|Package | PIN:||EVC | 12|
|Temp:||I (-40 to 85)|
- Up to 16-A Output Current
- 12-V Input Voltage
- Wide-Output Voltage Adjust (1.2 V to 5.5 V)/(0.8 V to 1.8 V)
- Efficiencies up to 93%
- On/Off Inhibit
- Output Voltage Sense
- Prebias Start Up
- Undervoltage Lockout
- Auto-Track Sequencing
- Output Overcurrent Protection (Nonlatching, Auto-Reset)
- Overtemperature Protection
- Operating Temperature: -40°C to 85°C
- Safety Agency Approvals: UL/IEC/CSA-22.2 60950-1
- POLA Alliance Compatible
- Multivoltage Digital Systems
- High-End Computing
POLA, Auto-Track, TMS320 are trademarks of Texas Instruments.
Texas Instruments PTV12020WAH
The PTV12020 series of nonisolated power modules are part of a new class of complete dc/dc switching regulator modules from Texas Instruments. These regulators combine high performance with double-sided, surface mount construction to give designers the flexibility to power the most complex multiprocessor digital systems using off-the-shelf catalog parts.
The PTV12020 series is produced in a 12-pin, single in-line pin (SIP) package. The SIP footprint minimizes board space, and offers an alternate package option for space conscious applications. Operating from a 12-V input bus, the series provides step-down conversion to a wide range of output voltages, at up to 16 A of output current. The output voltage of the W-suffix parts can be set to any value over the range of 1.2 V to 5.5 V. The L-suffix parts have an adjustment range of 0.8 V to 1.8 V. The output voltage is set using a single external resistor.
This series includes Auto-Track. Auto-Track simplifies the task of supply-voltage sequencing in a power system by enabling the output voltage of multiple modules to accurately track each other, or any external voltage, during power up and power down.
Other operating features include an on/off inhibit, and the ability to start up into an existing output voltage or prebias. For improved load regulation, an output voltage sense is provided. A nonlatching overcurrent trip and overtemperature shutdown protects against load faults.
Target applications include complex multivoltage, multiprocessor systems that incorporate the industry's high-speed DSPs, microprocessors, and bus drivers.