EMC2113-1-AP-TR Temperature Sensor by Microchip Technology

The EMC2113-1-AP-TR is a high-performance, low-power temperature sensor designed by Microchip Technology, a leading provider of microcontroller and analog semiconductors. This device is specifically engineered to provide precise temperature monitoring for a variety of applications, including personal computers, servers, data storage systems, and other embedded systems.

Featuring a dual-channel design, the EMC2113-1-AP-TR is capable of monitoring both its own temperature and the temperature of an external diode, such as a CPU or GPU. This flexibility allows system designers to keep a close eye on critical components, ensuring that they operate within their specified temperature ranges for optimal performance and reliability.

One of the key attributes of the EMC2113-1-AP-TR is its SMBus interface, which allows for easy integration into existing systems. This standardized communication protocol ensures compatibility with a wide range of host controllers, making the sensor a versatile choice for designers. Additionally, the sensor's programmable temperature thresholds enable automatic fan speed control, which helps to reduce system noise and power consumption while maintaining appropriate cooling levels.

With its small form factor, the EMC2113-1-AP-TR comes in a compact 10-MSOP package, making it an ideal solution for space-constrained applications. Its tape and reel packaging (indicated by the 'TR' suffix) is suitable for automated assembly processes, facilitating efficient manufacturing and scalability for high-volume production.

Key features of the EMC2113-1-AP-TR include:

• High accuracy and resolution for both internal and external temperature measurements
• Programmable temperature thresholds for fan control
• Low operating voltage and power consumption
• SMBus 2.0 compatible interface
• Compact 10-MSOP package for easy integration into various designs

Overall, the EMC2113-1-AP-TR from Microchip Technology represents a robust solution for designers looking to incorporate advanced thermal management into their systems. Its precision, programmability, and ease of use make it a valuable component in ensuring system stability and longevity.