The Honeywell MC-TAMT03 51309223-175 is a high-performance Low Level Analog MUX designed for seamless integration into industrial control systems, offering enhanced signal processing capabilities and improved system efficiency.
home
The Honeywell MC-TAMT03 51309223-175 is a high-performance Low Level Analog MUX designed for seamless integration into industrial control systems, offering enhanced signal processing capabilities and improved system efficiency.
open
close
Product Type:Low Level Analog Mux
Thermocouple Compatibility:Yes
Weight:0.75 kg
Power Consumption:Minimal
Operating Temperature Range:-20°C to 70°C
Environmental Rating:IP20
Connection Type:Standard Industrial Connectors
Input Channel Count:8
Output Type:Digital Signal
Communication Interface:RS-485
Certifications:UL, CE, RoHS
Experience unparalleled reliability and efficiency with the Honeywell MC-TAMT03 51309223-175 Low Level Analog Multiplexer, designed to meet the demands of modern industrial automation. This device is built with high-quality materials, ensuring durability and longevity in harsh environments.
Featuring a compact design measuring 200mm x 150mm x 50mm, it offers an optimal balance between performance and space utilization. The use of high-grade stainless steel guarantees resistance against corrosion and wear, enhancing its lifespan.
With a capacity to process up to 8 analog channels, this multiplexer is perfect for applications requiring multiple signal inputs. Its versatile communication interface, RS-485, ensures seamless integration with existing control systems, facilitating easy data exchange and monitoring.
Operate within an extended temperature range from -20°C to +70°C without compromising performance, making it suitable for various industrial settings. The low power consumption of less than 1W helps in managing energy efficiently, reducing operational costs.
Enjoy peace of mind with Honeywell’s commitment to quality and innovation. The MC-TAMT03 51309223-175 is engineered to withstand the rigors of industrial use, offering consistent accuracy and reliability in processing analog signals.
