Manufacturer Part Number
TPS62130AQRGTTQ1
Manufacturer
Texas Instruments
Introduction
TPS62130AQRGTTQ1 is a high-efficiency, synchronous, step-down converter by Texas Instruments designed for automotive and other applications requiring a high degree of reliability.
Product Features and Performance
Synchronous step-down converter operation
High efficiency for reduced heat and extended battery life
DCS-Control™ for excellent load transient response
Adjustable output voltage for versatility
Integrated MOSFETs for reduced component count
High switching frequency allows for small external components
Supports a wide input voltage range for flexible use in various circuits
Product Advantages
Optimized for automotive applications
Reduction in electromagnetic interference with 2.5MHz switching frequency
Quick output voltage changes favoring dynamic loads
AEC-Q100 qualified for high-reliability requirements
Key Technical Parameters
Voltage - Input (Min): 3V
Voltage - Input (Max): 17V
Voltage - Output (Min/Fixed): 0.9V
Voltage - Output (Max): 6V
Current - Output: 3A
Frequency - Switching: 2.5MHz
Topology: Buck
Number of Outputs: 1
Synchronous Rectifier: Yes
Quality and Safety Features
Operational Temperature Range: -40°C ~ 125°C (TJ)
Automotive Grade Product
AEC-Q100 Qualification
Compatibility
Compatible with a broad range of input voltages
16-VFQFN Exposed Pad for surface mount compatibility
Application Areas
Automotive applications
Power management for embedded systems
Industrial equipment
Telecommunications infrastructure
Product Lifecycle
Active product
Not nearing discontinuation
Availability of replacements or upgrades per newer product iterations
Key Reasons to Choose This Product
Robust design suitable for automotive use
Enhanced power efficiency for eco-friendly operation
Stable performance with various load conditions
High reliability and quality adhering to AEC-Q100 standards
Compact package size suitable for space-constrained applications
Flexibility in design with adjustable output parameters
Easy integration into existing designs with surface mount form factor