• Methane and Carbon Monoxide Sensor
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Methane and Carbon Monoxide Sensor

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  • Price

    Price on request   ≥1piece

  • Model Number

    TGS3870

  • Data Sheet

  • Package

    Original packaging

  • Specs

    TGS3870

  • Quantity

    - +

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Product Description

Features:

* Miniature size and low power consumption
* High sensitivity and selectivity to both methane and carbon monoxide (CO)
* Low sensitivity to alcohol vapor
* Long life and low cost


Applications:

* Combination methane and carbon monoxide detectors

 

 

Specifications

Target gases Methane, Carbon Monoxide
Typical detection range Methane - 500-12500 ppm
Carbon monoxide - 50-1000ppm
Sensing principle MOS type 
Precautions for use
Driving voltages Heater Voltage:VHH = 0.9V(5sec.)
VHL = 0.2V(15sec.)
Circuit Voltage:5.0V DC pulse
Power consumption 120mW VHH = 0.9V DC
11mW VHL = 0.2V DC
38mW average
Dimensions φ9.2×13.0mm
Weight Approx. 1.1g

 


TGS 3870-B00 is a micro-bead type semiconductor gas sensor for the detection of both methane and carbon monoxide. Using a micro-bead gas sensing structure, both methane and carbon monoxide can be detected with a single sensor element by periodic application of two different heater voltages (high and low). Miniaturization of the gas sensing bead results in a heater power consumption of only 38mW (average).
TGS 3870-B00 has low sensitivity to alcohol vapors (a typical interference gas in the residential environment) and has high durability, making the sensor ideal for consumer market gas alarms.


The figure below represents typical sensitivity characteristics, all data having been gathered at standard test conditions (see reverse side of this sheet). The Y-axis is indicated as sensor resistance ratio (Rs/Ro) which is defined as follows:
Rs = Sensor resistance in displayed gases at various concentrations
Ro = Sensor resistance in 3000ppm of methane


Sensitivity Characteristics (methane):


The figure below represents typical sensitivity characteristics, all data having been gathered at standard test conditions (see reverse side of this sheet). The Y-axis is indicated as sensor resistance ratio (Rs/Ro) which is defined as follows:
Rs = Sensor resistance in displayed gases at various concentrations
Ro = Sensor resistance in 100ppm of CO


Sensitivity Characteristics (CO):