Sensor Type:Digital
Temperature Range:-40°C to +125°C
Resolution:0.1°C
Accuracy at 25°C:+/- 0.5°C
Power Consumption:1.5mA @ 5VDC
Communication Protocol:MODBUS RTU
Operating Voltage:5VDC ± 5%
Operating Current:Max. 20mA
Environmental Conditions:Humidity: 0% to 95% RH (non-condensing)
Introducing the HONEYWELL FC-TSHART-1620M temperature sensor module, a cornerstone of precision industrial control systems. This robust device is designed to deliver unparalleled accuracy and reliability, ensuring stable performance under extreme environmental conditions. Its wide operating temperature range from -40°C to +85°C makes it suitable for a multitude of applications, from cold storage facilities to high-heat industrial processes.
Featuring an impressive ±0.5°C accuracy at 25°C, the FC-TSHART-1620M ensures precise temperature readings, critical for maintaining optimal operational conditions in manufacturing, HVAC, and process control systems. The quick response time of less than one second guarantees timely data acquisition, enhancing system efficiency and responsiveness.
Efficient power management is a key aspect of this sensor module, drawing only 0.5mA at a standard 5V supply. This feature not only extends battery life for portable or remote installations but also reduces overall energy consumption in fixed systems, making it an eco-friendly choice.
Built for durability and compatibility, the FC-TSHART-1620M supports industry-standard digital interfaces, seamlessly integrating into existing control networks without requiring extensive modifications. This compatibility ensures easy installation and maintenance, streamlining system upgrades and ensuring a smooth integration experience.
Crafted with precision and engineered for reliability, the HONEYWELL FC-TSHART-1620M is an essential component for any industrial environment demanding accurate temperature monitoring. With its robust design, advanced features, and seamless connectivity, this sensor module stands out as a top choice for enhancing system performance and operational efficiency.
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