Oxygen concentration detecting system using oxygen sensor including oxygen ion pump

US 4,601,809 A
Filed: 04/15/1985
Issued: 07/22/1986
Est. Priority Date: 04/16/1984
Status: Expired due to Fees

First Claim

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1. A system for detecting the concentration of oxygen in a gas, comprising:

an oxygen sensor comprising gas admitting means for admitting a fraction of a gas subject to inspection, diffusion restricting means for offering a resistance to the inflow of said gas into said gas admitting means, a first solid electrolyte cell which comprises a layer of an oxygen ion conductive solid electrolyte with its one surface exposed to a preselected gas and the opposite surface exposed to a gas in said gas admitting means and produces an electrical output representing a difference between a partial pressure of oxygen of said preselected gas and a partial pressure of oxygen of the gas in said gas admitting means, and a second solid electrolyte cell which comprises a body of an oxygen ion conductive solid electrolyte and a pair of electrodes arranged such that an externally supplied DC current flows in the solid electrolyte body to cause migration of oxygen ions through the solid electrolyte body and controls the magnitude of the partial pressure of oxygen in a gas in said gas admitting means in dependence on the intensity of said current;

current supply means for supplying said DC current to said second solid electrolyte cell and controlling said current so as to render said output of said first solid electrolyte cell equal to a predetermined target value;

measurement means for detecting the intensity of said current and producing a provisional output signal representing the detected current intensity;

atmospheric condition determining means for continually making a determination whether the gas in said admitting means is equivalent to the atmospheric air or not and producing an electrical signal indicating the result of the determination;

shift means for varying said target value in response to said signal produced by said determining means such that when said signal produced by said determining means indicates that the gas in said gas admitting means is equivalent to the atmospheric air the intensity of said current becomes lower than the intensity of the same current required if the target value is not varied under the same atmospheric condition; and

correction means for correcting said provisional output signal based on the value of said provisional output signal produced when the gas in said gas admitting means is determined equivalent to the atmospheric air and thereby producing an output signal representing the concentration of oxygen in the gas subject to inspection.

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Abstract

A system for detecting the concentration of oxygen in a gas which comprises an oxygen sensor having a first solid electrolyte cell, which produces an electrical output representing a difference between oxygen partial pressures on the opposite two sides of a solid electrolyte layer, and a second solid electrolyte cell which acts as an oxygen ion pump by application of a current thereto and is used to control the oxygen partial pressure in a fraction of the gas admitted into the sensor. The current is controlled so as to render the output of the oxygen sensor equal to a target value. The system includes means for continuously making a judgement whether the gas under inspection is equivalent to the air or not. When the atmospheric condition of the gas is established the target value is varied so as to avoid undesirable increase in the current intensity. This is favorable for durability of the oxygen sensor. A provisional output signal representing the current intensity is corrected based on the output value obtained under the atmospheric condition. This system is suitable for use in detecting the air/fuel ratio in an internal combustion engine by detecting oxygen concentration in the exhaust gas.

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19 Claims

1. A system for detecting the concentration of oxygen in a gas, comprising:
- an oxygen sensor comprising gas admitting means for admitting a fraction of a gas subject to inspection, diffusion restricting means for offering a resistance to the inflow of said gas into said gas admitting means, a first solid electrolyte cell which comprises a layer of an oxygen ion conductive solid electrolyte with its one surface exposed to a preselected gas and the opposite surface exposed to a gas in said gas admitting means and produces an electrical output representing a difference between a partial pressure of oxygen of said preselected gas and a partial pressure of oxygen of the gas in said gas admitting means, and a second solid electrolyte cell which comprises a body of an oxygen ion conductive solid electrolyte and a pair of electrodes arranged such that an externally supplied DC current flows in the solid electrolyte body to cause migration of oxygen ions through the solid electrolyte body and controls the magnitude of the partial pressure of oxygen in a gas in said gas admitting means in dependence on the intensity of said current;
  
  current supply means for supplying said DC current to said second solid electrolyte cell and controlling said current so as to render said output of said first solid electrolyte cell equal to a predetermined target value;
  
  measurement means for detecting the intensity of said current and producing a provisional output signal representing the detected current intensity;
  
  atmospheric condition determining means for continually making a determination whether the gas in said admitting means is equivalent to the atmospheric air or not and producing an electrical signal indicating the result of the determination;
  
  shift means for varying said target value in response to said signal produced by said determining means such that when said signal produced by said determining means indicates that the gas in said gas admitting means is equivalent to the atmospheric air the intensity of said current becomes lower than the intensity of the same current required if the target value is not varied under the same atmospheric condition; and
  
  correction means for correcting said provisional output signal based on the value of said provisional output signal produced when the gas in said gas admitting means is determined equivalent to the atmospheric air and thereby producing an output signal representing the concentration of oxygen in the gas subject to inspection.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A system according to claim 1, wherein said gas admitting means comprises a space defined between said first and second solid electrolyte cells.
  - 3. A system according to claim 2, wherein said diffusion restricting means comprises a narrow inlet opening which communicates with said space.
  - 4. A system according to claim 3, wherein the solid electrolyte layer of said first solid electrolyte cell is in the form of a substantially flat plate and the solid electrolyte body of said second solid electrolyte cell is in the form of a substantially flat plate which is held opposite to the solid electrolyte plate of said first solid electrolyte cell so as to provide a narrow gap therebetween, said narrow gap being used as said space and an end portion of said gap being used as said inlet opening.
  - 5. A system according to claim 4, wherein one of said electrodes of said second solid electrolyte cell is formed on the surface of the solid electrolyte plate which faces said gap and the other is formed on the opposite surface of the solid electrolyte plate.
  - 6. A system according to claim 1, wherein said preselected gas is the gas subject to inspection.
  - 7. A system according to claim 1, wherein said current supply means comprises means for producing a deviation signal representing a difference between said output of said first solid electrolyte cell and said target value and means for controlling said current in response to said deviation signal.
  - 8. A system according to claim 1, wherein said measurement means comprises a resistor through which said current flows to said second solid electrolyte cell and means for producing a voltage signal representing a voltage across said resistor as said provisional output signal.
  - 9. A system according to claim 8, wherein said shift means comprises switching means which is responsive to said signal produced by said atmospheric condition determining means and normally selects a first voltage as said target value but selects a second lower voltage as said target value when said signal produced by said determining means indicates that the gas in said gas admitting means is equivalent to the atmospheric air.
  - 10. A system according to claim 9, wherein said correction means comprises means for dividing said provisional output signal produced at any moment by a voltage signal which is obtained by holding said provisional output signal while the gas in said gas admitting means is equivalent to the atmospheric air to utilize the result of the division as said output signal.

11. A system for detecting the air/fuel ratio in an internal combustion engine, comprising:
- an oxygen sensor comprising gas admitting means for admitting a fraction of the exhaust gas of the engine, diffusion restricting means for offering a resistance of the inflow of the exhaust gas into said gas admitting means, a first solid electrolyte cell which comprises a layer of an oxygen ion conductive solid electrolyte with its outer one surface exposed to the exhaust gas and the opposite surface exposed to the exhaust gas admitted into said gas admitting means and produces an electrical output representing a difference between a partial pressure of oxygen in the exhaust gas to which said outer one surface is exposed and a partial pressure of the gas in said gas admitting means, and a second solid electrolyte cell which comprises a body of an oxygen ion conductive solid electrolyte and a pair of electrodes arranged such that an externally supplied DC current flows in the solid electrolyte body to cause migration of oxygen ions through the solid electrolyte body and controls the magnitude of the partial pressure of oxygen in the gas in said gas admitting means in dependence on the intensity of said current;
  
  current supply means for supplying said DC current to said second solid electrolyte cell and controlling said current so as to render said output of said first solid electrolyte cell equal to a predetermined target value;
  
  measurement means for detecting the intensity of said current and producing a provisional output signal representing the detected current intensity;
  
  atmospheric condition determining means for continually making a determination whether the gas in said gas admitting means is equivalent to the atmospheric air or not and producing an electrical signal indicating the result of the determination;
  
  shift means for varying said target value in response to said signal produced by said determining means such that when said signal produced by said determining means indicates that the gas in said gas admitting means is equivalent to the atmospheric air the intensity of said current becomes lower than the intensity of the same current required if said target value is not varied under the same atmospheric condition; and
  
  correction means for correcting said provisional output signal based on the value of said provisional output signal produced when the gas in said gas admitting means is equivalent to the atmospheric air and thereby producing an output signal representing the concentration of oxygen in the exhaust gas and accordingly representing the air/fuel ratio in the engine.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
- - 12. A system according to claim 11, wherein the solid electrolyte layer of said first solid electrolyte cell is in the form of a substantially flat plate and the solid electrolyte body of said second solid electrolyte cell is in the form of a substantially flat plate which is held opposite to the solid electrolyte plate of said first solid electrolyte cell so as to provide a narrow space therebetween, said narrow space being used as said gas admitting means and an end portion of said narrow space being used as said diffusion restricting means.
  - 13. A system according to claim 12, wherein said first solid electrolyte cell further comprises two electrode layers formed on the two opposite major surfaces of the solid electrolyte plate, respectively, and wherein a first one of said electrodes of said second solid electrolyte cell being formed on the surface of the solid electrolyte plate which faces said space and a second one being formed on the opposite surfaces of the solid electrolyte plate.
  - 14. A system according to claim 13, wherein said current flows in said second solid electrolyte cell from said second electrode to said first electrode.
  - 15. A system according to claim 13, wherein said current supply means comprises means for producing a deviation signal representing a difference between said output of said first solid electrolyte cell and said target value and means for controlling said current in response to said deviation signal.
  - 16. A system according to claim 15, wherein said measurement means comprises a resistor through which said current flows to said second solid electrolyte cell and means for producing a voltage signal representing a voltage across said resistor as said provisional output signal.
  - 17. A system according to claim 16, wherein said shift means comprises switching means which is responsive to said signal produced by said determining means and normally selects a first voltage as said target value but selects a second lower voltage as said target value when said signal produced by said determining means indicates that the gas in said gas admitting means is equivalent to the atmospheric air.
  - 18. A system according to claim 17, wherein said atmospheric condition determining means comprises means for detecting cutoff of fuel feed to the engine.
  - 19. A system according to claim 18, wherein said correction means comprises means for dividing said provisional output signal produced at any moment by a voltage signal which is obtained by holding said provisional output signal after the lapse of a predetermined length of time from the moment of detection of cutoff of fuel feed by said determining means to utilize the result of the division as said output signal.

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Current Assignee
Nissan Motor Co., Ltd.
Original Assignee
Nissan Motor Co., Ltd.
Inventors
Kitahara, Tsuyoshi
Primary Examiner(s)
Niebling, John F.
Assistant Examiner(s)
Nguyen, Nam X.

Application Number

US06/723,298
Time in Patent Office

463 Days
Field of Search

204/401, 204/402, 204/406, 204/412, 204/424, 204/425, 204/426, 204/427, 123/489, 123/332, 123/333, 123/440, 73/1 G, 60/276
US Class Current

204/406
CPC Class Codes

G01N 27/4065 Circuit arrangements specia...

Oxygen concentration detecting system using oxygen sensor including oxygen ion pump

First Claim

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Abstract

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19 Claims

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Oxygen concentration detecting system using oxygen sensor including oxygen ion pump

First Claim

1 Assignment

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Abstract

Citations

19 Claims

Specification

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Solutions

Use Cases

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