[1]WU Shuai,ZHAO Xiangyu,LI Chunfang,et al.Multi-objective Optimization of a Hollow Plunger Type Solenoid for High Speed On/Off Valve[J].IEEE Transactions on Industrial Electronics,2018,65(4):3115-3124.
[2]YANG Huayong,PAN Ming.Engineering Research in Fluid Power: a Review[J].Journal of Zhejiang University-Science A,2015,16(6):427-442.
[3]PAN Ming,PLUMMER A.Digital Switched Hydraulics[J].Frontiers of Mechanical Engineering,2018,13(2):225-231.
[4]LINJAMA M,LAAMANEN A,VILENIUS M.Is It Time for Digital Hydraulics[C]//The Eighth Scandinavian International Conference on Fluid Power.Tampere,2003:347-366.
[5]BRANDSTETTE R,DEUBEL T,SCHEIDL R,et al.Digital Hydraulics and “Industrie 4.0” [J].Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems & Control Engineering,2017,231(2):82-93.
[6]杨华勇,王双,张斌,等.数字液压阀及其阀控系统发展和展望[J].吉林大学学报(工学版),2016,46(5):1494-1505.
YANG Huayong,WANG Shuang,ZHANG Bin,et al.Development and Prospect of Digital Hydraulic Valve and Valve Control System[J].Journal of Jilin University (Engineering and Technology Edition),2016,46(5):1494-1505.
[7]LINJAMA M.Digital Fluid Power: State of the Art[C]//12th Scandinavian International Conference on Fluid Power.Tampere,2011:18-20.
[8]LAAMANEN A,LINJAMA M,VILENIUS M.Characteristics of a Digital Flow Control Unit with Pcm Control[C]//7th Triennial International Symposium on Fluid Control,Measurement and Visualization.Sorrento,2003:25-28.
[9]LAAMANEN A,SIIVONEN L,LINJAMA M,et al.Digital Flow Control Unit-an Alternative for a Proportional Valve[C]//Bath Workshop on Power Transmission and Motion Control.Bath,2004:297-308.
[10]PALONIITTY M,LINJAMA M,HUHTALA K.Equal Coded Digital Hydraulic Valve System-improving Tracking Control with Pulse Frequency Modulation[J].Procedia Engineering,2015,106:83-91.
[11]PALONIITTY M,LINJAMA M.High-linear Digital Hydraulic Valve Control by an Equal Coded Valve System and Novel Switching Schemes[J].Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems & Control Engineering,2018,232(3):258-269.
[12]李文华,韩健,任兰柱.数字液压缸的新型控制理论和方法[J].机械设计与研究,2013,29(1):91-93.
LI Wenhua,HAN Jian,REN Lanzhu.New Control Theory and Method of the Digital Hydraulic Cylinder[J].Machine Design and Research,2013,29(1):91-93.
[13]WU Jian,WANG Shoukun,WANG Junzhen,et al.A Compound Control Strategy for the Digital Valve Based Hydraulic Position Tracking System[C]//33rd Chinese Control Conference.Nanjing,2014:7869-7873.
[14]康洪铭,霍国,陈辅政,等.风洞供气控制系统数字阀的设计与应用[J].实验流体力学,2017(5):88-92.
KANG Hongming,HUO Guo,CHEN Fuzheng,et al.Design and Application of Digital Valve in Gas Supply Control System for Wind Tunnel[J].Journal of Experiments in Fluid Mechanics,2017(5):88-92.
[15]赵劲松,张传笔,赵子宁,等.高速开关数字阀的静动态特性[J].中国机械工程,2018,29(2):145-150.
ZHAO Jinsong,ZHANG Chuanbi,ZHAO Zining,et al.Static and Dynamic Characteristics of Highspeed On-off Digital Valves[J].China Mechanical Engineering,2018,29(2):145-150.
[16]高强,朱玉川,王睿,等.高速开关阀控电液位置伺服系统自适应鲁棒控制[J].航空动力学报,2019,34(2):503-512.
GAO Qiang,ZHU Yuchuan,WANG Rui,et al.Adaptive Robust Control of Electro-hydraulic Position Servo System Using High Speed On/Off Valve[J].Journal of Aerospace Power,2019,34(2):503-512.
[17]高钦和,宋海洲,刘志浩,等.高速开关阀在液压缸起动与到位过程中的速度控制研究[J].中国机械工程,2013,24(1):47-51.
GAO Qinhe,SONG Haizhou,LIU Zhihao,et al.Research on Speed Control in Starting and Stopping Processes of Hydraulic Cylinder with HSV[J].China Mechanical Engineering,2013,24(1):47-51.
[18]高钦和,刘志浩,牛海龙,等.高速开关阀控液压缸的位置控制[J].中国机械工程,2014,25(20):2775-2781.
GAO Qinhe,LIU Zhihao,NIU Hailong,et al.Position Control of Hydraulic Cylinder Controlled by High-speed On-Off Valve[J].China Mechanical Engineering,2014,25(20):2775-2781. |