SNVAA89A November   2023  – March 2024 LM75A , LM75B , TMP102 , TMP1075 , TMP110 , TMP112 , TMP112-Q1 , TMP175 , TMP175-Q1 , TMP275 , TMP275-Q1 , TMP75 , TMP75-Q1 , TMP75B , TMP75B-Q1 , TMP75C , TMP75C-Q1

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. Introduction
  5. Devices Covered in Application Note: Package Pinout and Spec Compatibility
    1. 2.1 TMP1075: Latest Generation LM75 Sensor in Industry-Standard Packages for Cost-Optimized Designs
    2. 2.2 TMP110: LM75-Based Temp Sensor in Small X2SON Package for the Highest Cost-Efficiency
    3. 2.3 TMP112-Q1: Functional Safety-Capable, LM75-Based Sensor for Automotive Designs
  6. Software Compatibility
  7. TMP1075 Cost-Optimized Dual-Source Layout Using TMP110
  8. Linux Driver
  9. Conversion Time and Resolution Setting Highlights
  10. Interpreting Digital Temperature Output: Data Encoding Compatibility
  11. Summary
  12. References
  13. 10Revision History

2.2 TMP110: LM75-Based Temp Sensor in Small X2SON Package for the Highest Cost-Efficiency

TMP110 sensor provides a considerable cost savings, high accuracy, and low power I2C temperature design (Table 2-2). TMP110 comes in the X2SSON package. TMP110 is not P2P compatible, but dual sourcing is an option for TMP110. For more information about the dual source option, please refer to Section 4 in this document.