Manufacturer Part Number
XC9131H05CDR-G
Manufacturer
torex-semiconductor
Introduction
The XC9131H05CDR-G is a high-performance step-up DC-DC switching regulator designed for power management in various electronics.
Product Features and Performance
Boost topology for voltage step-up
Adjustable output voltage range
Integrated synchronous rectifier for higher efficiency
High switching frequency of 1.2MHz for smaller external components
Operational over a wide input voltage range of 0.65V to 5.5V
Supports up to 1.2A switch current output
Product Advantages
High efficiency due to synchronous rectification
Supports low input voltage applications
Compact design due to high-frequency operation
Adjustability provides design flexibility for output voltage
Key Technical Parameters
Topology: Boost (Step-Up)
Output Type: Adjustable
Input Voltage (Min): 0.65V
Input Voltage (Max): 5.5V
Output Voltage (Min/Fixed): 1.8V
Output Voltage (Max): 5V
Current - Output: 1.2A (Switch)
Frequency - Switching: 1.2MHz
Synchronous Rectifier: Yes
Quality and Safety Features
Operated in a wide temperature range of -40°C to 85°C
Overcurrent and thermal protection
Compatibility
Compatible with many electronics requiring a boost in voltage
Surface Mount type for integration with PCBs
Packaging compatible with automated manufacturing processes
Application Areas
Portable devices
Battery-powered applications
Low-voltage electronics requiring a higher operational voltage
Consumer electronics
Product Lifecycle
Not For New Designs (Means the product might be in the end-of-life phase, replacements or next-generation products may be considered)
Several Key Reasons to Choose This Product
High efficiency suitable for battery-powered applications
Supports a wide range of input and output voltages for numerous applications
Small form factor UDFN package ideal for space-constrained designs
High-frequency operation limits the size of external components, further reducing space
Synchronous rectifier enhances power conversion efficiency
Ease of integration into existing design architectures due to standard surface-mount package