Product details

Local sensor accuracy (max) 0.5 Type Local Operating temperature range (°C) -40 to 125 Supply voltage (min) (V) 1.4 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT, NIST traceable, One-shot conversion Supply current (max) (µA) 10 Temp resolution (max) (bps) 12 Remote channels (#) 0 Addresses 4 Rating Automotive TI functional safety category Functional Safety-Capable
Local sensor accuracy (max) 0.5 Type Local Operating temperature range (°C) -40 to 125 Supply voltage (min) (V) 1.4 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT, NIST traceable, One-shot conversion Supply current (max) (µA) 10 Temp resolution (max) (bps) 12 Remote channels (#) 0 Addresses 4 Rating Automotive TI functional safety category Functional Safety-Capable
SOT-5X3 (DRL) 6 2.56 mm² 1.6 x 1.6
  • AEC-Q100 qualified with:
    • Temperature grade 1: –40°C to 125°C Ambient Operating Temperature Range
    • Device HBM ESD classification level 2
    • Device CDM ESD classification level C6
  • Functional Safety-Capable
  • SOT563 package (1.6 mm × 1.6 mm) is a 68% smaller footprint than SOT23
  • Accuracy without calibration:
    • 0.5°C (maximum) from 0°C to 65°C
    • 1°C (maximum) from –40°C to 125°C
  • Low quiescent current:
    • 10-µA active (maximum)
    • 1-µA shutdown (maximum)
  • Supply range: 1.4 to 3.6 V
  • Resolution: 12 bits
  • Digital output: SMBus, two-wire and I2C interface compatibility
  • NIST traceable
  • AEC-Q100 qualified with:
    • Temperature grade 1: –40°C to 125°C Ambient Operating Temperature Range
    • Device HBM ESD classification level 2
    • Device CDM ESD classification level C6
  • Functional Safety-Capable
  • SOT563 package (1.6 mm × 1.6 mm) is a 68% smaller footprint than SOT23
  • Accuracy without calibration:
    • 0.5°C (maximum) from 0°C to 65°C
    • 1°C (maximum) from –40°C to 125°C
  • Low quiescent current:
    • 10-µA active (maximum)
    • 1-µA shutdown (maximum)
  • Supply range: 1.4 to 3.6 V
  • Resolution: 12 bits
  • Digital output: SMBus, two-wire and I2C interface compatibility
  • NIST traceable

The TMP112-Q1 device is a digital temperature sensor designed for NTC/PTC thermistor replacement where high accuracy is required. The device offers an accuracy of ±0.5°C without requiring calibration or external component signal conditioning. Device temperature sensors are highly linear and do not require complex calculations or lookup tables to derive the temperature. The calibrating for improved accuracy feature allows users to calibrate for an accuracy as good as ±0.17°C (see the Calibrating for Improved Accuracy section). The on-chip 12-bit ADC offers resolutions down to 0.0625°C.

The 1.6-mm × 1.6-mm SOT563 package is 68% smaller footprint than an SOT23 package. The TMP112-Q1 device features SMBus™, two-wire and I2C interface compatibility, and allows up to four devices on one bus. The device also features an SMBus alert function. The device is specified to operate over supply voltages from 1.4 to 3.6 V with the maximum quiescent current of 10 µA over the full operating range.

The TMP112-Q1 device is a digital temperature sensor designed for NTC/PTC thermistor replacement where high accuracy is required. The device offers an accuracy of ±0.5°C without requiring calibration or external component signal conditioning. Device temperature sensors are highly linear and do not require complex calculations or lookup tables to derive the temperature. The calibrating for improved accuracy feature allows users to calibrate for an accuracy as good as ±0.17°C (see the Calibrating for Improved Accuracy section). The on-chip 12-bit ADC offers resolutions down to 0.0625°C.

The 1.6-mm × 1.6-mm SOT563 package is 68% smaller footprint than an SOT23 package. The TMP112-Q1 device features SMBus™, two-wire and I2C interface compatibility, and allows up to four devices on one bus. The device also features an SMBus alert function. The device is specified to operate over supply voltages from 1.4 to 3.6 V with the maximum quiescent current of 10 µA over the full operating range.

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Technical documentation

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

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AWR2944EVM — AWR2944 evaluation module for automotive, second-generation 76-GHz to 81-GHz high-performance SoC

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User guide: PDF
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Evaluation board

AWRL6432BOOST — AWRL6432BOOST BoosterPack™ evaluation module for single-chip low-power mmWave radar sensor

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User guide: PDF | HTML
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DIP-ADAPTER-EVM — DIP adapter evaluation module

Speed up your op amp prototyping and testing with the DIP adapter evaluation module (DIP-ADAPTER-EVM), which provides a fast, easy and inexpensive way to interface with small surface-mount ICs. You can connect any supported op amp using the included Samtec terminal strips or wire them (...)

User guide: PDF
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Evaluation board

IWR6843LEVM — IWR6843 evaluation module for 60-GHz, single-chip, mmWave radar sensor

The IWR6843L evaluation module (EVM) is an easy-to-use 60-GHz mmWave sensor evaluation platform for the IWR6843 with an FR4-based antenna. IWR6843LEVM may be used to evaluate both the IWR6843 and IWR6443. This EVM enables access to point-cloud data and power-over-USB interfaces.

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User guide: PDF | HTML
Not available on TI.com
Evaluation board

IWRL1432BOOST-BSD — IWRL1432 evaluation module for BSD with low-power 76-GHz to 81-GHz industrial radar sensor

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Not available on TI.com
Evaluation board

IWRL6432AOPEVM — IWRL6432AOP evaluation module for single-chip 60GHz antenna-on-package (AoP) mmWave sensor

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User guide: PDF | HTML
Not available on TI.com
Evaluation board

IWRL6432BOOST — IWRL6432 BoosterPack™ evaluation module for single-chip 60GHz mmWave low-power sensor

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User guide: PDF | HTML
Not available on TI.com
Evaluation board

TMP112EVM — TMP112 high-precision, low-power, digital temperature sensor evaluation module

The TMP112EVM allows users to evaluate the performance of the TMP112 digital temperature sensor. The evaluation module (EVM) comes in a USB-stick form factor, with an onboard MSP430F5528 microcontroller that interfaces with both the host computer and the TMP112 device using an I²C interface. (...)

User guide: PDF
Simulation model

TMP102, TMP112 IBIS Model

SBFM009.ZIP (63 KB) - IBIS Model
Reference designs

TIDEP-01012 — Imaging radar using cascaded mmWave sensor reference design

The cascade development kit has two main use cases:
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Design guide: PDF
Schematic: PDF
Reference designs

TIDA-020047 — Two-device mmWave cascade reference design for automotive 4D imaging radar

This automotive radar reference design is a cascaded 76-GHz to 81-GHz radar sensor module. This includesa two-device cascaded array of AWR2243 devices and an AM2732R radar processor. In this cascaded radar configuration, a primary device distributes a 20-GHz local-oscillator (LO) signal to both (...)
Design guide: PDF
Package Pins CAD symbols, footprints & 3D models
SOT-5X3 (DRL) 6 Ultra Librarian

Ordering & quality

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Information included:
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