• Title/Summary/Keyword: Misfire detection

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A Study on the Detection of Misfire in Gasoline Engine via Walsh Transform (월쉬변환에 의한 가솔린엔진 실화검출에 관한 연구)

  • Lee, Tae-Pyo;Kim, Jong-Bu;An, Du-Su
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.49 no.6
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    • pp.299-306
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    • 2000
  • The primary cause of air pollution by vehicles is imperfect combustion of fuel. One of the most usual causes of this imperfect combustion is the misfire in IC(Intenal Combustion) engine. Recently it is obligated for an ECU to monitor the emission level and warn the driver in case of exceeding specified emission standards. Therefore, in order to comply with this OBD-II regulations, car makers are investing a considerable amount into technology which would enable the detection of misfire and the particular cylinder in which misfire is taking place. So far, it has been able to detect misfire using engine speed, which can be obtained crank angle. However, such a method posed a problem in analyzing at high speed and in recognizing the misfire from the load impact at bumpy road. In this paper, misfire detection is made possible by simple arithmetic using WDFT, especially at high engine speed. In addition, the moving window method of a Walsh function is applied to determine the cylinders under misfire in case of multiple misfires. An actual experiment was conducted to prove that WDFT is applicable to effective in computation speed and to same result in misfire detection and cylinder determination at idle, part load and bumpy road conditions.

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DEVELOPMENT OF A NEW MISFIRE DETECTION SYSTEM USING NEURAL NETWORK

  • Lee, M.;Yoon, M.;SunWoo, M.;Park, S.;Lee, K.
    • International Journal of Automotive Technology
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    • v.7 no.5
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    • pp.637-644
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    • 2006
  • The detection of engine misfire events is one of major concerns in engine control due to its negative effect on air pollution and engine performance. In this paper, a misfire detection system based on crankshaft angular speed fluctuation is developed. Synthetic variable method is adopted for the preprocessing of crankshaft angular speed. This method successfully estimates the work output of each cylinder by finding the effect of combustion energy on the crankshaft rotational speed or acceleration after virtually removing the effect of the internal inertia forces from the measured crankshaft speed signals. The detection system is developed using neural network with the revised synthetic angular acceleration as input which is derived from the preprocessing. Mathematical simulation is carried out for developing and verifying the misfire detection system. Finally, the reliability of the developed system is validated through an experiment.

The Misfire Detection and Intensity Interpretation using Breakdown Voltage Characteristics (브레이크다운전압 특성을 이용한 엔진실화의 검출 및 강도해석)

  • 고용수;박재근;조민석;황재원;채재우
    • Transactions of the Korean Society of Automotive Engineers
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    • v.7 no.6
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    • pp.42-48
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    • 1999
  • Engine misfire causes of the negative effect on exhaust emission such as HC, CO, and NOX . Moreover, it causes damage to the three-way-catalyst(TWC) system permanently. The crankshaft velocity fluctuation(CVF) method has been applied for the real cars as misfire detection system usually, which utilizes the crank angle sensor input to calculate the variation of the crankshaft rotational speed. But this approach has the limit due to the fact that three could be problem under certain engine condition like as deceleration or high speed condition . Therefore the development of new methods are requested today. This study introduced the new method of misfire detection using breakdown voltage(BDV) characteristics between spark plug electrouds.

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Misfire Detection by Using the Crankshaft Speed Fluctuation(1) (크랭크축 각속도의 변동을 이용한 실화 판정(1))

  • 배상수;임병진;김세웅;김응서
    • Transactions of the Korean Society of Automotive Engineers
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    • v.4 no.2
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    • pp.23-31
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    • 1996
  • The crankshaft speed fluctuation was measured every crank angle. In order to detect the misfire, the engine and the dynamometer were considered as a single- degree of freedom system. From this modeling, the detection criteria were derived and examined by the engine test. By this method the single misfire or multiple misfires can be detected. Even on the condition of low load and higher speed than 3000rpm, where it was difficult through the other methods, misfire detection was carried out steadily. From this results, the method proposed by this paper proved reasonable.

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Fluctuations in the Exhaust System -Single Cylinder Misfire- (배기계 압력 변동을 이용한 가솔린 기관의 실화 검출 -단수 실린더 실화-)

  • Sim, K.S.;Bok, J.H.;Kim, S.W.
    • Transactions of the Korean Society of Automotive Engineers
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    • v.6 no.6
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    • pp.210-217
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    • 1998
  • This paper describes the method for detection of the misfired cylinder using the pressure fluctuations occurred in the exhaust system on an MPI gasoline engine. If misfire is occurred in the cylinder of the gasoline engine, the power of engine gets lost, the fuel consumption and the exhaust emission are increased and the vibration is caused by unsteady torque. Therefore early detection and correction of misfire play a very important role in the proper performance and the exhaust emission. This paper suggests method of misfire detection which affect engine performance. The method is a comparison of average pressure index during the displacement period. Experimental results showed that the method using the pressure fluctuations in the exhaust system is proven to be effective in the detection of misfire on gasoline engine regardless loads and revolutions of the engine. In addition, this method, using the pressure fluctuations in exhaust system is easier than other methods and is not a need of additional reconstruction of engine.

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Detection of Misfire in Car Engines using Walsh Discrete Fourier Transform (WDFT를 이용한 자동차 엔진의 실화검출)

  • 김종부;이태표;오정수;임국현
    • Journal of the Korean Institute of Telematics and Electronics T
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    • v.35T no.1
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    • pp.67-74
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    • 1998
  • The primary cause of air pollution by vehicles is imperfect combustion of fuel. One of the most usual causes of this imperfect combustion is the misfire in IC engins. The U.S. EPA(Environment Protection Agency) and the CARB(California air Resources Board) have imposed regulations for the detection of misfiring in automotive engines. The OBD-II regulations require that misfire should be monitored by the engine diagnostic system, and that the goal of OBD-II is to alert the driver to the presence of a malfunction of the emission control system. Several solutions to the misfire detection problem have been proposed for the detection of misfires. However, the performance of these methods in the presence of misfire is not altogether clear. This paper presents a precise method and system for internal combustion engine misfire. Present invention based upon measurements of engine roughness as derived from crankshaft angular velocity measurements with special signal processing method. Crankshaft angular velocity signals are processed by WDPT, so that the more reliable misfire detection than the time domain analysis. Experimental work confirms that it is possible to apply the WDFT for the detection of misfires in no-load idle and road testing.

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A Study on the knock and misfire detection system using by Spark-plug in a Gasoline Engine (가솔린기관에서 스파크플러그를 이용한 노크 및 실화의 동시검출시스템 개발에 관한 연구)

  • 조민석;박재근;황재원;채재우
    • Transactions of the Korean Society of Automotive Engineers
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    • v.8 no.1
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    • pp.23-31
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    • 2000
  • Knock and misfire, kinds of abnormal combustion, are highly undesirable effect on the internal combustion engine. So, it is important to detect these avnormal combuition and control the ignition timing etc. to avoid these mal-effect factors in real engine system. In this study, the system which detects the knock and the misfire using by spark plug is presented. This system is based on the effect of modulation breakdown voltage(BDV) between the spark gaps. The voltage drop between spark plug electrodes, when an electrical breakdown is initiated, depends on the temperature and pressure in combustion chamber. So, we can detect knock and misfire that produce changes in gas temperature and pressure (consequently, its density) using by BDV signal change which carries information about the character of combustion.

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A Study on the Improvement of Misfire Detection Method with Vibration by using the Weight Factor (후진동이 나타나는 실화 진단 방법에서 가중치를 이용한 성능 향상에 대한 연구)

  • Lim Jihoon;Lee Taeyeon;Kim Ealgoo;Hong Sungrul;Sung Jinho;Park Jaehong;Yoon Hyungjin;Park Jinseo;Kim Dongsun
    • Transactions of the Korean Society of Automotive Engineers
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    • v.13 no.4
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    • pp.74-80
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    • 2005
  • This paper presents a misfire monitoring method by using the weight factor. According to OBD II(On-Board Diagnostics) regulations of the CARB (California Air Resources Board), an ECU (Electronic Control Unit) should detect misfires which occur in the internal combustion engine. A misfire is 1311owe4 by post-oscillations for short duration. Sometimes, the amplitude of oscillations may be as high as misfire and can be falsely detected as another misfire. To prevent this, the software designers do not attempt to detect another misfire for this short duration, during which the post oscillations exist. Because of this, ECU does not detect all the misfires and hence, the unstable state of automobile cannot be detected. If this happens for a long time, automobile may get damaged. To solve these problems, this paper suggests a new algorithm to detect misfire by using weighting factor Weighting factor is a concept to distinguish the misfire with the post oscillation and to improve the detection rate. This value of weighting factor is used for counting the misfire. This paper also shows the result of experiment done on a automobile using this software. The software is implemented using ASCET-SD which is preferred in the design of engine control. This paper's result show the possibility of improving the misfire detection by implementing this algorithm.

The misfire detection using the mean exhaust pressure gradient index (평균 배기 압력 구배 지수를 이용한 실화 검출)

  • Chung, Sung-Won;Sim, Kook-Sang;Kim, Se-Woong
    • Journal of the Korean Society of Industry Convergence
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    • v.4 no.4
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    • pp.371-378
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    • 2001
  • This paper proposes a method to detect the misfired cylinder using a new misfire detection index. The new method of misfired cylinder is a comparison of pressure gradient during the blowdown period of exhaust stroke. If a misfire occurs, the engine will he lost some power and consumes the more fuel and the torque will be unsteady. Most of all, the misfire affects a bad influence of the 3-way catalyst and emits unburned hydrocarbon in the air. To prevent these unusual phenomena and eliminate the factor of the environmental pollution, it is important to detect the misfired cylinder. To do the experiment, set up the assist device on the manifold. This assist device is not deformed for conventional exhaust manifold and installed in the end of the exhaust manifold. Experimental results showed that the method using the mean gradient pressure index is proven to be effective in the detection of misfired cylinder on gasoline engine regardless loads and revolutions of the engine.

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The Misfire Detection by the Exhaust Pressure Ascent Rate (배기 압력 상승률에 의한 실화 검출)

  • 김세웅;최미호;심국상
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.2
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    • pp.1-7
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    • 2003
  • This paper proposes a method to detect misfired cylinders by the exhaust pressure ascent rate. The misfire is generated by faults of electric system or faults of fuel delivery system. It is one of the abnormal combustions. Therefore, it increases the unburned hydrocarbon and the carbon monoxide and affects a bad influence to the 3-way catalyst. The misfire causes to decrease the power of the engine and increase the consumption of the fuel. Early detection and correction of the misfired cylinders can prevent these unusual phenomena. The misfired cylinders can be detected by the comparison of exhaust pressure ascent rate during each cycle. The exhaust pressure ascent rate is defined as pressure rise per time. Our experimental results showed that the proposed method is effective in the detection of the misfired cylinders on a gasoline engine regardless loads and revolutions of the engine.