The ABB 3HAC023637-001 hydraulic servo module is a high-performance component designed for precise control in industrial automation systems. It ensures accurate and responsive performance in demanding applications across various industries.
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The ABB 3HAC023637-001 hydraulic servo module is a high-performance component designed for precise control in industrial automation systems. It ensures accurate and responsive performance in demanding applications across various industries.
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Operating Voltage:380 V
Output Frequency:50 kHz
Current Rating:10 A
Power Rating:5 kW
Input Signal:0-10 V DC
Communication Interface:Modbus-RTU
Dimensions:180 mm x 150 mm x 60 mm
Weight:2.5 kg
Introducing the ABB 3HAC023637-001, a high-performance power supply module specifically crafted for the demanding requirements of industrial automation environments. This module is engineered to provide continuous, reliable power to a wide array of control devices, enhancing system stability and efficiency.
With an operating voltage of 220V and a frequency output of 50kHz, this module is capable of meeting the power demands of modern industrial settings. Its high power rating ensures that it can handle even the most intensive applications without compromise.
Notably, the ABB 3HAC023637-001 boasts an impressive efficiency rating of up to 98%, significantly reducing energy waste and contributing to sustainable operations. Its compact size (175.26 mm x 35.56 mm x 297.18 mm) and lightweight design (0.6 kg) facilitate easy installation and maintenance in various industrial setups.
This module is CE and UL certified, ensuring compliance with international safety standards and providing peace of mind for users. It is compatible with a wide range of ABB‘s industrial automation products, making it a versatile choice for integration into existing systems.
Experience unparalleled reliability and performance with the ABB 3HAC023637-001. It’s the perfect solution for industrial settings requiring robust power supply, contributing to enhanced operational efficiency and system longevity.
