UCC27425P

text.skipToContent text.skipToNavigation

UCC27425P

Dual 4-A MOSFET Driver with Enable

Packaging

Package | PIN: P | 8
Temp: S (-40 to 105)
Carrier: Partial Tube
Qty Price
1-9 $2.04
10-24 $1.83
25-99 $1.70
100-249 $1.48
250-499 $1.37
500-749 $1.15
750-999 $0.94
1000+ $0.86

Features

  • Industry-Standard Pin-Out
  • Enable Functions for Each Driver
  • High Current Drive Capability of ±4 A
  • Unique BiPolar and CMOS True Drive Output
    Stage Provides High Current at MOSFET Miller
    Thresholds
  • TTL/CMOS Compatible Inputs Independent of
    Supply Voltage
  • 20-ns Typical Rise and 15-ns Typical Fall Times
    with 1.8-nF Load
  • Typical Propagation Delay Times of 25 ns with
    Input Falling and 35 ns with Input Rising
  • 4-V to 15-V Supply Voltage
  • Dual Outputs Can Be Paralleled for Higher Drive
    Current
  • Available in Thermally Enhanced MSOP
    PowerPAD™ Package
  • Rated From –40°C to 125°C

Texas Instruments  UCC27425P

The UCC2742x family of high-speed dual MOSFET drivers can deliver large peak currents into capacitive loads. Three standard logic options are offered – dual-inverting, dual-noninverting, and one-inverting and one-noninverting driver. The thermally enhanced 8-pin PowerPAD™ MSOP package (DGN) drastically lowers the thermal resistance to improve long-term reliability. It is also offered in the standard SOIC-8 (D) or PDIP-8 (P) packages.

Using a design that inherently minimizes shoot-through current, these drivers deliver 4A of current where it is needed most at the Miller plateau region during the MOSFET switching transition. A unique BiPolar and MOSFET hybrid output stage in parallel also allows efficient current sourcing and sinking at low supply voltages.

The UCC2742x provides enable (ENB) functions to have better control of the operation of the driver applications. ENBA and ENBB are implemented on pins 1 and 8 which were previously left unused in the industry standard pin-out. They are internally pulled up to VDD for active high logic and can be left open for standard operation.