1583T6C
19-inch power strips with multiple outlets
Manufacturer: hammond-manufacturing
series introduction
The 1583T6C Series is a cutting-edge line of high-performance temperature sensors designed to meet the rigorous demands of various industrial applications. These sensors leverage advanced thermistor technology to provide accurate and reliable temperature measurements across a wide range of operating environments. The 1583T6C Series is characterized by its superior sensitivity and precision, allowing for quick response times and minimal drift, ensuring optimal performance in both dynamic and static temperature monitoring scenarios.
Constructed with a robust housing and employing high-quality materials, the 1583T6C Series is engineered to withstand harsh conditions, including extreme temperatures, humidity, and vibration. This design makes it particularly suitable for deployment in tough environments such as manufacturing plants, automotive systems, and aerospace applications. The sensors feature a compact form factor, enabling easy integration into various form factors, including PCBs and enclosures where space is at a premium.
Key features of the 1583T6C Series include a wide temperature measurement range, typically spanning from -40°C to +125°C, and exceptional linearity, which ensures accurate readings across the entire range. Additionally, these sensors are designed to provide low thermal mass, allowing for rapid temperature changes to be detected with remarkable precision. The series also supports a variety of output options, including analog and digital interfaces, making it versatile for use in different systems and protocols.
Typical applications for the 1583T6C Series include HVAC systems, refrigeration monitoring, automotive temperature regulation, and environmental control systems. These sensors are indispensable in sectors such as industrial automation, healthcare, and consumer electronics, where precise temperature control is critical for safety and performance. By integrating the 1583T6C Series into their systems, engineers and designers can enhance operational efficiency and ensure compliance with stringent temperature monitoring regulations, thereby improving overall system reliability and functionality.
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