UCC27527DSDR


YeeHing #: Y012-UCC27527DSDR
Inventory: 5600

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Description

UCC27527DSDR Texas Instruments - Yeehing Electronics

5-A/5-A dual-channel gate driver with 5-V UVLO, enable, dual CMOS inputs

Pricing (USD)

Quantity Unit Price
1 — 99 1.59
100 — 249 1.314
250 — 999 0.944
1,000 + 0.50

The above prices are for reference only.

Specifications

Manufacturer Texas Instruments
Product Category Gate Drivers
RoHS Y
Product MOSFET Gate Drivers
Type Low Side
Mounting Style SMD/SMT
Package / Case WSON-8
Number of Drivers 2 Driver
Output Current 5 A
Configuration Dual
Rise Time 7 ns
Fall Time 6 ns
Supply Voltage - Min 4.5 V
Supply Voltage - Max 18 V
Minimum Operating Temperature - 40 C
Maximum Operating Temperature + 140 C
Series UCC27527
Packaging Reel
Features Negative Voltage Handling on Input
Operating Temperature Range - 40 C to + 140 C
Technology Si
Brand Texas Instruments
Moisture Sensitive Yes
Operating Supply Voltage 4.5 V to 18 V
Product Type Gate Drivers
Factory Pack Quantity 3000
Subcategory PMIC - Power Management ICs
Unit Weight 0.000384 oz

For more information, please refer to datasheet

Documents

UCC27527DSDR Datasheet

More Information

The UCC2752x family of devices are dual-channel, high-speed, low-side gate driver devices capable of effectively driving MOSFET and IGBT power switches. Using a design that inherently minimizes shoot-through current, UCC2752x can deliver high-peak current pulses of up to 5-A source and 5-A sink into capacitive loads along with rail-to-rail drive capability and extremely small propagation delay typically 17 ns. In addition, the drivers feature matched internal propagation delays between the two channels which are very well suited for applications requiring dual-gate drives with critical timing, such as synchronous rectifiers. The input pin thresholds are based on CMOS logic, which is a function of the VDD supply voltage. Wide hysteresis between the high and low thresholds offers excellent noise immunity. The Enable pins are based on TTL and CMOS compatible logic, independent of VDD supply voltage.

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