Modeling and simulation of engine speed on idle speed conditions system by using MIMO on spark ignition engine

THE 4TH BIOMEDICAL ENGINEERING’S RECENT PROGRESS IN BIOMATERIALS, DRUGS DEVELOPMENT, HEALTH, AND MEDICAL DEVICES: Proceedings of the International Symposium of Biomedical Engineering (ISBE) 2019 Pub Date : 2019-12-10 DOI:10.1063/1.5138300

Irianto, Irma Wulandari

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Abstract

Multi-Input Multi-Output (MIMO) system formed without compensator and prefilter is a modeling of Spark Ignition Engine (SIE). This system in the form of engine stand that is gasoline fuel, motor speed or engine speed is strongly influenced by throttle valve, spark advanced position and load changes in SIE. The MIMO system model connects engine speed and manifold pressure to two system inputs, namely Duty Cycle of the throttle valve D(s) and spark advanced position A(s). The operation of the SIE is divided into three conditions: engine speed for idle speed without load conditions, engine speed for idle speed low load conditions and engine speed for idle speed conditions with gear-1 loading. This process is reviewed for each of the three MIMO SIE system conditions by inputting random data from the duty cycle of the throttle valve D(s) and spark advanced position A(s). Response of engine speed N(s) and manifold pressure P(s) are obtained by using Matlab simulation for input D(s) = 120 to 260 and for A(s) = 0.2 rad up to 0.5 rad. The simulated results show the response graph of the P(s) manifold pressure for the SIE MIMO system is always changing.Multi-Input Multi-Output (MIMO) system formed without compensator and prefilter is a modeling of Spark Ignition Engine (SIE). This system in the form of engine stand that is gasoline fuel, motor speed or engine speed is strongly influenced by throttle valve, spark advanced position and load changes in SIE. The MIMO system model connects engine speed and manifold pressure to two system inputs, namely Duty Cycle of the throttle valve D(s) and spark advanced position A(s). The operation of the SIE is divided into three conditions: engine speed for idle speed without load conditions, engine speed for idle speed low load conditions and engine speed for idle speed conditions with gear-1 loading. This process is reviewed for each of the three MIMO SIE system conditions by inputting random data from the duty cycle of the throttle valve D(s) and spark advanced position A(s). Response of engine speed N(s) and manifold pressure P(s) are obtained by using Matlab simulation for input D(s) = 120 to 260 and for A(s) = 0...

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基于MIMO的火花点火发动机怠速工况下发动机转速建模与仿真

多输入多输出(MIMO)系统是火花点火发动机(SIE)的一种建模方法，无需补偿器和预滤波器。该系统以发动机机架的形式，即汽油燃料、电机转速或发动机转速受到节流阀、火花超前位置和负载变化的强烈影响。MIMO系统模型将发动机转速和歧管压力连接到两个系统输入，即节流阀占空比D(s)和火花先进位置A(s)。SIE的运行分为三种状态:空转状态下的发动机转速，空转状态下的发动机转速，低负荷状态下的发动机转速，1档加载状态下的发动机转速。通过输入节流阀占空比D(s)和火花先进位置A(s)的随机数据，对三种MIMO SIE系统条件中的每一种进行了审查。通过Matlab仿真，得到了输入D = 120 ~ 260和A = 0.2 ~ 0.5 rad时发动机转速N(s)和歧管压力P(s)的响应。仿真结果表明，SIE MIMO系统的P(s)歧管压力响应曲线是不断变化的。多输入多输出(MIMO)系统是火花点火发动机(SIE)的一种建模方法，无需补偿器和预滤波器。该系统以发动机机架的形式，即汽油燃料、电机转速或发动机转速受到节流阀、火花超前位置和负载变化的强烈影响。MIMO系统模型将发动机转速和歧管压力连接到两个系统输入，即节流阀占空比D(s)和火花先进位置A(s)。SIE的运行分为三种状态:空转状态下的发动机转速，空转状态下的发动机转速，低负荷状态下的发动机转速，1档加载状态下的发动机转速。通过输入节流阀占空比D(s)和火花先进位置A(s)的随机数据，对三种MIMO SIE系统条件中的每一种进行了审查。通过Matlab仿真得到了输入D(s) = 120 ~ 260、A(s) = 0时发动机转速N(s)和流管压力P(s)的响应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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THE 4TH BIOMEDICAL ENGINEERING’S RECENT PROGRESS IN BIOMATERIALS, DRUGS DEVELOPMENT, HEALTH, AND MEDICAL DEVICES: Proceedings of the International Symposium of Biomedical Engineering (ISBE) 2019

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