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TPS57114QRTERQ1

Automotive 2.95V to 6V, 4A, 2MHz Synchronous Buck Converter

Packaging

Package | PIN: RTE | 16
Temp: Q (-40 to 125)
Carrier: Cut Tape
Qty Price
1-9 $2.86
10-24 $2.57
25-99 $2.40
100-249 $2.15
250-499 $2.01
500-749 $1.75
750-999 $1.51
1000+ $1.48

Features

  • Qualified for Automotive Applications
  • AEC-Q100 Qualified With the Following Results:
    • Device Temperature Grade 1: –40°C to 125°C
      Ambient Operating Temperature Range
    • Device HBM ESD Classification Level 2
    • Device CDM ESD Classification Level C4B
  • Two 12-mΩ (typical) MOSFETs for High Efficiency
    at 4-A Loads
  • 200-kHz to 2-MHz Switching Frequency
  • 0.8 V ± 1% Voltage Reference Over Temperature
    (–40°C to 150°C)
  • Synchronizes to External Clock
  • Adjustable Slow Start and Sequencing
  • UV and OV Power-Good Output
  • –40°C to 150°C Operating Junction Temperature
    Range
  • Thermally Enhanced 3-mm × 3-mm 16-Pin QFN
  • Pin-Compatible to TPS54418

Texas Instruments  TPS57114QRTERQ1

The TPS57114-Q1 device is a full-featured 6-V, 4-A, synchronous step-down current-mode converter with two integrated MOSFETs.

The TPS57114-Q1 device enables small designs by integrating the MOSFETs, implementing current-mode control to reduce external component count, reducing inductor size by enabling up to 2-MHz switching frequency, and minimizing the IC footprint with a small 3-mm × 3-mm thermally enhanced QFN package.

The TPS57114-Q1 device provides accurate regulation for a variety of loads with an accurate ±1% voltage reference (Vref) over temperature.

Efficiency is maximized through the integrated 12-mΩ MOSFETs and 515-µA typical supply current. Using the enable pin, shutdown supply current is reduced to 5.5 µA by entering a shutdown mode.

The internal undervoltage lockout setting is 2.45 V, but programming the threshold with a resistor network on the enable pin can increase the setting. The slow-start pin controls the output-voltage start-up ramp. An open-drain power-good signal indicates the output is within 93% to 107% of its nominal voltage.

Frequency foldback and thermal shutdown protect the device during an overcurrent condition.