Packaging information
Package | Pins DSBGA (YFF) | 9 |
Operating temperature range (°C) -40 to 85 |
Package qty | Carrier 3,000 | LARGE T&R |
Features for the TPS61253A
- Wide input voltage range from 2.3 V to 5.5 V (TPS61253A)
- Wide input voltage range from 2.5 V to 5.5 V (Startup>2.6V, TPS61253E)
- Fixed output voltage: 4.5 / 4.7 / 5.0 / 5.2 V / 5.25 V
- Two FETs integrated: 35-mΩ LS-FET, 60-mΩ HS-FET
- IOUT ≥ 1500-mA continuously at VOUT = 5 V and VIN ≥ 3 V (TPS61253A)
- IOUT ≥ 1500-mA continuously at VOUT = 5.25 V and VIN ≥ 3 V (TPS61253E)
- 42-µA quiescent current from input
- 4-A switching valley current limit
- 3.8-MHz switching frequency
- Selectable auto PFM, forced PWM, and ultrasonic mode
- Support pass-through mode
- ±2% output voltage accuracy
- 600-µs soft-start time
- Hiccup-mode short protection
- Load disconnection during shutdown
- Thermal shutdown
- Total solution size < 25 mm 2
- Create a custom design using the TPS61253A with the WEBENCH® Power Designer
Description for the TPS61253A
The TPS61253x device provides a power supply solution for battery-powered portable applications. With the input voltage ranging from 2.3 V to 5.5 V (TPS61253A) or 2.5 V to 5.5 V (TPS61253E), the device supports the applications powered by the Li-Ion batteries with the extended voltage range. Different fixed output voltage versions are available of 4.5 V, 4.7 V, 5 V, 5.2V and 5.25 V. The TPS61253x supports up to 1500-mA load current from a battery discharged as low as 3 V.
The TPS61253x operates at typical 3.8-MHz switching frequency. The TPS61253x can be flexibly configured at the Auto PFM mode, forced PWM mode, or ultrasonic mode. The Auto PFM mode can benefit with the high efficiency at the light load. The forced PWM operation can make the switching frequency be constant crossing the whole load range. The ultrasonic mode keeps the switching frequency always larger than 25 kHz at any load condition to avoid the acoustic noise.
TPS61253x has a built-in 600-µs soft start to avoid the inrush current at start-up. When the output is shorted, the device enters into the hiccup mode and recovers automatically after the short releases. During the shutdown, the load is completely disconnected from the input end with maximum 1.3-µA current being consumed.