NEU

TMP9R01-SP

AKTIV

Nachgewiesene Strahlungshärte(RHA), hochgenauer Remote- und lokaler Temperatursensor

Produktdetails

Local sensor accuracy (max) 2 Type Remote Operating temperature range (°C) -55 to 125 Supply voltage (min) (V) 1.7 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT Supply current (max) (µA) 375 Temp resolution (max) (bps) 12 Remote channels (#) 1 Addresses 9 Rating Space
Local sensor accuracy (max) 2 Type Remote Operating temperature range (°C) -55 to 125 Supply voltage (min) (V) 1.7 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT Supply current (max) (µA) 375 Temp resolution (max) (bps) 12 Remote channels (#) 1 Addresses 9 Rating Space
VSSOP (DGS) 10 14.7 mm² 3 x 4.9
  • QMLP, Radiation Hardness Assured (RHA)
    • SMD 5962-17218:
    • TID characterized up to 100krad(Si)
    • TID RLAT/RHA to 100krad(Si)
    • SEL immune to LET= 75MeV×cm2/mg at 125°C
    • SEE characterized to LET= 75MeV×cm2/mg
    • SEFI characterized to LET= 75MeV×cm2/mg
    • QMLV version available: TMP461-SP
  • Radiation Tolerant (Space Enhanced Plastic)
    • Vendor item drawing (VID) V62/24615
    • TID characterized up to 50krad(Si)
    • TID RLAT/RHA to 30krad(Si)
    • SEL immune to LET= 43MeV×cm2/mg at 125°C
    • SEE characterized to LET= 43MeV×cm2/mg
    • SEFI characterized to LET= 43MeV×cm2/mg
  • Temperature accuracy and range:
    • 12-bit resolution: 0.0625°C (LSB)
    • Local (on-chip) temp accuracy: ±2.0°C (Max)
    • Remote junction temp accuracy: ±1.5°C (Max)
    • Remote range tested to: –64°C to 191°C
    • Military temperature range: -55 to 125°C

  • Small-size package: VSSOP-10, 4.9mm × 3.0mm
  • Integrated calibration/ protection features:
    • η-factor and offset correction
    • Series resistance cancellation
    • Remote BJT/diode fault detection
    • Programmable digital filter
  • Wide operating range, low power:
    • Voltage supply range: 1.7V to 3.6V
    • I/O voltages: 1.8V, 2.5V, and 3.3V
    • Standby/shutdown IQ: 15µA/3µA
  • QMLP, Radiation Hardness Assured (RHA)
    • SMD 5962-17218:
    • TID characterized up to 100krad(Si)
    • TID RLAT/RHA to 100krad(Si)
    • SEL immune to LET= 75MeV×cm2/mg at 125°C
    • SEE characterized to LET= 75MeV×cm2/mg
    • SEFI characterized to LET= 75MeV×cm2/mg
    • QMLV version available: TMP461-SP
  • Radiation Tolerant (Space Enhanced Plastic)
    • Vendor item drawing (VID) V62/24615
    • TID characterized up to 50krad(Si)
    • TID RLAT/RHA to 30krad(Si)
    • SEL immune to LET= 43MeV×cm2/mg at 125°C
    • SEE characterized to LET= 43MeV×cm2/mg
    • SEFI characterized to LET= 43MeV×cm2/mg
  • Temperature accuracy and range:
    • 12-bit resolution: 0.0625°C (LSB)
    • Local (on-chip) temp accuracy: ±2.0°C (Max)
    • Remote junction temp accuracy: ±1.5°C (Max)
    • Remote range tested to: –64°C to 191°C
    • Military temperature range: -55 to 125°C

  • Small-size package: VSSOP-10, 4.9mm × 3.0mm
  • Integrated calibration/ protection features:
    • η-factor and offset correction
    • Series resistance cancellation
    • Remote BJT/diode fault detection
    • Programmable digital filter
  • Wide operating range, low power:
    • Voltage supply range: 1.7V to 3.6V
    • I/O voltages: 1.8V, 2.5V, and 3.3V
    • Standby/shutdown IQ: 15µA/3µA

The TMP9R01-SP (QML Class P) and TMP9R01-SEP (Radiation Tolerant, Space EP) are high-accuracy digital I2C temperature sensors integrating a 12-bit ADC, bias current sources, and calibration circuitry in a 10-pin VSSOP plastic package. The devices measure remote temperature by forcing a bias current through an external BJT or the integrated diode/junction of an FPGA, ADC, or ASIC, digitizing the resulting ΔVBE and reporting temperature with 0.0625°C resolution. An additional on-chip sensor provides local temperature measurement.

The TMP9R01-SP and TMP9R01-SEP incorporate multiple calibration and protection features, including series-resistance cancellation, programmable non-ideality factor (η-Factor), offset correction, and programmable digital filter. Designers can set high- and low-temperature limits that drive the ALERT output for over-and-under temperature thermal protection. Up to 9 pin-selectable I2C/SMBus addresses allow multiple sensors on the same I2C bus. The devices are designed for multi-location spacecraft housekeeping, satellite telemetry, avionics, and other high-reliability applications that require precise, temperature sensing and with varying levels of radiation hardness.

The TMP9R01-SP is also available as a functionally equivalent QMLV-RHA device: TMP461-SP.

The TMP9R01-SP (QML Class P) and TMP9R01-SEP (Radiation Tolerant, Space EP) are high-accuracy digital I2C temperature sensors integrating a 12-bit ADC, bias current sources, and calibration circuitry in a 10-pin VSSOP plastic package. The devices measure remote temperature by forcing a bias current through an external BJT or the integrated diode/junction of an FPGA, ADC, or ASIC, digitizing the resulting ΔVBE and reporting temperature with 0.0625°C resolution. An additional on-chip sensor provides local temperature measurement.

The TMP9R01-SP and TMP9R01-SEP incorporate multiple calibration and protection features, including series-resistance cancellation, programmable non-ideality factor (η-Factor), offset correction, and programmable digital filter. Designers can set high- and low-temperature limits that drive the ALERT output for over-and-under temperature thermal protection. Up to 9 pin-selectable I2C/SMBus addresses allow multiple sensors on the same I2C bus. The devices are designed for multi-location spacecraft housekeeping, satellite telemetry, avionics, and other high-reliability applications that require precise, temperature sensing and with varying levels of radiation hardness.

The TMP9R01-SP is also available as a functionally equivalent QMLV-RHA device: TMP461-SP.

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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet TMP9R01-SP (QMLP RHA) and TMP9R01-SEP (Radiation Tolerant) Space-Grade, I2 C Digital Temperature Sensor With Remote and Local (On-Chip) Temperature Sensing datasheet (Rev. A) PDF | HTML 08 Jul 2026
* Radiation & reliability report TMP9R01-SP Plastic Neutron Displacement Damage (NDD) Characterization Report 22 Jun 2026
* Radiation & reliability report TMP9R01-SP Total Ionizing Dose (TID) Report 19 Jun 2026
* Radiation & reliability report TMP9R01-SP Single-Event Effects (SEE) Radiation Test Report (Rev. A) PDF | HTML 17 Jun 2025
Application note How to Optimize Space-Grade Temperature Sensing Designs PDF | HTML 27 Okt 2025
Product overview TI Space Qualified Temperature Sensor Product Selection Guide (Rev. A) PDF | HTML 22 Jan 2025

Design und Entwicklung

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Evaluierungsplatine

TMP9R01EVM — TMP9R01 – Evaluierungsmodul

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