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

1 Introduction

Texas Instruments provides a range of different digital temperature sensors compatible with two-wire, SMBus, and I2C interfaces. These temperature sensors are included under the TI 75 family of sensors. This application note guides customers in selecting the appropriate sensor within the 75-family series of TI Temperature sensors and helps them optimize newer features offered in devices such as TMP1075, TMP110, and TMP112-Q1.

This document provides simplified comparison tables for customers to consider the main differences when replacing components. These specs were carefully chosen to provide the best side-by-side comparison. This document provides a high overview comparison but does not reveal all specs. Further investigation of the data sheets is necessary before making a switch to one of these devices.

To provide additional clarity in hardware and software variations, this article discusses Linux driver compatibility, conversion time, resolution compatibility, and data encoding compatibility.