Manufacturer:HONEYWELL
Model Number:CC-TAIX01
Module Type:Analog Input
Operating Voltage:9-32V DC
Supply Current:Max 25mA
Input Range:-20V to +20V
Resolution:12-bit ADC
Communication Protocol:Modbus RTU
Environmental Rating:IP65
Temperature Range:-20°C to +70°C
Power Consumption:Typically <10mA @ 24V DC
Dimensions:L x W x H: 55mm x 55mm x 17mm
Weight:Approx. 30g
The Honeywell CC-TAIX01 Analog Input Module stands out for its exceptional precision and reliability, essential for maintaining high levels of efficiency and safety in industrial settings. With an operating voltage range of DC 24V, this module is compatible with a wide variety of systems, ensuring seamless integration and operation under diverse conditions.
Featuring a versatile input range from -5V to +5V, it can accurately capture and process analog signals from various sensors, providing real-time data that is crucial for process control and monitoring. The module’s accuracy is within ±0.05%, guaranteeing dependable performance and minimizing errors in critical operations.
Equipped with an ultra-fast response time of less than 1ms, the Honeywell CC-TAIX01 ensures rapid data processing, enabling swift adjustments and responses to changes in the environment or system status. This feature is particularly beneficial in scenarios where immediate feedback is necessary to maintain optimal operational conditions.
Adaptable to extreme temperatures, ranging from -40°C to +85°C, this module operates reliably in harsh environments, making it suitable for outdoor installations or applications subject to temperature fluctuations. Its IP65 protection rating further enhances durability against dust and water ingress, ensuring uninterrupted performance even in challenging conditions.
With MODBUS RTU connection, the Honeywell CC-TAIX01 Analog Input Module offers a straightforward interface for communication with other devices and systems, facilitating easy setup and integration into existing industrial networks. Its compact size and lightweight design make it ideal for space-constrained environments, without compromising on functionality or performance.
There are no reviews yet.