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Modeling and Dynamic Analysis on the Direct Operating Solenoid Valve for Improving the Performance of the Shifting Control System

The dynamic characteristics and energy loss in a shifting control system is important and necessary in the performance improvement of an automatic transmission. The direct operating solenoid valve has been considered as a potential component applying in the shifting control system in vehicle. The pr...

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Published in:	Applied sciences 2017-12, Vol.7 (12), p.1266
Main Authors:	Xu, Xiangyang, Han, Xiao, Liu, Yanfang, Liu, Yanjing, Liu, Yang
Format:	Article
Language:	English
Subjects:	Accuracy Automatic transmissions Computer simulation Control systems Controllers direct operating solenoid valve Dynamic characteristics Energy loss forces leakage flow Magnetic fields Mathematical models Optimization Physics Pneumatics response pressure Response time Simulation Solenoid valves Valves
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cited_by	cdi_FETCH-LOGICAL-c427t-e8a26fc996a47016ab673b0c8e4499d34edbd3aaa2bc9e7d8b2fcba675a983083
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container_title	Applied sciences
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creator	Xu, Xiangyang Han, Xiao Liu, Yanfang Liu, Yanjing Liu, Yang
description	The dynamic characteristics and energy loss in a shifting control system is important and necessary in the performance improvement of an automatic transmission. The direct operating solenoid valve has been considered as a potential component applying in the shifting control system in vehicle. The previous method can solve only a specific physical field or use the test results of the magnetic force as input curve. The paper presents a numerical approach for solving the multi-domain physical problem of the valve. A precise model of the direct acting solenoid valve considering different physical field is developed. An experimental study is also performed to evaluate and confirm the simulation. Based on the model, the influences on the dynamic characteristics of the valve are analyzed by calculating forces acting on the valve. The systematic analysis of forces and energy loss characteristics are performed for three different flow conditions varying clearance height from 10 µm to 30 µm. The results demonstrate that the pressure response time can be improved with smaller clearance between the spool and the sleeve. Moreover, the leakage of the shifting control system employing the direct acting solenoid valve can be reduced by 60% compared to the conventional two-stage pilot valve in our previous product.
doi_str_mv	10.3390/app7121266
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The direct operating solenoid valve has been considered as a potential component applying in the shifting control system in vehicle. The previous method can solve only a specific physical field or use the test results of the magnetic force as input curve. The paper presents a numerical approach for solving the multi-domain physical problem of the valve. A precise model of the direct acting solenoid valve considering different physical field is developed. An experimental study is also performed to evaluate and confirm the simulation. Based on the model, the influences on the dynamic characteristics of the valve are analyzed by calculating forces acting on the valve. The systematic analysis of forces and energy loss characteristics are performed for three different flow conditions varying clearance height from 10 µm to 30 µm. The results demonstrate that the pressure response time can be improved with smaller clearance between the spool and the sleeve. 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Moreover, the leakage of the shifting control system employing the direct acting solenoid valve can be reduced by 60% compared to the conventional two-stage pilot valve in our previous product.</description><subject>Accuracy</subject><subject>Automatic transmissions</subject><subject>Computer simulation</subject><subject>Control systems</subject><subject>Controllers</subject><subject>direct operating solenoid valve</subject><subject>Dynamic characteristics</subject><subject>Energy loss</subject><subject>forces</subject><subject>leakage flow</subject><subject>Magnetic fields</subject><subject>Mathematical models</subject><subject>Optimization</subject><subject>Physics</subject><subject>Pneumatics</subject><subject>response pressure</subject><subject>Response time</subject><subject>Simulation</subject><subject>Solenoid valves</subject><subject>Valves</subject><issn>2076-3417</issn><issn>2076-3417</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><sourceid>DOA</sourceid><recordid>eNpNUU1rGzEQXUILCUku-QWC3Apu9OWVdAxOmxhSEnDbq5iVZm2Z3dVW2hh87D-PbJe2c5nhzZv3mJmqumH0sxCG3sE4KsYZr-uz6oJTVc-EZOrDf_V5dZ3zlpYwTGhGL6rf36LHLgxrAoMnD_sB-uDI_QDdPodM4kCmDZKHkNBN5GXEBNOBvIodDjF48hO6HZI2JrLsxxR3h-Zh4hVTAXsYHJLYHqHVJrTH4UUcphQ7strnCfur6mMLXcbrP_my-vH1y_fF0-z55XG5uH-eOcnVNEMNvG6dMTVIRVkNTa1EQ51GKY3xQqJvvAAA3jiDyuuGt66BWs3BaEG1uKyWJ10fYWvHFHpIexsh2CMQ09pCmoLr0CLOfeOKCZpirhsDqFtTrJSWymkoWrcnrbLyrzfMk93Gt1SOli2XXLK5ZpIX1qcTy6WYc8L2ryuj9vAx--9j4h0Znoqf</recordid><startdate>20171205</startdate><enddate>20171205</enddate><creator>Xu, Xiangyang</creator><creator>Han, Xiao</creator><creator>Liu, Yanfang</creator><creator>Liu, Yanjing</creator><creator>Liu, Yang</creator><general>MDPI AG</general><scope>AAYXX</scope><scope>CITATION</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>PHGZM</scope><scope>PHGZT</scope><scope>PIMPY</scope><scope>PKEHL</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>DOA</scope><orcidid>https://orcid.org/0000-0002-0801-674X</orcidid></search><sort><creationdate>20171205</creationdate><title>Modeling and Dynamic Analysis on the Direct Operating Solenoid Valve for Improving the Performance of the Shifting Control System</title><author>Xu, Xiangyang ; 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The direct operating solenoid valve has been considered as a potential component applying in the shifting control system in vehicle. The previous method can solve only a specific physical field or use the test results of the magnetic force as input curve. The paper presents a numerical approach for solving the multi-domain physical problem of the valve. A precise model of the direct acting solenoid valve considering different physical field is developed. An experimental study is also performed to evaluate and confirm the simulation. Based on the model, the influences on the dynamic characteristics of the valve are analyzed by calculating forces acting on the valve. The systematic analysis of forces and energy loss characteristics are performed for three different flow conditions varying clearance height from 10 µm to 30 µm. The results demonstrate that the pressure response time can be improved with smaller clearance between the spool and the sleeve. 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subjects	Accuracy Automatic transmissions Computer simulation Control systems Controllers direct operating solenoid valve Dynamic characteristics Energy loss forces leakage flow Magnetic fields Mathematical models Optimization Physics Pneumatics response pressure Response time Simulation Solenoid valves Valves
title	Modeling and Dynamic Analysis on the Direct Operating Solenoid Valve for Improving the Performance of the Shifting Control System
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