초록 ▼

An engine control system provides a gas concentration detection output irrespective of variation in product or change due to passage of time using an on-vehicle exhaust gas sensor. An exhaust gas sensor 107 and an electric heater 119 are connected to a microprocessor 120 a , and an oxygen-concentr

An engine control system provides a gas concentration detection output irrespective of variation in product or change due to passage of time using an on-vehicle exhaust gas sensor. An exhaust gas sensor 107 and an electric heater 119 are connected to a microprocessor 120 a , and an oxygen-concentration detection output Ip of exhaust gas, a calibration signal Vc and an internal resistance detection signal Vr are inputted through A/D converter 125 . A program memory 121 a stores standard characteristic data of the exhaust gas sensor 107 . An atmospheric air oxygen-concentration detection output Ip 0 under fuel-cut drive is measured and monitored. The electric heater 119 controls temperature so that the output coincides with the stored value. Current internal resistance of the exhaust gas sensor 107 is read and stored as target resistance. In normal driving, the electric heater 119 is controlled so that the internal resistance becomes the target resistance.

대표청구항 ▼

1. An engine control system comprising:an exhaust gas sensor having a sensor element that is provided with an electric heater for controlling temperature near the sensor element and appropriately operating at a predetermined activation temperature, measuring oxygen concentration of exhaust gas of th

1. An engine control system comprising:an exhaust gas sensor having a sensor element that is provided with an electric heater for controlling temperature near the sensor element and appropriately operating at a predetermined activation temperature, measuring oxygen concentration of exhaust gas of the engine and outputting oxygen-concentration data, and outputting predetermined oxygen-concentration data when said exhaust gas is in an atmospheric air exchange state and the temperature near said sensor element is at the predetermined activation temperature;a standard characteristic storage memory in which a functional expression or a data table showing a relation between said oxygen-concentration data and an air-fuel ratio of said engine at said predetermined activation temperature and oxygen-concentration data in the mentioned atmospheric air exchange state are stored;atmospheric air judging means for judging an atmospheric air state to determine that said exhaust gas is in an atmospheric air exchange state that the exhaust gas has been exchanged with said atmospheric air when fuel supply to the mentioned engine has been stopped exceeding a predetermined time;first heater control means that controls said electric heater so that said oxygen-concentration data coincide with the oxygen-concentration data stored in said standard characteristic storage memory when said atmospheric air state judging means judges that the exhaust gas is in the atmospheric air state;calibration signal reading means that stores internal resistance of said exhaust gas sensor or internal resistance of said electric heater at the point of time when the oxygen-concentration data outputted by said exhaust gas sensor being controlled by said first heater control means comes to coincide to said standard value data as a target internal resistance;second heater control means that operates when fuel is supplied to said engine to control the foregoing electric heater so that a current value of said internal resistance of said exhaust gas sensor or the electric heater coincides to said target internal resistance; andair-fuel ratio calculating means that has a microprocessor and calculates the current air-fuel ratio on the basis of the current oxygen-concentration data of said exhaust gas sensor controlled by said second heater control means and said functional expression or data table stored in said standard characteristic storage memory. 2. The engine control system according to claim 1, wherein said atmospheric air state judging means is provided with scavenging air judging means for judging that the exhaust gas in an exhaust pipe has been exchanged with said atmospheric air by detecting that an integrated value of an engine intake air amount or an integrated value of an engine speed exceeds a predetermined value under fuel-cut driving condition that fuel supply to said engine has been continuously stopped. 3. The engine control system according to claim 1, wherein said atmospheric air state judging means is provided with time lag detecting means for judging that a time lag from the time when a power supply switch for driving said engine is turned off to the time when said power supply switch is turned on exceeds a predetermined value and that said exhaust gas has been exchanged with the atmospheric air when said engine is stopped. 4. The engine control system according to claim 1, wherein said calibration signal reading means includes moving average means that calculates an average value of predetermined numbers of latest target internal resistances among plural target internal resistances obtained every time said first heater control means is performed. 5. The engine control system according to claim 1, wherein said exhaust gas sensor comprises:a gas-detecting chamber that includes a gas passage wall composed of a gas diffusion porous material, an oxygen pump element composed of a zirconia solid electrolyte material, and an oxygen-concentration cell element, a part of the exhaust gas of said engine being permitted to pass through said gas-detecting chamber;an oxygen reference generation current supply circuit for supplying an oxygen reference generation electric current to said oxygen-concentration cell element;a pump current supply circuit for controlling a pump current of said oxygen pump element so that the oxygen concentration of said gas-detecting chamber comes to be an established value;an internal resistance detecting circuit for detecting an internal resistance when a predetermined high-frequency current flows through said oxygen-concentration cell element;a calibration resistor for compensating the oxygen-concentration data of said exhaust gas sensor at a predetermined activation temperature when said exhaust gas is in the atmospheric air state and calibrating so that the oxygen-concentration data of a first article of the exhaust gas sensor is equal to standard value data stored in said standard characteristic storage memory; andan electric heater that is disposed near said gas-detecting chamber and activates and heats said gas-detecting chamber while monitoring the resistance detected by said internal resistance detection circuit; and whereinthe oxygen-concentration data of the gas-detecting chamber is obtained by detecting said pump current. 6. The engine control system according to claim 1, wherein said microprocessor includes a program memory such as flash memory, a nonvolatile memory such as FEPROM, and an arithmetic memory such as RAM memory;said standard characteristic storage memory includes said program memory or said nonvolatile data memory, and in which characteristic data are transferred from an external tool and written in said standard characteristic storage memory; andthe engine control system further comprising data storing means in which a moving average value as to a target internal resistance value or target internal resistance stored in said arithmetic memory and used is evacuated and stored in said nonvolatile data memory when the engine is stopped. 7. The engine control system according to claim 6, further comprising:initial value evacuating and transferring means that writes and stores a first stored value or an initial average stored value of the target internal resistance stored in said arithmetic memory in said nonvolatile data memory;deterioration detecting means for judging that said exhaust gas sensor has deteriorated when a difference between a current target internal resistance and said first stored value or said initial average stored value exceeds a predetermined value; andwarning means that generates a error warning output in response to judgment of said deterioration detecting means. 8. The engine control system according to claim 6, further comprising:appropriate resistance range data stored in said standard characteristic storage memory to regulates an allowable variation range of the internal resistance when temperature of said exhaust gas sensor is high; anderror detecting means for judging that there is any error in said exhaust gas sensor when said internal resistance is out of said appropriate resistance range data when sand first heater control means makes a heat control of said exhaust gas sensor and makes a control of power application to said electric heater so that the oxygen-concentration data coincide with the standard value data of the oxygen-concentration data in the atmospheric air state stored in said standard characteristic storage memory;wherein an error warning output is generated in response to judgment of said error detecting means. 9. The engine control system according to claim 6, further comprising:current value evacuating and transferring means that writes and stores the latest stored value or a moving average value of plural target internal resistances read by said calibration signal reading means and stored in said arithmetic memory; andinternal resistance reading means for determining an internal resistance o f said exhaust gas sensor used as a target value for the control of said electric heater by said second heater control means;wherein as for the internal resistance read out by said internal resistance reading means, the latest stored value or the moving average value obtained from said current value evacuating means is used at normal drive start operation, and said read and stored value or said moving average value of plural values read and stored is used after said calibration signal reading means reads and stores a new target internal resistance during driving the engine. 10. The engine control system according to claim 9, wherein said standard characteristic storage memory includes temporary target internal resistance data stored in said standard characteristic storage memory and used until the target internal resistance is calculated by said first heater control means, and said internal resistance reading means reads and uses said temporary target resistance value at first drive start operation for control of said electric heater by said second heater control means.