Gasoline engine control system and control method for the same
First Claim
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1. A gasoline engine control system of an engine, comprising:
- a crankshaft rotation sensor measuring a rotation speed of a crankshaft;
a coolant temperature sensor measuring a coolant temperature;
an engine knocking sensor;
a valve timing mechanism;
an engine igniter;
an air/fuel controller; and
a controller obtaining the rotation speed of the crankshaft, the coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively,wherein the controller determines a fuel class flowing in the engine and a cold start adaption factor,wherein the controller determines a fuel/cold start adaption factor based on the fuel class and the cold start adaption factor, andwherein the controller controls an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to a determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor is not a predetermined reference fuel/cold start adaption factor,wherein in a case where a determined fuel class is not a reference class and a retard value of an ignition timing of the engine controlled based on a knocking signal of the engine knocking sensor is not larger than a predetermined reference retard value, the controller determines the case as misfiring and outputs a malfunction signal.
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Abstract
A gasoline engine control system includes a crankshaft rotation sensor configured to measure a rotation speed of a crankshaft, a coolant temperature sensor configured to measure a coolant temperature, an engine knocking sensor, a valve timing mechanism, an engine igniter, an air/fuel controller, and a controller configured to obtain a crankshaft rotation speed, a coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively, to determine a fuel class flowing in the engine and a cold start adaption factor, determine a fuel/cold start adaption factor based on the fuel class and the cold start adaption factor, and control an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to the determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor may be not a predetermined reference fuel/cold start adaption factor.
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Citations
15 Claims
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1. A gasoline engine control system of an engine, comprising:
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a crankshaft rotation sensor measuring a rotation speed of a crankshaft; a coolant temperature sensor measuring a coolant temperature; an engine knocking sensor; a valve timing mechanism; an engine igniter; an air/fuel controller; and a controller obtaining the rotation speed of the crankshaft, the coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively, wherein the controller determines a fuel class flowing in the engine and a cold start adaption factor, wherein the controller determines a fuel/cold start adaption factor based on the fuel class and the cold start adaption factor, and wherein the controller controls an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to a determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor is not a predetermined reference fuel/cold start adaption factor, wherein in a case where a determined fuel class is not a reference class and a retard value of an ignition timing of the engine controlled based on a knocking signal of the engine knocking sensor is not larger than a predetermined reference retard value, the controller determines the case as misfiring and outputs a malfunction signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of controlling a gasoline engine control system comprising a crankshaft rotation sensor configured to measure a rotation speed of a crankshaft, a coolant temperature sensor configured to measure a coolant temperature;
- an engine knocking sensor;
a valve timing mechanism;
an engine igniter;
an air/fuel controller; and
a controller configured to obtain the rotation speed of the crankshaft, the coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively, to control an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller, the method comprising;measuring a coolant temperature; setting a cold start adaption factor when a cold start condition of a vehicle is met; measuring change of a rotation speed of an engine for a predetermined time; setting a fuel class based on a measured change in the rotation speed of the engine; setting a fuel/cold start adaption factor based on the cold start adaption factor and the fuel class; controlling an operation of the at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to a determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor is not a predetermined reference fuel/cold start adaption factor; and determining an ignition timing retard value by detecting a knocking signal of the gasoline engine, and in a case where a determined ignition timing retard value is not larger than a predetermined reference retard value, determining the case as misfiring and outputting a malfunction signal. - View Dependent Claims (12, 13, 14, 15)
- an engine knocking sensor;
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11. A method of controlling a gasoline engine control system comprising:
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a crankshaft rotation sensor configured to measure a rotation speed of a crankshaft, a coolant temperature sensor configured to measure a coolant temperature;
an engine knocking sensor;
a valve timing mechanism;
an engine igniter;
an air/fuel controller; and
a controller configured to obtain the rotation speed of the crankshaft, the coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively, to control an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller, the method comprising;measuring a coolant temperature; setting a cold start adaption factor when a cold start condition of a vehicle is met; measuring change of a rotation speed of an engine for a predetermined time; setting a fuel class based on a measured change in the rotation speed of the engine; setting a fuel/cold start adaption factor based on the cold start adaption factor and the fuel class; and controlling an operation of the at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to a determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor is not a predetermined reference fuel/cold start adaption factor, in a case where a determined fuel class is not a reference class and a retard value of an ignition timing of the engine controlled based on a knocking signal of the engine knocking sensor is larger than a predetermined reference retard value, controlling an operation of the at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to the determined fuel/cold start adaption factor.
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Specification
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Current AssigneeHyundai Motor Company (Hyundai Motor Group), Kia Motors Corporation (Kia Corp.)
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Original AssigneeHyundai Motor Company (Hyundai Motor Group), Kia Motors Corporation (Kia Corp.)
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InventorsKim, Seungbum
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Primary Examiner(s)Moulis, Thomas
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Assistant Examiner(s)DALLO, JOSEPH J
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Application NumberUS13/710,255Publication NumberTime in Patent Office1,079 DaysField of Search123/436, 123/1.A, 123525-527, 123575-578, 701102-105US Class Current1/1CPC Class CodesF02D 13/0249 changing the valve timing onlyF02D 13/0261 Controlling the valve overlapF02D 19/0636 by estimation, i.e. without...F02D 19/0649 Liquid fuels having differe...F02D 2013/0292 in the start-up phase, e.g....F02D 35/027 using knock sensorsF02D 41/0025 Controlling engines charact...F02D 41/0097 using means for generating ...F02D 41/064 at cold start F02D41/067 ta...F02D 41/1498 measuring engine roughnessY02T 10/12 Improving ICE efficienciesY02T 10/30 Use of alternative fuels, e...
