LMP91002SDE/NOPB

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LMP91002SDE/NOPB

Configurable AFE for Low Power H2S and CO Sensing Applications

Packaging

Package | PIN: NHL | 14
Temp: I (-40 to 85)
Carrier: Cut Tape
Qty Price
1-9 $3.50
10-24 $3.15
25-99 $2.94
100-249 $2.64
250-499 $2.46
500-749 $2.14
750-999 $1.86
1000+ $1.82

Features

  • Typical Values, TA = 25°C
  • Supply Voltage 2.7 V to 3.6 V
  • Supply Current (Average Over Time) < 10 µA
  • Cell Conditioning Current Up to 10 mA
  • Reference Electrode Bias Current (85°C) 900-pA
    (Maximum)
  • Output Drive Current 750 µA
  • Complete Potentiostat Circuit to Interface to Most
    Not Biased Gas Sensors
  • Low Bias Voltage Drift
  • Programmable TIA Gain 2.75 kΩ to 350 kΩ
  • I2C-Compatible Digital Interface
  • Ambient Operating Temperature –40°C to 85°C
  • Package 14-pin WSON
  • Supported by Webench Sensor AFE Designer

Texas Instruments  LMP91002SDE/NOPB

The LMP91002 device is a programmable Analog Front End (AFE) for use in micro-power electrochemical-sensing applications. It provides a complete signal path solution between a not biased gas sensor and a microcontroller generating an output voltage proportional to the cell current.

The LMP91002’s programmability enables it support not biased electro-chemical gas sensor with a single design. The LMP91002 supports gas sensitivities over a range of 0.5 nA/ppm to 9500 nA/ppm. It also allows for an easy conversion of current ranges from 5 µA to 750 µA full scale. The LMP91002’s transimpedance amplifier (TIA) gain is programmable through the I2C interface. The I2C interface can also be used for sensor diagnostics. The LMP91002 is optimized for micro-power applications and operates over a voltage range of 2.7 V to 3.6 V. The total current consumption can be less than 10 µA. Further power savings are possible by switching off the TIA amplifier and shorting the reference electrode to the working electrode with an internal switch.