| CPC G01N 27/41 (2013.01) [G01N 27/4073 (2013.01); G01N 27/4075 (2013.01); G01N 27/4076 (2013.01); G01N 27/4077 (2013.01); G01N 27/409 (2013.01)] | 2 Claims |
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1. A gas sensor comprising:
a sensor element for measuring gas concentration, the sensor element including a solid electrolyte having oxygen ion conductivity and having a first principal surface and a second principal surface facing each other, a measurement electrode mounted on the first principal surface of the solid electrolyte and exposed to measurement gas, and a reference electrode mounted on the second principal surface of the solid electrolyte and exposed to reference gas,
an insulator which holds the sensor element;
a housing which holds the insulator;
an inner cover held by the housing and covering a projecting section of the sensor element, the projecting section being projected from a tip portion of the insulator; and
an outer cover held by the housing and covers the inner cover, wherein:
the projecting section having a gas measurement section includes an introduction section into which the measurement gas is introduced, a part of the solid electrolyte, the measurement electrode, and the reference electrode;
when an axial direction is a direction of a center axis passing through the center of the sensor element, a circumferential direction is a direction rotating around the axial direction, and in the axial direction, a tip end side is a side toward which the projecting section is projected from the insulator and a base end side is a side opposite to the tip end side,
the inner cover has an inner side wall section which is circular and is provided along the circumferential direction of the inner cover, a plurality of inner through holes through which the measurement gas passes being formed in the circumferential direction in a part of the inner side wall section in the circumferential direction of the inner side wall section, the part of the inner side wall section being closer to the base end side in the axial direction than the gas measurement section is and having a width in the axial direction;
the outer cover has an outer side wall section which is circular and is provided along the circumferential direction of the outer cover, a plurality of outer through holes through which the measurement gas passes being formed in a part of the outer side wall section in the circumferential direction of the outer side wall section, the part of the outer side wall section being closer to the tip end side in the axial direction than the gas measurement section is and having a width in the axial direction;
a distance between a center of each of the inner through holes and a center of a corresponding one of the outer through holes in the axial direction is in a range of 5 to 11 mm,
interface capacitance between crystal particles constituting the solid electrolyte and the measurement electrode and between the crystal particles constituting the solid electrolyte and the reference electrode is not more than 150 μF, and
interface resistance is not more than 80Ω, the interface resistance being resistance generated between the crystal particles constituting the solid electrolyte and the measurement electrode and between the crystal particles constituting the solid electrolyte and the reference electrode.
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