Manufacturer Part Number
SIC530CD-T1-GE3
Manufacturer
Vishay-Siliconix
Introduction
The SIC530CD-T1-GE3 is a highly integrated, high-performance power management (PMIC) full half-bridge (H-bridge) driver from Vishay-Siliconix. It is designed to provide efficient and reliable control for synchronous buck converters in a wide range of applications.
Product Features and Performance
Half-bridge output configuration
PWM interface
Supports inductive loads
Power MOSFET technology
30A output current per channel, 40A peak
5V to 5.5V supply voltage, 4.5V to 20V load voltage
-40°C to 150°C operating temperature range
Bootstrap circuit and diode emulation features
Under-voltage lockout (UVLO) fault protection
Product Advantages
High efficiency and performance for synchronous buck converters
Compact and integrated design for space-constrained applications
Robust fault protection and thermal management capabilities
Wide operating voltage and temperature range
Key Reasons to Choose
Optimized for efficient and reliable power management in a variety of applications
Comprehensive feature set and performance characteristics
Proven Vishay-Siliconix quality and reliability
Quality and Safety Features
Surface mount package for secure and reliable assembly
Robust thermal management capabilities
Comprehensive fault protection mechanisms
Compatibility
The SIC530CD-T1-GE3 is compatible with a wide range of synchronous buck converter applications, including:
Industrial automation and control systems
Automotive and transportation systems
Telecommunications and networking equipment
Renewable energy and power conversion systems
Application Areas
Synchronous buck converters
Motor control and drive systems
Industrial automation and control
Telecommunications and networking equipment
Automotive and transportation applications
Renewable energy and power conversion systems
Product Lifecycle
The SIC530CD-T1-GE3 is currently in Last Time Buy status, indicating that it is nearing discontinuation. Customers are advised to contact our website's sales team for information on equivalent or alternative models that may be available.