Product Type:Relay Output Module
Model:IC693MDL940H
Number of Channels:Eight (8)
Channel Type:Form C (individually isolated)
Number of Outputs:16
Operating Voltage Range:5 to 30 Volts DC or 5 to 250 Volts AC
Current Load Capacity:Up to 400 mA
Mounting Type:Baseplate mounted
Nominal Output Voltage:24 VDC; 120 VAC / 240 VAC
Dimensions:Specific dimensions
Weight:Specific weight
Engineered for reliability and precision, the GE Fanuc IC693MDL940H Relay Output Module offers seamless integration into advanced industrial control systems. This module is designed to handle up to eight (8) Form C relay outputs individually isolated, ensuring efficient and isolated signal transmission. With sixteen (16) total outputs, it caters to a wide range of applications, from simple to complex control scenarios.
Featuring an operating voltage range of 5 to 30 Volts DC or 5 to 250 Volts AC, this module is versatile and can withstand the rigors of diverse industrial environments. Its current load capacity of up to 400 mA ensures robust performance even under heavy loads. The baseplate mounting facilitates easy installation and integration into existing control systems.
The module supports both 24 VDC and 120 VAC / 240 VAC nominal output voltages, making it compatible with a broad spectrum of industrial devices. Its compact design, with specific dimensions and a lightweight build, optimizes space utilization and minimizes the overall footprint in your control system setup.
For optimal performance and longevity, the IC693MDL940H Relay Output Module is manufactured using high-quality materials, ensuring durability and resistance to environmental factors commonly encountered in industrial settings. It is designed to meet the stringent standards required for reliable operation in harsh environments.
Ease of use and maintenance are at the forefront of its design philosophy. The module is user-friendly, with clear documentation and intuitive interface for quick setup and configuration. Regular maintenance checks are straightforward, allowing for minimal downtime and maximum operational efficiency.
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