Air-fuel ratio sensor
First Claim
Patent Images
1. An air-fuel ratio sensor for sensing a gaseous atmosphere, comprising:
- a detection element having a pair of porous electrodes on an oxygen ion-conductive solid electrolyte;
a gas-diffusion limiting portion for limiting diffusion of the gaseous atmosphere into one of said pair of porous electrodes, said gas-diffusion limiting portion being provided such that said one of said pair of porous electrodes communicates with the gaseous atmosphere through said gas-diffusion limiting portion, said gas-diffusion limiting portion being made of porous material having a porosity, a mean pore size and a thickness in the ranges of 10%-30%, 1 μ
m-3 μ
m and 200 μ
m-1000 μ
m, respectively;
means for applying an electric voltage of a predetermined value between said pair of porous electrodes to transfer oxygen into and out of another one of said porous electrodes, the oxygen transmission accompanying electric current through said detection element; and
means for measuring the air/fuel ration of the gaseous atmosphere based on the current flow through said detection element.
1 Assignment
0 Petitions
Accused Products
Abstract
An air-fuel ratio sensor in which the temperature dependence as well as the pressure dependence of a detection signal obtained by the air-fuel ratio sensor are suppressed to thereby improve the accuracy in air-fuel ratio by the air-fuel ratio sensor, which is not influenced by deposits in an exhaust gas and which is high in durability. The suppression is achieved by using a gas-diffusion limiting portion having such critical parameters as 10-30% porosity, 1-3 micrometers mean pore size and 200-1000 micrometers thickness. Alternatively the parameters may be 15-25% porosity, 0.1-7 micrometers pore size and 400-800 micrometers thickness.
17 Citations
15 Claims
-
1. An air-fuel ratio sensor for sensing a gaseous atmosphere, comprising:
-
a detection element having a pair of porous electrodes on an oxygen ion-conductive solid electrolyte; a gas-diffusion limiting portion for limiting diffusion of the gaseous atmosphere into one of said pair of porous electrodes, said gas-diffusion limiting portion being provided such that said one of said pair of porous electrodes communicates with the gaseous atmosphere through said gas-diffusion limiting portion, said gas-diffusion limiting portion being made of porous material having a porosity, a mean pore size and a thickness in the ranges of 10%-30%, 1 μ
m-3 μ
m and 200 μ
m-1000 μ
m, respectively;means for applying an electric voltage of a predetermined value between said pair of porous electrodes to transfer oxygen into and out of another one of said porous electrodes, the oxygen transmission accompanying electric current through said detection element; and means for measuring the air/fuel ration of the gaseous atmosphere based on the current flow through said detection element. - View Dependent Claims (2, 3)
-
-
4. An air-fuel ration sensor for sensing a gaseous atmosphere, comprising:
-
a detection element having a pair of porous electrodes on an oxygen ion-conductive solid electrolyte; a gas-diffusion limiting portion for limiting diffusion of the gaseous atmosphere into one of said pair of porous electrodes, said gas-diffusion limiting portion being provided such that said one of said pair of porous electrodes communicates with the gaseous atmosphere through said gas-diffusion limiting portion, said gas-diffusion limiting portion being made of porous material having a porosity, a pore size and a thickness in the ranges of 15%-25%, 0.1 μ
m-7 μ
m and 400 μ
m-800 μ
m, respectively;means for applying an electric voltage of a predetermined value between said pair of porous electrodes to transfer oxygen into and out of another one of said pair of porous electrodes, the oxygen transmission accompanying electric current through said detection element; and means for measuring the air/fuel ratio of the gaseous atmosphere based on the current flow through said detection element. - View Dependent Claims (5, 6, 7)
-
-
8. An air-fuel ratio sensor for sensing a gaseous atmosphere, comprising:
-
an oxygen concentration cell element having first and second porous electrodes on an oxygen ion-conductive solid electrolyte; an oxygen pumping element having third and fourth porous electrodes on both sides of an oxygen ion-conductive solid electrolyte; means for defining a gas compartment disposed between said second electrode of said oxygen concentration cell element and said third electrode of said oxygen pumping element; a gas-diffusion limiting portion for limiting the diffusion of the gaseous atmosphere into said gas compartment, said gas-diffusion limiting portion being disposed such that said gas compartment communicates with the gaseous atmosphere through said gas-diffusion limiting portion, said gas-diffusion limiting portion being formed of porous material having a porosity, a mean pore size and a thickness in the ranges of 10%-30%, 1 μ
m-3 μ
m and 200 μ
m-1000 μ
m, respectively;means for controlling an electric current flow through said oxygen pumping element, the current flow being controlled to pump oxygen into or out of said gas compartment so that an electric voltage between said electrodes of said oxygen concentration cell element is maintained at a predetermined value; and means for measuring the air/fuel ratio of the gaseous atmosphere based on the electric current flow through said oxygen pumping element as a result of said control means. - View Dependent Claims (9, 10, 11, 12, 13, 14)
-
-
15. An air-fuel ratio sensor for sensing a gaseous atmosphere, comprising:
-
an oxygen concentration cell element having first and second porous electrodes on an oxygen ion-conductive solid electrolyte; an oxygen pumping element having third and fourth porous electrodes on both sides of an oxygen ion-conductive solid electrolyte; means for defining a gas compartment disposed between said second electrode of said oxygen concentration cell element and said third electrode of said oxygen pumping element; a gas-diffusion limiting portion for limiting the diffusion of the gaseous atmosphere into said gas compartment, said gas-diffusion limiting portion being disposed such that said gas compartment communicates with the gaseous atmosphere through said gas-diffusion limiting portion, said gas-diffusion limiting portion being formed of porous material having a porosity, a pore size and a thickness in the ranges of 15%-25%, 0.1 μ
m-7 μ
m and 400 μ
m-800 μ
m, respectively;means for controlling an electric current flow through said oxygen pumping element, the current flow being controlled to pump oxygen into or out of said gas compartment so that an electric voltage between said electrodes of said oxygen concentration cell element is held at a predetermined value; and means for measuring the air/fuel ratio of the gaseous atmosphere based on the electric current flow through said oxygen pumping element as a result of said control means.
-
Specification