2 leads) and H2PAK-7(7 leads) are optimised for bottom-side cooling with thermal substrates or PCBs featuring thermal vias or other enhancement. HU3PAK and ACEPACK SMIT topside-cooled surface-mount packages are also available.

he first device in the new STPOWER MDmesh DM9 AG series is the STH60N099DM9-2AG, a 27A AEC-Q101 qualified N-channel 600V device in H2PAK-2, with 76mΩ typical RDS(on).

ST will expand the family to provide a full range of devices, covering a broad range of current ratings and RDS(on) from 23mΩ to 150mΩ.


×
Search the news archive

To close this popup you can press escape or click the close icon.
Logo
×
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • 1st January 1970
  • View all news 22645 more articles
Logo
×
Register - Step 1

You may choose to subscribe to the Power Electronics World Magazine, the Power Electronics World Newsletter, or both. You may also request additional information if required, before submitting your application.


Please subscribe me to:

 

You chose the industry type of "Other"

Please enter the industry that you work in:
Please enter the industry that you work in: