Manufacturer Part Number
TLV7113333DDSER
Manufacturer
Texas Instruments
Introduction
The TLV7113333DDSER is a dual low-dropout regulator designed for optimal performance in Power Management applications, particularly for linear, low drop out voltage regulation.
Product Features and Performance
Dual LDO outputs.
Max input voltage of 5.5V.
Fixed output voltage of 3.3V for both regulators.
Maximum dropout voltage of 0.2V at 200mA load.
Output current up to 200mA.
Quiescent current of 110 µA.
PSRR of 80dB to 50dB across frequencies 10Hz to 100kHz.
High-temperature operational capability at -40°C to 125°C.
Product Advantages
Dual output allows for versatility in application.
Ultra-low dropout voltage enhances efficiency.
Low quiescent current preserves battery life in portable applications.
Excellent PSRR ensures stable output despite variations in input voltage.
Key Technical Parameters
Number of Regulators: 2
Input Voltage: Max 5.5V
Output Voltage (Fixed): 3.3V
Dropout Voltage (Max): 0.2V @ 200mA
Output Current: 200mA
Quiescent Current: 110 µA
PSRR: 80dB ~ 50dB (10Hz ~ 100kHz)
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Over Current Protection
Over Temperature Protection
Short Circuit Protection
Under Voltage Lockout (UVLO)
Compatibility
Suitable for surface mount technology with 6-WFDFN package.
Compatible with various Power Management applications requiring fixed output voltage and high performance.
Application Areas
Mobile phones
Portable media players
Wireless communication devices
Healthcare monitoring devices
Product Lifecycle
Product status: Active
Currently not nearing discontinuation.
Availability of potential future replacements or upgrades available.
Several Key Reasons to Choose This Product
Highly efficient with ultra-low dropout voltage.
Sustained performance with robust protection features.
Highly suitable for portable applications due to low quiescent current and high PSRR.
Operates effectively across a wide range of temperatures.
Versatility with dual LDO outputs for multifunctional use in technology applications.