B57560G1104
NTC thermistors of G1560/100K with various tolerances
Manufacturer: epcos
series introduction
The B57560G1104 Series is a premium line of NTC thermistors designed for precise temperature measurement and control applications. These thermistors utilize a negative temperature coefficient (NTC) characteristic, where resistance decreases as temperature increases, providing high sensitivity and rapid response times. The series is engineered with a robust ceramic encapsulation that ensures excellent thermal stability and mechanical strength, making it suitable for a wide array of environments.
One of the key features of the B57560G1104 Series is its exceptional temperature range, typically from -55°C to +125°C, which allows for versatile applications across various industries. These thermistors are available in multiple resistance values at 25°C, offering flexibility for designers to select the most appropriate component for their specific application needs. The series also boasts low thermal mass, facilitating quick thermal response times, which is critical for applications requiring immediate feedback and control.
The design of the B57560G1104 Series prioritizes reliability and accuracy, making these thermistors ideal for use in HVAC systems, automotive temperature sensing, and industrial automation. Their small form factor enables integration into compact devices, such as consumer electronics and medical equipment, where space constraints are a consideration. With their high level of precision, these thermistors are also suitable for use in smart home appliances and energy management systems, enhancing overall energy efficiency through accurate temperature monitoring.
In summary, the B57560G1104 Series NTC thermistors are a versatile solution for a wide range of temperature sensing applications. Their high sensitivity, broad temperature range, and robust design position them as essential components in modern electronic devices and systems, offering manufacturers the reliability and performance necessary to meet today’s demanding technological standards.
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