Manufacturer Part Number
TPS71710DRVR
Manufacturer
Texas Instruments
Introduction
The TPS71710DRVR is a Power Management Integrated Circuit (PMIC) from Texas Instruments, specifically designed as a Low Drop Out (LDO) Regulator. It offers stable and efficient power delivery.
Product Features and Performance
Low dropout voltage: 0.3V @ 150mA
Fixed output voltage: 1V
High PSRR: 70dB ~ 45dB across 100Hz to 1MHz
Low quiescent current: 80µA
Current output capacity: 150mA
Supports input voltages up to 6.5V
Integrated features for Enable control
Professional grade over current, over temperature, reverse polarity, and under voltage lockout protections
Designed for surface mount applications with a 6-WDFN exposed pad
Product Advantages
Excellent noise reduction capabilities due to high PSRR
Minimal power loss thanks to low dropout
Suits battery-powered applications with low quiescent current
Robust protection features ensure long-term reliability
Key Technical Parameters
Input Voltage (Max): 6.5V
Output Voltage: 1V (Fixed)
Current Output: 150mA
Dropout Voltage: 0.3V @ 150mA
PSRR: 70dB ~ 45dB (100Hz ~ 1MHz)
Operating Temperature Range: -40°C ~ 125°C
Package: 6-WDFN Exposed Pad
Quality and Safety Features
Over current protection
Over temperature protection
Reverse polarity protection
Under voltage lockout (UVLO)
Compatibility
Ideal for applications requiring up to 150mA
Compatible with a variety of electronic circuits due to its stable 1V output
Application Areas
Battery-powered devices
Mobile Phones
Portable electronics
Medical devices
Product Lifecycle
Status: Active
This product is currently in active production with no discontinuation foreseen, ensuring availability for future projects.
Several Key Reasons to Choose This Product
High efficiency and reliability for critical applications
Low power consumption benefits battery longevity
Versatile across a range of input voltages up to 6.5V
Advanced protection features safeguard the device and connected components
High PSRR enhances performance in noisy environments
Compact and suitable for space-constrained applications