Number of Channels:16
Power Supply Voltage:100V – 120V AC
Input Signal Compatibility:4-20mA DC, 0-10V DC
Operating Temperature Range:-20°C to +60°C
Isolation Resistance:100MΩ
Communication Protocols Supported:MODBUS RTU, DeviceNet
Dimensions (WxHxD):100mm x 100mm x 30mm
Weight:0.2kg
The Yokogawa ADV141-S13 S1 Digital Input Module is a critical component for enhancing the efficiency and reliability of industrial automation systems. Its robust design allows for precise data acquisition, making it ideal for applications requiring high accuracy and stability.
Featuring 16 channels of 4-20 mA DC inputs, this module ensures a wide range of compatibility with various sensors and devices commonly found in manufacturing environments. Its ability to handle different input signals makes it suitable for diverse operational needs.
With an operating voltage of 100V to 120V AC and a temperature range from -20°C to +70°C, the ADV141-S13 S1 Digital Input Module is designed to withstand harsh industrial conditions, ensuring continuous operation without the risk of failure due to environmental factors.
Equipped with isolation technology, the module provides electrical separation between the input and output circuits, significantly reducing the risk of electrical interference and enhancing safety standards in industrial settings. This feature is particularly valuable in environments where electrical noise or ground loops could affect system performance.
The compact size and lightweight design of the ADV141-S13 S1 Digital Input Module make it easy to integrate into existing systems without compromising on space or weight considerations. It adheres to CE certification, ensuring compliance with European safety and environmental protection regulations.
To maximize user convenience, the module comes with detailed installation instructions and comprehensive documentation, facilitating quick setup and minimizing downtime during implementation. Furthermore, its compatibility with Yokogawa’s advanced control systems enables seamless integration and enhanced functionality within complex industrial ecosystems.
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