Manufacturer Part Number
PM600DVA060
Manufacturer
powerex
Introduction
PM600DVA060 is an obsolete IGBT power driver module from powerex, known for its high current and voltage capacity. It belongs to the Intellimod™ series and is designed for efficient power management in various applications.
Product Features and Performance
IGBT type, optimized for high efficiency and power control
1 Phase Inverter configuration for simplified circuit design
High current capacity at 600 A
High voltage operation up to 600 V
Voltage isolation rated at 2500Vrms for enhanced safety and performance
Chassis mount design for secure installation and operation
Product Advantages
High current and voltage ratings support demanding power applications
Integrated 1 Phase Inverter simplifies design and reduces additional component needs
Substantial voltage isolation enhances user and circuit safety
Durable and reliable design suited for various operation environments
Key Technical Parameters
Type: IGBT
Configuration: 1 Phase Inverter
Current: 600 A
Voltage: 600 V
Voltage Isolation: 2500Vrms
Mounting Type: Chassis Mount
Quality and Safety Features
Extensive voltage isolation (2500Vrms) ensures operational safety under high voltages
Robust chassis mount design for stable and secure mounting
Compatibility
Suited for a broad range of power applications due to its high voltage and current ratings
Compatible with designs requiring 1 Phase Inverter configuration
Application Areas
Industrial power supplies and inverters
High power electrical drive systems
Renewable energy systems, including solar inverters and wind turbines
Product Lifecycle
Obsolete status indicates discontinuation, signaling end of production
Users should seek replacements or upgrades, considering the possibility of limited availability
Several Key Reasons to Choose This Product
High performance IGBT module with excellent power efficiency
Significant current and voltage capacities for demanding applications
Enhanced safety features, including substantial voltage isolation
Obsolescence may prompt the evaluation of current systems and upgrade to newer, more efficient technologies
