Description
Product Description
Overview
The AAI543-S53/K4A00 by Yokogawa Electric Corporation is a high-performance analog output module designed for reliable integration with Yokogawa process control systems. Built for precision and stability, this module ensures accurate 4-20mA current output across multiple channels, suitable for demanding industrial applications.
Key Technical Specifications
-
Model: AAI543-S53/K4A00
-
Manufacturer: Yokogawa Electric Corporation
-
Output Channels: 16 isolated channels
-
Signal Type: 4-20mA DC current loop
-
Accuracy: ±0.1 percent of full scale
-
Digital Conversion: 12-bit D/A converter
-
Isolation: Channel-to-channel and channel-to-bus isolation
-
Redundancy: Dual-redundant configuration (K4A00 version)
-
Compatible Systems: Yokogawa CENTUM VP, CENTUM CS 3000
-
Operating Temperature: 0 to 55 degrees Celsius (32 to 131 degrees Fahrenheit)
-
Storage Temperature: -20 to 70 degrees Celsius (-4 to 158 degrees Fahrenheit)
-
Power Consumption: 5 Watts typical per module
-
Material: High-grade industrial PCB and connectors
-
Condition: 100 percent original, brand new
-
Country of Origin: Japan
Applications
-
Process control for chemical, oil, and gas plants
-
Integration with distributed control systems (DCS)
-
Precise analog signal output for industrial instrumentation
-
Redundant configurations for critical operations requiring high reliability
FAQ
Q: Can this module work with non-Yokogawa DCS systems?
A: This module is specifically designed for Yokogawa CENTUM VP and CENTUM CS 3000. Compatibility with other systems is not guaranteed.
Q: What does dual-redundant mean for this module?
A: Dual-redundant (K4A00) allows two modules to operate in parallel, ensuring continuous operation in case one module fails.
Q: Is this module field-replaceable?
A: Yes, the module is designed for hot-swap replacement in supported Yokogawa systems.
Comparison with Similar Models
-
AAI543-S53/K4A00 provides 16 isolated channels, suitable for high-density analog output
-
AAI543-S53/K3A00 supports fewer channels with single redundancy, reducing cost but limiting fault tolerance
