초록 ▼

An engine control apparatus and related control method for an engine are disclosed wherein cylinder discrimination is executed based on a crank signal and a cam signal under a normal signal mode. If a failure occurs in either the crank signal or the cam signal, the cylinder discrimination is execute

An engine control apparatus and related control method for an engine are disclosed wherein cylinder discrimination is executed based on a crank signal and a cam signal under a normal signal mode. If a failure occurs in either the crank signal or the cam signal, the cylinder discrimination is executed based on a normal one of the crank signal and the cam signal. A starter device is driven to crank up the engine until judgment is made that the engine enters a running state. A duration time for the starter device to be driven is measured and if the duration time reaches a limit time, the driving state of the starter device is interrupted. When either the crank signal or the cam signal encounters the failure, the limit time is set to a longer time than a preset time for the normal signal mode.

대표청구항 ▼

What is claimed is: 1. An engine control apparatus for a multi-cylinder engine, installed on a vehicle, which has a crank sensor for detecting rotation of a crankshaft of the engine to output a crank signal depending on the rotation of the crankshaft, and a cam sensor for detecting rotation of a ca

What is claimed is: 1. An engine control apparatus for a multi-cylinder engine, installed on a vehicle, which has a crank sensor for detecting rotation of a crankshaft of the engine to output a crank signal depending on the rotation of the crankshaft, and a cam sensor for detecting rotation of a camshaft to output a cam signal depending on the rotation of the camshaft, the engine control apparatus comprising: first cylinder discriminating means for executing cylinder discrimination based on the crank signal and the cam signal under a normal signal mode; failure detecting means for detecting failures in the crank signal and the cam signal, respectively; and second cylinder discriminating means for executing the cylinder discrimination, in place of the first cylinder discriminating means based on the crank signal and the cam signal under the normal signal mode, in the presence of the failure in either the crank signal or the cam signal; wherein the engine control apparatus causes fuel injection and ignition to be initiated for each cylinder of the engine based on the cylinder discrimination executed by either the first cylinder discriminating means or the second cylinder discriminating means; automatic startup control means for cranking the engine upon driving a starter device until judgment is made that the engine enters a running state in the presence of judgment that a specified startup initiating condition is established; drive time limiting means for interrupting the automatic startup control means from driving the starter device when a duration time for the automatic startup control means to drive the starter device is measured upon which judgment is made that the duration time reaches a limit time; and limit time setting means for setting the limit time to a longer time than a preset time for the normal signal mode when the failure detecting means detects the failure in either the crank signal or the cam signal. 2. The engine control apparatus claimed in claim 1, wherein: assume that in the presence of the failure in either the crank signal or the cam signal, a time, for which the starter device begins to crank the engine and the second cylinder discriminating means completes executing the cylinder discrimination to provide a cylinder discriminating result based on which the fuel injection and the ignition are initiated to cause the engine to enter the running state, is Ts, the limit time setting means set the limit time to be longer than Ts in the presence of the failure in either the crank signal or the cam signal. 3. The engine control apparatus claimed in claim 1, wherein: the limit time setting means is operative to set the limit time to a predetermined initial value until either the first cylinder discriminating means or the second cylinder discriminating means completes the execution of the cylinder discrimination after which when the first cylinder discriminating means and the second cylinder discriminating means complete the execution of the cylinder discrimination, the limit time setting means freshens the limit time to be set to a first time for a normal signal mode to be shorter than the initial value in the absence of the failure in either the crank signal or the cam signal and freshens the limit time to be set to a second time for a failure signal mode to be shorter than the initial value but to be longer than the first time for the normal signal mode, in the presence of the failure in either the crank signal or the cam signal. 4. The engine control apparatus claimed in claim 1, wherein: the limit time setting means is operative to set the limit time to a time, which is equal to a value in which a given value is added to a setting time for a normal mode, or a time in which the setting time for the normal mode is made longer by a given rate. 5. The engine control apparatus claimed in claim 1, wherein: the limit time setting means is operative to detect specified information related to startability of the engine from among information relevant to the vehicle and set the limit time depending on a detection value on the specified information such that the lower the startability of the engine represented by the detection value, the longer will be the limit time. 6. The engine control apparatus claimed in claim 5, wherein: the specified information has at least one of a battery voltage of the vehicle, an ambient temperature around the vehicle, a coolant water temperature of the engine and a temperature of lubricating oil of the engine. 7. An engine control apparatus for a multi-cylinder engine, installed on a vehicle, which has a crank sensor for detecting rotation of a crankshaft of the engine to output a crank signal depending on the rotation of the crankshaft, and a cam sensor for detecting rotation of a camshaft to output a cam signal depending on the rotation of the camshaft, the engine control apparatus comprising: first cylinder discriminating means for executing cylinder discrimination based on the crank signal and the cam signal under a normal signal mode; failure detecting means for detecting failures in the crank signal and the cam signal, respectively; second cylinder discriminating means for executing the cylinder discrimination, in place of the first cylinder discriminating means based on the crank signal and the cam signal under the normal signal mode, in the presence of the failure in either the crank signal or the cam signal; wherein the engine control apparatus causes fuel injection and ignition to be initiated for each cylinder of the engine based on the cylinder discrimination executed by either the first cylinder discriminating means or the second cylinder discriminating means; automatic startup control means for cranking the engine upon driving a starter device until judgment is made that the engine enters a running state in the presence of judgment made that a specified startup initiating condition is established; and drive time limiting means for interrupting the automatic startup control means from driving the starter device when a duration time for the automatic startup control means to drive the starter device is measured upon which judgment is made that the duration time reaches a limit time; wherein assume that a time for the starter device begins to be driven and the second cylinder discriminating means to complete the cylinder discrimination to cause the fuel injection and ignition to be initiated based on a relevant cylinder discriminating result to cause the engine to enter the running state when either the crank signal or the cam signal encounters a failure is Ts, the limit time is set to be longer than Ts in the presence of the failure in either the crank signal or the cam signal. 8. The engine control apparatus claimed in claim 7, further comprising: limit time calculating means for calculating a value of the limit time based on specified information related to startability of the engine from among information relevant to information of the vehicle; failure startup required time calculating means for calculating a value of Ts based on the specified information; and setting means operative such that when comparison is made between a calculated value of the limit time calculating means and a calculated value of the failure startup required time calculating means upon which the setting means sets the limit time to be the calculated value of the limit time calculating means, in the presence of the calculated value of the limit time calculating means larger than the calculated value of the failure startup required time calculating means, sets the limit time to be longer than the calculated value of the failure startup required time calculating means in the absence of the calculated value of the limit time calculating means larger than the calculated value of the failure startup required time calculating means. 9. The engine control apparatus claimed in claim 7, wherein: the specified information has at least one of a battery voltage of the vehicle, an ambient temperature around the vehicle, a coolant water temperature of the engine and a temperature of lubricating oil of the engine. 10. A method of controlling a startup of a multi-cylinder engine, installed on a vehicle, which has a crank sensor for detecting rotation of a crankshaft of the engine, and a cam sensor for detecting rotation of a camshaft, the method comprising: receiving a crank signal from the crank sensor representing the rotation of the crankshaft; receiving a cam signal from the cam sensor representing the rotation of the camshaft; executing cylinder discrimination based on the crank signal and the cam signal under a normal signal mode; detecting failures in the crank signal and the cam signal, respectively; discriminating whether or not a specified startup initiating condition is established for the engine; interrupting the cylinder discrimination from being executed based on the crank signal and the cam signal in the presence of the failure in either the crank signal or the cam signal while executing the cylinder discrimination based on a normal one of the crank signal and the cam signal; performing automatic startup control for cranking up the engine in the presence of the specified startup initiating condition by driving a starter device until the engine enters a running state; measuring a duration time for which the automatic startup control is executed to drive the starter device and making judgment whether or not the duration time reaches a limit time; interrupting the automatic startup control to prevent the starter device from being driven in the presence of the judgment that the duration time reaches the limit time; and setting the limit time to be longer than a preset reference time, assigned to a normal mode, in the presence of the failure in either the crank signal or the cam signal; wherein fuel injection and ignition are executed for each cylinder of the engine based on the cylinder discrimination. 11. The method of controlling the startup of the multi-cylinder engine according to claim 10, wherein: assume that in the presence of the failure in either the crank signal or the cam signal, a time, for which the starter device begins to be driven and the cylinder discrimination is completed to provide a cylinder discriminating result based on which the fuel injection and the ignition are initiated to cause the engine to enter the running state, is Ts, the limit time set to be longer than Ts in the presence of the failure in either the crank signal or the cam signal. 12. The method of controlling the startup of the multi-cylinder engine according to claim 10, wherein: the limit time is set to a predetermined initial value until the cylinder discrimination is completed after which when the cylinder discrimination is completed, the limit time freshens to be set to a first time for a normal signal mode to be shorter than the initial value in the absence of the failure in either the crank signal or the cam signal and freshens to be set to a second time for a failure signal mode to be shorter than the initial value but to be longer than the first time for the normal signal mode, in the presence of the failure in either the crank signal or the cam signal. 13. The method of controlling the startup of the multi-cylinder engine according to claim 10, wherein: the limit time is set to a time, which is equal to a value in which a given value is added to a setting time for a normal signal mode, or a time in which the setting time for the normal signal mode is made longer by a given rate. 14. The method of controlling the startup of the multi-cylinder engine according to claim 10, wherein: the step of setting the limit time includes detecting specified information related to startability of the engine from among information relevant to the vehicle and setting the limit time to a value depending on a detection value representing the specified information such that the lower the startability of the engine represented by the detection value, the longer will be the limit time. 15. The method of controlling the startup of the multi-cylinder engine according to claim 14, wherein: the specified information has at least one of a battery voltage of the vehicle, an ambient temperature around the vehicle, a coolant water temperature of the engine and a temperature of lubricating oil of the engine.