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Reliance AutoMax DSA-MTR-12A1 Drive System, High Performance Variable Frequency Drive
The Reliance DSA-MTR-12A1 AutoMax Motor Controller is a high-performance industrial control module designed for precise motor control applications in various industries, ensuring efficient operation and energy savings.
Detailed content
Brand:Reliance
Model:DSA-MTR-12A1
Series:AutoMax
Control Type:Variable Frequency Drive
Input Power Range:20-120 kW
Operating Voltage:380-480 V AC
Motor Protection:Built-in Overload Protection
Communication Interface:Modbus TCP/IP
Control Mode:V/F Control, Field Oriented Control
Protection Class:IP54
Weight:20 kg
Dimensions:483 mm x 179 mm x 164 mm
The Reliance Electronics DSA-MTR-12A1 AutoMax Drive System is engineered to enhance operational efficiency and reduce energy consumption in industrial settings. Its advanced control algorithms ensure smooth operation across a wide range of motor speeds, making it ideal for applications requiring precise speed regulation.
Featuring a modular design, the system allows for easy integration and upgrade capabilities, providing flexibility for future expansion without compromising existing setup. The robust construction ensures durability and reliability in challenging environments.
With its intuitive interface, the DSA-MTR-12A1 offers quick setup and customization options tailored to specific process requirements. Users can easily adjust parameters for optimal performance, whether controlling pumps, fans, conveyors, or other critical machinery.
Designed with safety in mind, the drive system includes built-in protections against overcurrent, overload, and short-circuit scenarios, safeguarding against potential damage and downtime. Its wide operating temperature range makes it suitable for use in various climates, enhancing its versatility.
To facilitate maintenance and diagnostics, the system provides real-time monitoring and alerts via its built-in communication ports. This feature enables proactive maintenance scheduling and quick troubleshooting, ensuring minimal downtime and maximizing operational efficiency.
