Datasheet Texas Instruments TMP116AIDRVT
Manufacturer | Texas Instruments |
Series | TMP116 |
Part Number | TMP116AIDRVT |
±0.2°C Accurate Digital Temperature Sensor With NV Memory 6-WSON -55 to 125
Datasheets
TMP116 High-Accuracy, Low-Power, Digital Temperature Sensor With SMBus- and I2C-Compatible Interface datasheet
PDF, 1.2 Mb, Revision: A, File published: May 20, 2019
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Prices
Status
Lifecycle Status | Active (Recommended for new designs) |
Manufacture's Sample Availability | No |
Packaging
Pin | 6 |
Package Type | DRV |
Industry STD Term | WSON |
JEDEC Code | S-PDSO-N |
Package QTY | 250 |
Carrier | SMALL T&R |
Device Marking | T116 |
Width (mm) | 2 |
Length (mm) | 2 |
Thickness (mm) | 0.75 |
Pitch (mm) | 0.65 |
Max Height (mm) | 0.8 |
Mechanical Data | Download |
Parametrics
Addresses | 4 |
Approx. price | 0.79 | 1ku US$ |
Device type | Local |
Features | ALERT,One-shot conversion,EEPROM,NIST traceable |
Interface | I2C, SMBus, 2-Wire |
Local sensor accuracy(Max) | 0.2 +/- C |
Operating temperature range | -55 to 125 C |
Package Group | WSON|6 |
Package size: mm2:W x L | 6WSON: 4 mm2: 2 x 2 (WSON|6) PKG |
Rating | Catalog |
Supply current(Max) | 4.5 uA |
Supply current(Typ) | 3.5 uA |
Supply voltage(Max) | 5.5 V |
Supply voltage(Min) | 1.9 V |
Temp resolution(Max) | 16 bits |
Eco Plan
RoHS | Compliant |
Pb Free | Yes |
Design Kits & Evaluation Modules
- Evaluation boards: TMP116METER-EVM
Low Power Temperature Digital Meter
Lifecycle Status: Active (Recommended for new designs) - Evaluation boards: BOOSTXL-BASSENSORS
Building Automation Sensors BoosterPack Module
Lifecycle Status: Active (Recommended for new designs) - Evaluation boards: TMP116EVM
TMP116 High-Precision Digital Temperature Sensor Evaluation Module
Lifecycle Status: Active (Recommended for new designs)
Application Notes
- Precise Temperature Measurements With the TMP116 and TMP117 (Rev. A)PDF, 917 Kb, Revision: A, File published: Aug 9, 2018
Engineers must carefully consider the overall system design when designing high-precision temperature measurement applications. This application note provides recommendations on how to design a precise temperature measuring system based on the TMP116 and TMP117 temperature sensors. By following this application note the user should be able to design a precise measuring system which adheres to the - RTD Replacement in Heat Meter & Cold Junction Compensation Systems (Rev. B)PDF, 176 Kb, Revision: B, File published: Oct 18, 2018
- Design Challenges of Wearable Temperature SensingPDF, 340 Kb, File published: Sep 14, 2018
- Layout Considerations for Wearable Temperature SensingPDF, 335 Kb, File published: Jul 26, 2018
- Design Considerations for Measuring Ambient Air Temperature (Rev. B)PDF, 1.4 Mb, Revision: B, File published: Sep 10, 2018
Power-hungryelectroniccomponentssuchas processorchipsfield programmablegatearrays(FPGAs)application-specificintegratedcircuits(ASICs)as well as powerICs heatup duringoperation.Whenthesystemis turnedon the heatgeneratedby theseICs transfersto lowertemperatureobjectsnearby.Measuringambientair temperaturewith a surfacemountdevi - Replacing Resistance Temperature Detectors with the TMP116 Temp SensorPDF, 133 Kb, File published: Nov 6, 2017
- Ambient Temperature Measurement Layout ConsiderationsPDF, 893 Kb, File published: Jul 16, 2018
- How to monitor board temperaturePDF, 1.6 Mb, File published: Jan 28, 2019
- Temperature sensing fundamentalsPDF, 64 Kb, File published: Jan 28, 2019
- Wearable Temp-Sensing Layout Considerations Optimized for Thermal Response (Rev. B)PDF, 3.6 Mb, Revision: B, File published: Oct 23, 2018
This applicationnotediscussesthermalresponseconsiderationsfor IC temperaturesensorsin measuringskin temperaturefor wearableapplicationssuchas fitnessbandsand medicaldevices.It will specificallyfocuson twodevices—the LMT70andthe TMP117temperaturesensors—overthe humanbodytemperaturerange.Thisinformationcan be appliedhoweverto ot - Calculating Useful Lifetimes of Temperature SensorsPDF, 522 Kb, File published: Jul 6, 2018
- High-Performance Processor Die Temperature Monitoring (Rev. A)PDF, 357 Kb, Revision: A, File published: Oct 17, 2019
- Low-Power Design Techniques for Temperature-Sensing ApplicationsPDF, 235 Kb, File published: Jun 6, 2019
Power consumption is a critical design consideration for many sensor applications. Battery-powered devices such as smartphones and laptops need thermal monitoring to effectively blend performance with battery life. Logging devices designed for cold chain tracking must have a long enough battery life to perform their mission. IoT-sensing devices can be made smaller cheaper and simpler to deploy - Temperature sensors: PCB guidelines for surface mount devices (Rev. A)PDF, 5.6 Mb, Revision: A, File published: Jan 18, 2019
Power hungry electronic components such as CPUs GPUs or FPGAs as well as voltage regulators heat up during operation. Some applications require ambient air temperature measurements while others need to measure the temperature of a nearby component on the PCB. Measuring ambient air temperature with a surface mount technology (SMT) device is challenging due to the thermal influence of other compo
Model Line
Series: TMP116 (4)
- TMP116AIDRVR TMP116AIDRVT TMP116NAIDRVR TMP116NAIDRVT
Manufacturer's Classification
- Semiconductors > Analog and Mixed-Signal > Sensors > Temperature sensors > Digital temperature sensors