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1、中文 中文 4150 字 2512 單詞 單詞出處: 出處:Hori M, Suzuki M, Nomura M, et al. High-performance automotive engine control in engine tester[C]//Industry Applications Conference, 1995. Thirtieth IAS Annual Meeting, IAS'95., Confer
2、ence Record of the 1995 IEEE. IEEE, 1995, 2: 1572-1579.附錄附錄1英文原文High-Performance Automotive Engine Control in Engine TesterMichitaka Hori (Member IEEE) Masahiko Suzuki (Member IEEJ) Masakatsu Nomurawember IEEE) Masayuki
3、Terashimamember IEEE) Meidensha CorporationAbstractThis paper presents a novel decoupling control method on the engine torque control for the automotive engine tester. The engine tester is mainly composed of a dynamomete
4、r control system and an engine control system. The conventional engine tester has the problem that the performance of the engine torque control system is deteriorated by the influences of the interference between the dyn
5、amometer speed control system and the engine torque control system. The authors proposed the practical engine torque control system based on an observer and an identification system to eliminate the inference of dynamome
6、ter speed control system. The effect of observer's parameters error on the engine torque estimation response was analyzed. According to the result of this analysis, a practical method is proposed to identify the engi
7、ne inertia moment and the shaft spring coefficient that are parameters of the observer. The authors confirmed that the proposed decoupling engine torque control system realized a robust control system from the interferen
8、ce with the dynamometer speed control system through simulation and experiments.I . IntroductionRecently, environmental protection is one of the most important problems in the world, and the exhaust gas from automobiles
9、is also strictly regulated by law. Under such circumstances, the performance of automotive engines is improving year by year, and engine testers, which are used to measure engine characteristics, are required to have hig
10、h control ability. However, in the conventional torque control of engines, dynamometer torque or shaft torque is applied as a feedback variable instead of engine torque because Fig.1 shows a configuration of a convention
11、al engine tester. The engine tester consists of an engine to be tested, a dynamometer, and an actuator that regulates the throttle valve. In this system, the engine torque is controlled by regulating the position of the
12、throttle valve that is connected to the actuator by a wire. Detected variables are the dynamometer torque and speed, and the actuator position. The engine controller is composed of 12-bit AID , D/A converters and a DSP(T
13、MS320C25) .B. Engine Test MethodThe engine is tested for its performance on each driving mode shown in Table 1. The Engine speed or torque is maintained to the predetermined pattern, while the exhaust gas and fuel cost a
14、re measured. The engine performance is evaluated based on the result of measurements.Fig.2 shows the block diagram of the control system of the driving mode 1 shown in Table 1. The engine torque can be detected directly
15、using by the indicated mean effective pressure in theory. However, in practice, it is difficult to detect the engine torque directly because of its structure. In the conventional engine testing, the dynamometer torque is
16、 applied as a feedback variable instead of the engine torque as shown in Fig.2. The engine torque control system is affected by the acceleration torque of the dynamometer in a transient condition. As a result, The perfor
17、mance of the engine torque control system is deteriorated. We apply an engine torque observer to eliminate from interference of dynamometer speed control system in the engine torque control.Ill. Decoupling Control Method
18、A. Engine Torque Estimation MethodThe engine tester is equivalent to a two-mass model of a dynamometer and an engine. We attempted to estimate the engine torque by the use of a reduced order observer. The state-space rep
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