Manufacturer Part Number
TPS62A01DRLR
Manufacturer
Texas Instruments
Introduction
The TPS62A01DRLR is a high-efficiency, adjustable step-down (buck) regulator from Texas Instruments, designed for power management in a variety of applications.
Product Features and Performance
Adjustable output voltage from 0.6V to 5.5V
Supports input voltage range from 2.5V to 5.5V
Capable of delivering up to 1A output current
Features high switching frequency of 2.4MHz for smaller passive components
Integrated synchronous rectifier for improved efficiency
Operating temperature range from -40°C to 125°C
Product Advantages
High efficiency at light and heavy loads
Low dropout performance for better voltage regulation
Compact SOT-563 packaging for space-constrained applications
Enables fast transient response
Key Technical Parameters
Voltage Input (Min): 2.5V
Voltage Input (Max): 5.5V
Voltage Output (Min/Fixed): 0.6V
Voltage Output (Max): 5.5V
Current Output: 1A
Frequency Switching: 2.4MHz
Synchronous Rectifier: Yes
Operating Temperature: -40°C to 125°C
Quality and Safety Features
Built-in overcurrent protection
Thermal shutdown for overheating protection
Compatibility
Suitable for surface mount technology (SMT) with SOT-563 packaging
Compatible with various digital and analog devices requiring adjustable power supply
Application Areas
Portable and battery-powered equipment
IoT devices
Wearables
Medical devices
Product Lifecycle
The TPS62A01DRLR is currently active and widely available. No indication of nearing discontinuation, ensuring long-term availability and support.
Several Key Reasons to Choose This Product
High efficiency and low-power operation extend battery life in portable applications.
Flexible input and adjustable output voltage ranges accommodate a wide array of power supply configurations.
Small package size aids in design for compact, space-sensitive applications.
High switching frequency allows for the use of smaller, lower-cost external components.
Robust safety features guarantee protection against overcurrent and excessive temperature conditions.