DALLAS, Jan. 4, 2012 /PRNewswire/ -- Texas Instruments Incorporated (TI) (NASDAQ: [ TXN ]) is expanding its MOSFET driver portfolio with three next-generation two-output gate drivers that improve efficiency and reliability in high-density isolated power supplies.

First 120-V boot high-side/low-side MOSFET driver

The UCC27210 and UCC27211 are the industry's first 120-V boot, high- and low-side, two-output MOSFET drivers to provide up to 4-A output current, while handling -10 volts of direct current (VDC) immunity on the driver inputs. The drivers support multiple high-frequency half-bridge and full-bridge power topologies with an extremely fast 18-nanosecond (ns) propagation delay. The combined features improve efficiency and enhance reliability in telecom, server and industrial power supply designs with 100-V surge requirements. For samples, PSpice transient model and evaluation modules, visit: [ www.ti.com/ucc27210-pr ].

Key technical features of UCC27210 and UCC27211:

Industry's first 120-V rated, 4-A high- and low-side drivers (TTL and pseudo-CMOS compatible input versions) that drive both N-channel high-side and low-side FETs.
0.9 ohm pull-up and pull-down resistance minimizes switching loss as the MOSFET transitions through the Miller Plateau.
Increased system reliability: Inputs support -10 volts of direct current, and allows direct interface to gate-driver transformers without the need for rectification diodes.

Driving higher currents faster

TI also introduced the industry's fastest 5-A dual-channel low-side driver for secondary-side synchronous rectifier MOSFETs and IGBT power switches. The UCC27524 delivers low pulse distortion and high efficiency with a fast 12-ns propagation delay, 6-ns rise time with 1-ns output delay matching. The driver, which supports 4.5-V to 18-V operating voltages, has the flexibility to combine both outputs to drive up to 10-A applications, such as [ motor drive systems ]. For samples, PSpice transient model and evaluation modules, visit: [ www.ti.com/ucc27524-pr ].

Key technical features of UCC27524:

High-current and high-performance: 5-A peak source and sink drive currents with high efficiency. Support a 4.5-V to 18-V input range. Both outputs can be paralleled for higher current drive.
Extremely fast: 12-ns typical propagation delay, 6-ns typical rise time with only 1-ns typical output delay matching between two channels.
Small size: Industry standard 8-pin SOIC and PDIP packages.

Availability and pricing

The UCC27210 and UCC27211 are available in an 8- or 10-pin, 4-mm x 4-mm 8-pin SON and an 8-pin SOIC package. The UCC27524 comes in industry-standard 8-pin SOIC and PDIP packages. A 3-mm x 3-mm, 8-pin WSON will be available later in the first quarter. Suggested resale pricing for the UCC27210/1 is $1.50 in 1,000-unit quantities and $0.70 for the UCC27524.

Find out more about TI's MOSFET gate driver and power supply controller portfolio:

Portfolio of [ TI MOSFET Gate Drivers ].
The new UCC27xxx drivers complement TI's leading PWM controllers, such as [ UCC28250 ], [ UCC28950 ], [ LM5045 ], [ LM5046 ] and [ LM5035 ].
Download the new [ Power Stage Designer™ ] switch-mode power supply topology tool.
TI E2E™ Community to ask questions and help solve problems with fellow engineers: [ www.ti.com/powerforum-pr ].

About Texas Instruments

Texas Instruments semiconductor innovations help 80,000 customers unlock the possibilities of the world as it could be – smarter, safer, greener, healthier and more fun. Our commitment to building a better future is ingrained in everything we do – from the responsible manufacturing of our semiconductors, to caring for our employees, to giving back inside our communities. This is just the beginning of our story. Learn more at [ www.ti.com ].

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SOURCE Texas Instruments Incorporated

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TI introduces fastest 4-A and 5-A two-output MOSFET drivers for telecom and server power supplies

TI introduces fastest 4-A and 5-A two-output MOSFET drivers for telecom and server power supplies

High-performance MOSFET drivers deliver efficiency and reliability, protecting a power system from 100-V surges