Manufacturer Part Number
TPS62736RGYR
Manufacturer
Texas Instruments
Introduction
The TPS62736RGYR is a highly efficient, low-power buck converter from Texas Instruments, designed for power-sensitive applications.
Product Features and Performance
Step-down voltage regulator
Programmable output voltage
High efficiency over a wide load range
Low quiescent current
2MHz switching frequency allows for small external components
Supports up to 50mA output current
Product Advantages
High power conversion efficiency
Optimized for battery-powered applications
Minimized board space due to high-frequency operation and small package
Built-in synchronous rectifier to improve efficiency
Programmable output voltage for design flexibility
Key Technical Parameters
Voltage - Input (Min): 2V
Voltage - Input (Max): 5.5V
Voltage - Output (Min/Fixed): 1.3V
Voltage - Output (Max): 5V
Current - Output: 50mA
Frequency - Switching: 2MHz
Topology: Buck
Output Configuration: Positive
Output Type: Programmable
Number of Outputs: 1
Quality and Safety Features
Operation temperature range from -40°C to 85°C
Over-temperature and over-current protection
Built with high-quality materials to ensure reliability and durability
Compatibility
Compatible with a variety of microcontrollers and processors
Applicable for a wide range of input and output voltage specifications
Application Areas
Ideal for battery-powered devices
Suitable for Internet of Things (IoT) devices, wearables, and portable electronics
Product Lifecycle
Active product status
Not near discontinuation, ensuring long-term availability
Replacements or upgrades are available if necessary
Several Key Reasons to Choose This Product
Low power consumption suitable for extending battery life in portable devices
Flexibility in output voltage accommodating different application needs
High-frequency operation enables the use of small passive components, saving PCB space
Reliable performance in a wide range of operating temperatures
Active product lifecycle status ensures long-term support and availability