Product details

Number of input channels 1 Features Temp. Sensor, Transimpedance Amplifier Operating temperature range (°C) -40 to 85 Vs (min) (V) 2.7 Vs (max) (V) 5.25 Interface type Serial I2C Rating Catalog
Number of input channels 1 Features Temp. Sensor, Transimpedance Amplifier Operating temperature range (°C) -40 to 85 Vs (min) (V) 2.7 Vs (max) (V) 5.25 Interface type Serial I2C Rating Catalog
WSON (NHL) 14 16 mm² 4 x 4
  • Typical Values, TA = 25°C
  • Supply Voltage 2.7 V to 5.25 V
  • Supply Current (Average Over Time) <10 µA
  • Cell Conditioning Current Up to 10 mA
  • Reference Electrode Bias Current (85°C) 900pA (max)
  • Output Drive Current 750 µA
  • Complete Potentiostat Circuit-to-Interface to Most
    Chemical Cells
  • Programmable Cell Bias Voltage
  • Low-Bias Voltage Drift
  • Programmable TIA gain 2.75 kΩ to 350 kΩ
  • Sink and Source Capability
  • I2C Compatible Digital Interface
  • Ambient Operating Temperature –40°C to 85°C
  • Package 14-Pin WSON
  • Supported by WEBENCH® Sensor AFE Designer
  • Typical Values, TA = 25°C
  • Supply Voltage 2.7 V to 5.25 V
  • Supply Current (Average Over Time) <10 µA
  • Cell Conditioning Current Up to 10 mA
  • Reference Electrode Bias Current (85°C) 900pA (max)
  • Output Drive Current 750 µA
  • Complete Potentiostat Circuit-to-Interface to Most
    Chemical Cells
  • Programmable Cell Bias Voltage
  • Low-Bias Voltage Drift
  • Programmable TIA gain 2.75 kΩ to 350 kΩ
  • Sink and Source Capability
  • I2C Compatible Digital Interface
  • Ambient Operating Temperature –40°C to 85°C
  • Package 14-Pin WSON
  • Supported by WEBENCH® Sensor AFE Designer

The LMP91000 is a programmable analog front-end (AFE) for use in micro-power electrochemical sensing applications. It provides a complete signal path solution between a sensor and a microcontroller that generates an output voltage proportional to the cell current. The LMP91000’s programmability enables it to support multiple electrochemical sensors such as 3-lead toxic gas sensors and 2-lead galvanic cell sensors with a single design as opposed to the multiple discrete solutions. The LMP91000 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 LMP91000’s adjustable cell bias and transimpedance amplifier (TIA) gain are programmable through the I2C interface. The I2C interface can also be used for sensor diagnostics. An integrated temperature sensor can be read by the user through the VOUT pin and used to provide additional signal correction in the µC or monitored to verify temperature conditions at the sensor.

The LMP91000 is optimized for micro-power applications and operates over a voltage range of 2.7 to 5.25 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.

The LMP91000 is a programmable analog front-end (AFE) for use in micro-power electrochemical sensing applications. It provides a complete signal path solution between a sensor and a microcontroller that generates an output voltage proportional to the cell current. The LMP91000’s programmability enables it to support multiple electrochemical sensors such as 3-lead toxic gas sensors and 2-lead galvanic cell sensors with a single design as opposed to the multiple discrete solutions. The LMP91000 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 LMP91000’s adjustable cell bias and transimpedance amplifier (TIA) gain are programmable through the I2C interface. The I2C interface can also be used for sensor diagnostics. An integrated temperature sensor can be read by the user through the VOUT pin and used to provide additional signal correction in the µC or monitored to verify temperature conditions at the sensor.

The LMP91000 is optimized for micro-power applications and operates over a voltage range of 2.7 to 5.25 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.

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Technical documentation

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Type Title Date
* Data sheet LMP91000 Sensor AFE System: Configurable AFE Potentiostat for Low-Power Chemical-Sensing Applications datasheet (Rev. I) PDF | HTML 31 Dec 2014
Technical article Designing signal chains for portable diagnostics PDF | HTML 18 May 2022
Technical article What is the IQ of your home or building? Is it indeed smart? PDF | HTML 20 Apr 2015
Application note AN-2230 MSP430 Interface to LMP91000 Code Library (Rev. C) 01 May 2013
More literature Sensor Analog Front Ends Brochure 30 Oct 2012

Design & development

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

Evaluation board

LMP91000EVM — LMP91000 evaluation module

The Texas Instruments LMP91000EVM evaluation module (EVM) helps designers evaluate the operation and performance of the LMP91000 Sensor Analog Front End for Electrochemical sensor. The LMP91000EVM is part of the Sensor AFE evaluation platform.

The SPIO4 communication board is a data capture board, (...)

User guide: PDF
Not available on TI.com
Driver or library

SNAC032 MSP430 Interface to LMP91000 and LMP91002 Code Library

Supported products & hardware

Supported products & hardware

Products
Signal conditioners
LMP91000 Configurable AFE potentiostat for low-power electrochemical cell monitoring LMP91002 Configurable AFE for Low Power H2S and CO Sensing Applications
Simulation model

LMP91000 PSPICE Model

SNAM018.ZIP (32 KB) - PSpice Model
Simulation model

LMP91000 PSpice Model For Configurable AFE Potentiostat

SNAM258.ZIP (34 KB) - PSpice Model
Package Pins Download
WSON (NHL) 14 View options

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