Manufacturer Part Number
TPS54719RTER
Manufacturer
Texas Instruments
Introduction
The TPS54719RTER from Texas Instruments is a high-performance, synchronized step-down (buck) converter in the SWIFT™ series, designed for Power Management (PMIC) in applications requiring efficient voltage regulation.
Product Features and Performance
Supports high-efficiency synchronous buck conversion
Adjustable output voltage from 0.6V to 4.5V
Capable of delivering up to 7A of output current
Wide input voltage range from 2.95V to 6V
Flexible switching frequency from 200kHz to 2MHz
Operates at a temperature range of -40°C to 85°C
Miniature 16-WFQFN Exposed Pad package for space-constrained applications
Product Advantages
High efficiency reduces power loss and heat generation
Adjustable output enables usage in various applications
High current capability suits high-performance processors and FPGAs
Wide switching frequency range allows optimization between efficiency and component size
Compact package saves board space
Key Technical Parameters
Voltage Input (Min): 2.95V
Voltage Input (Max): 6V
Voltage Output (Min/Fixed): 0.6V
Voltage Output (Max): 4.5V
Current Output: 7A
Frequency Switching: 200kHz ~ 2MHz
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Built-in synchronous rectifier for improved efficiency
Thermal shutdown and over-current protection enhance safety and reliability
Compatibility
Compatible with a wide range of input voltages and capable of powering a variety of low-voltage digital circuits
Application Areas
Ideal for powering CPUs, DSPs, microcontrollers, and FPGAs in portable devices, networking equipment, and embedded systems
Product Lifecycle
Currently in an active lifecycle phase with no immediate discontinuation plans; replacements or upgrades will be announced in advance
Several Key Reasons to Choose This Product
Texas Instruments' reputation for reliability and performance
High efficiency and current capability support demanding applications
Versatile across a range of input voltages and output requirements
High-level integration reduces external component count
Flexible switching frequency for design optimization
Compact form factor facilitates integration into size-constrained designs