Manufacturer Part Number
DF30CA160
Manufacturer
sansha-electric
Introduction
DF30CA160 is a Diode Bridge Rectifier designed for converting alternating current (AC) to direct current (DC) in a three-phase power system.
Product Features and Performance
Three Phase Bridge Rectifier
Standard Rectifier Technology
Chassis Mount Module
High reverse voltage of 1.6 kV
Average rectified current of 30 A
Low forward voltage drop: 1.1 V @ 30 A
Reverse leakage current: 12 mA @ 1600 V
Operating temperature range: -40°C to 150°C
Suitable for high-temperature environments
Product Advantages
High-voltage capability for industrial applications
Adequate current rating for high-power systems
Low forward voltage drop for improved efficiency
Robust operating temperature range
Chassis mounting for secure installation
Key Technical Parameters
Voltage - Peak Reverse (Max): 1.6 kV
Current - Average Rectified (Io): 30 A
Voltage - Forward (Vf) (Max) @ If: 1.1 V @ 30 A
Current - Reverse Leakage @ Vr: 12 mA @ 1600 V
Operating Temperature: -40°C ~ 150°C (TJ)
Quality and Safety Features
Built to withstand high temperatures and voltages
Ensures low leakage current for safety and reliability
Compatibility
Compatible with three-phase power systems
Chassis Mount suitable for various industrial applications
Application Areas
Power supplies for industrial equipment
Rectification for motor control systems
AC to DC power conversion for heavy machinery
Product Lifecycle
Active
Not indicated as nearing discontinuation
Availability of replacements or upgrades not specified
Several Key Reasons to Choose This Product
Supports three-phase rectification for high power systems
Handles high voltages up to 1.6 kV, beneficial for industrial environments
Capable of carrying 30 A of average rectified current for demanding applications
Efficient performance with a low forward voltage drop
High-temperature operational range ensures compatibility with harsh conditions
Robust design suitable for chassis mounting ensures product durability
Offers reliability and safety with controlled leakage currents