| CPC G01N 27/41 (2013.01) [G01M 15/102 (2013.01); G01N 27/27 (2013.01)] | 4 Claims |
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1. A gas sensor capable of measuring concentrations of a plurality of sensing target gas components in a measurement gas at least containing water vapor and carbon dioxide, the gas sensor comprising:
a sensor element including a structure formed of an oxygen-ion conductive solid electrolyte; and
a controller controlling operation of the gas sensor, wherein
the sensor element includes:
a gas inlet through which the measurement gas is introduced;
a first chamber, a second chamber, and a third chamber communicating sequentially from the gas inlet via different diffusion control parts;
a reference pump electrode being in contact with a reference gas;
a first pump cell including a first inner electrode disposed to face the first chamber, the reference pump electrode, and a portion of the solid electrolyte present between the first inner electrode and the reference pump electrode;
a second pump cell including a second inner electrode disposed to face the second chamber, the reference pump electrode, and a portion of the solid electrolyte present between the second inner electrode and the reference pump electrode; and
a third pump cell including a third inner electrode disposed to face the third chamber, the reference pump electrode, and a portion of the solid electrolyte present between the third inner electrode and the reference pump electrode,
the first pump cell pumps out oxygen from the first chamber so that substantially all of the water vapor and the carbon dioxide contained in the measurement gas introduced through the gas inlet into the first chamber are decomposed,
the second pump cell pumps in oxygen to the second chamber to selectively oxidize, in the second chamber, hydrogen contained in the measurement gas, which has been generated by decomposition of the water vapor and is introduced from the first chamber into the second chamber,
the third pump cell pumps in oxygen to the third chamber to oxidize, in the third chamber, carbon monoxide contained in the measurement gas, which has been generated by decomposition of the carbon dioxide and is introduced from the second chamber into the third chamber,
the controller includes:
a first pump cell control element controlling a first voltage applied across the first inner electrode and the reference pump electrode of the first pump cell and a first time of application therefor;
a second pump cell control element controlling a second voltage applied across the second inner electrode and the reference pump electrode of the second pump cell and a second time of application therefor;
a third pump cell control element controlling a third voltage applied across the third inner electrode and the reference pump electrode of the third pump cell and a third time of application therefor;
a water vapor concentration identification element identifying a concentration of the water vapor contained in the measurement gas based on a magnitude of a current flowing between the second inner electrode and the reference pump electrode during the second time of application when the second pump cell pumps in oxygen to the second chamber; and
a carbon dioxide concentration identification element identifying a concentration of the carbon dioxide contained in the measurement gas based on a magnitude of a current flowing between the third inner electrode and the reference pump electrode at during the third time of application when the third pump cell pumps in oxygen to the third chamber,
the first pump cell control element controls the first pump cell to apply the first voltage intermittently at intervals of 10 ms or less as a duration of the first time of application so that a non-application electromotive force V1 is maintained at a predetermined target value in a range of 1000 mV to 1500 mV, the non-application electromotive force V1 being generated between the first inner electrode and the reference pump electrode when the first voltage is not applied across the first inner electrode and the reference pump electrode,
the second pump cell control element controls the second pump cell to apply the second voltage operate intermittently at intervals of 10 ms or less as a duration of the second time so that non-application electromotive force V2 is maintained at a predetermined target value in a range of 250 mV to 450 mV, the non-application electromotive force V2 being generated between the second inner electrode and the reference pump electrode when the second voltage is not applied across the second inner electrode and the reference pump electrode, and
the third pump cell control element controls the third pump cell to apply the third voltage intermittently at intervals of 10 ms or less as a duration of the third time of application so that non-application electromotive force V3 is maintained at a predetermined target value in a range of 100 mV to 300 mV, the non-application electromotive force V3 being generated between the third inner electrode and the reference pump electrode when the third voltage is not applied across the third inner electrode and the reference pump electrode.
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