Method and system for controlling the mixture air-to-fuel ratio
First Claim
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1. An air-fuel mixture ratio control system for internal combustion engines comprising:
- an oxygen responsive sensor, positioned in an exhaust passage of an engine, for producing a sensor signal indicative of the oxygen concentration threrein;
a comparison circuit, connected to said sensor, for producing a comparison signal in response to said sensor signal, said comparison signal having two constant signal levels indicative of the oxygen presence and the oxygen absence, respectively;
an integration circuit, connected to said comparison circuit and including an operational amplifier and a capacitor adapted to be charged and discharged in response to said comparison circuit, for producing an integration signal changing in the increasing and decreasing directions in response to said signal levels of said comparison signal;
a mixture supply controller, positioned in an intake passage and connected to said integration circuit, for supplying said engine with air-fuel mixture, the air-to-fuel ratio thereof being responsive to engine operating conditions and said integration signal;
a condition detector, coupled to said engine, for producing a detection signal indicative of at least one of full-opening and full-closing of a throttle valve and inoperativeness of said sensor; and
an integration half circuit, connected between said condition detector and said integration circuit and including switching means connected across said capacitor, for short-circuiting said capacitor by said switching means in response to said detection signal to thereby halt the integration operation and cause said mixture air-to-fuel ratio to be irresponsive to said integration signal.
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Abstract
A closed loop air-to-fuel ratio control system having an oxygen responsive sensor and a feedback circuit is disclosed. The sensor is disposed in an exhaust passage to produce a voltage indicative of the oxygen concentration in the exhaust gas. This voltage is integrated in the feedback circuit to cause the mixture air-to-fuel ratio to be corrected in response thereto. During specific engine conditions such as engine idling and low temperature of the exhaust gas, the integration is stopped to thereby switch off the closed loop to an open loop. The engine, on this occasion, can be supplied with the air-fuel mixture of an arbitrary ratio irrespective of the oxygen concentration in the exhaust gas, resulting in the optimum air-to-fuel control well-matched to the engine conditions.
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Citations
9 Claims
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1. An air-fuel mixture ratio control system for internal combustion engines comprising:
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an oxygen responsive sensor, positioned in an exhaust passage of an engine, for producing a sensor signal indicative of the oxygen concentration threrein; a comparison circuit, connected to said sensor, for producing a comparison signal in response to said sensor signal, said comparison signal having two constant signal levels indicative of the oxygen presence and the oxygen absence, respectively; an integration circuit, connected to said comparison circuit and including an operational amplifier and a capacitor adapted to be charged and discharged in response to said comparison circuit, for producing an integration signal changing in the increasing and decreasing directions in response to said signal levels of said comparison signal; a mixture supply controller, positioned in an intake passage and connected to said integration circuit, for supplying said engine with air-fuel mixture, the air-to-fuel ratio thereof being responsive to engine operating conditions and said integration signal; a condition detector, coupled to said engine, for producing a detection signal indicative of at least one of full-opening and full-closing of a throttle valve and inoperativeness of said sensor; and an integration half circuit, connected between said condition detector and said integration circuit and including switching means connected across said capacitor, for short-circuiting said capacitor by said switching means in response to said detection signal to thereby halt the integration operation and cause said mixture air-to-fuel ratio to be irresponsive to said integration signal. - View Dependent Claims (2)
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3. A system for controlling the mixture air-to-fuel ratio comprising:
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sensor means positioned to be responsive to the exhaust gas of an engine for producing an output signal indicative of the air-to-fuel ratio of mixture supplied to said engine; integrator means including an amplifier and a capacitor connected across said amplifier for producing an output signal by charging and discharging said capacitor in response to said output signal of said sensor means; mixture control means adapted to control the air-to-fuel ratio of mixture for said engine in accordance with engine conditions and said output signal of said integrator means; detector means adapted to produce an output signal indicative of a predetermined engine condition; and switch means connected across said capacitor of said integrator means to stop the operation of said intergrator means by short-circuiting said capacitor in response to said output signal of said detector means, whereby the air-to-fuel ratio of mixture for said engine is controlled irrespective of said output signal of said sensor means. - View Dependent Claims (4, 5, 6, 7)
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8. A method for controlling the air-to-fuel ratio of mixture comprising the steps of:
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detecting the absence and presence of oxygen in the exhaust gas produced from an engine; integrating the result of said oxygen detecting step with respect to time by an integration circuit having an operational amplifier and a capacitor connected to be charged and discharged; detecting at least two predetermined operating conditions of said engine; preventing said integration of said integration circuit in said integrating step by short-circuiting said capacitor while at least one of said two predetermined operating conditions is detected by said condition detecting step to thereby keep the integration output at a constant value irrespective of changes of the result of said oxygen detecting step; and controlling the air-to-fuel ratio of mixture supplied to said engine in accordance with said integration output which is different from said constant value.
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9. An air-fuel mixture ratio control system for internal combustion engines comprising:
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an oxygen responsive sensor, positioned in an exhaust passage of an engine, for producing a sensor signal indicative of the oxygen concentration therein; a comparison circuit, connected to said sensor, for producing a comparison signal in response to said sensor signal, said comparison signal having two constant signal levels indicative of the oxygen presence and the oxygen absence, respectively; an integration circuit, connected to said comparison circuit and including an operational amplifier and a capacitor adapted to be charged and discharged in response to said comparison circuit for producing an integration signal changing in the increasing and decreasing directions in response to said signal levels of said comparison signal; a mixture supply controller, positioned in an intake passage and connected to said integration circuit, for supplying said engine with air-fuel mixture, the air-to-fuel ratio thereof being responsive to engine operating conditions and said integration signal; a condition detector, coupled to said engine and separate from said oxygen responsive sensor for producing a detection signal indicative of full-opening and full-closing of a throttle valve, and inoperativeness of said sensor; and an integration halt circuit, connected between said condition detector and said integration circuit and including switching means connected across said capacitor, for short-circuiting said capacitor by said switching means in response to said detection signal to thereby halt the integration operation and cause said mixture air-to-fuel ratio to be irresponsive to said integration signal.
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Specification
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Current AssigneeNippondenso Co., Ltd. (DENSO Corporation)
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Original AssigneeNippondenso Co., Ltd. (DENSO Corporation)
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InventorsNorimatsu, Hideaki, Matumoto, Eizi
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Primary Examiner(s)Feinberg, Samuel
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Application NumberUS05/692,049Time in Patent Office790 DaysField of Search123/32 EA, 123/32 EE, 123/119 EC, 60/276, 60/285, 340/52 RUS Class Current123/676CPC Class CodesF02D 41/1487 Correcting the instantaneou...F02D 41/1488 Inhibiting the regulation
