Analytical model study for the pressure-boost system including switching and throttling nonlinearity

Mohanty, 2010, Integrated direct/indirect adaptive robust control of hydraulic manipulators with valve deadband, IEEE/ASME Trans Mech, 16, 707, 10.1109/TMECH.2010.2051037 Brown, 1988, A hydraulic rotary switched-inertance servo-transformer, J Dyn Syst Meas Control, 110, 144, 10.1115/1.3152664 Yudell, 2017, Experimental validation of a time domain cavitation model for switched inertance circuits, 12, V1T Yuan, 2022, Switching characteristics of a high-speed rotary valve for switched inertance hydraulic converters, Proc Inst Mech Eng, Part I: J Syst Control Eng, 236, 1421 Kogler, 2015, Analysis of wave propagation effects in transmission lines due to digital valve switching, 10, V1T Van de Ven, 2013, On fluid compressibility in switch-mode hydraulic circuits—Part i: modeling and analysis, J Dyn Syst Meas Control, 135, 21013, 10.1115/1.4023062 Wiens, 2017, A comparison of hydraulic and electrical switch-mode converters, 11, V1T Chen, 2021, Investigation of suction flow characteristic in the inertance hydraulic converters for efficiency improvement, Proc Inst Mech Eng, Part I: J Syst Control Eng, 236, 3 Pan, 2017, A global optimisation of a switched inertance hydraulic system based on genetic algorithm, 302 Wiens, 2015, Analysis and mitigation of valve switching losses in switched inertance converters, 9, V1T Yudell, 2017, Soft switching in switched inertance hydraulic circuits, J Dyn Syst Meas Control, 139, 10.1115/1.4036887 Xue, 2016, A new converter for improving efficiency of multi-actuators fluid power system, J Mech Sci Technol, 30, 2273, 10.1007/s12206-016-0436-7 Wu, 2020, A rotary fluid power converter for improving energy efficiency of hydraulic system with variable load, Energy (Oxf), 195 Wu, 2020, On the design of energy-saving fluid power converter, Ieee Access, 8, 27769, 10.1109/ACCESS.2020.2971669 Kogler, 2022, Hydrualic efficient and robust converter unit for linear motion under energy saving Nostrani, 2017, Design and optimization of a fast switching hydraulic step-down converter for position and speed control, 361 Peng, 2013, The use of a hydraulic dc-dc converter in the actuation of a robotic leg, 5859 Yuan, 2018, A review of switched inertance hydraulic converter technology, Fluid Power Syst Technol, 51968, V1T Manhartsgruber, 2005, Modelling of a switching control hydraulic system, Math Comput Model Dyn Syst, 11, 329, 10.1080/13873950500076297 Scheidl, 2006, Hydraulic switching control with a nonlinear converter, 1 Scheidl, 2011, Mixed time–frequency domain simulation of a hydraulic inductance pipe with a check valve, Proc Inst Mech Eng Part C: J Mech Eng Sci, 225, 2413, 10.1177/0954406211412459 Kogler, 2014, A simulation model of a hydraulic buck converter based on a mixed time frequency domain iteration Pan, 2014, Theoretical and experimental studies of a switched inertance hydraulic system, Proc Inst Mech Eng, Part I: J Syst Control Eng, 228, 12 Pan, 2014, Theoretical and experimental studies of a switched inertance hydraulic system including switching transition dynamics, non-linearity and leakage, Proc Inst Mech Eng, Part I: J Syst Control Eng, 228, 802 Pan, 2017, Theoretical and experimental studies of a switched inertance hydraulic system in a four-port high-speed switching valve configuration, Energies (Basel), 10, 780, 10.3390/en10060780 Wang, 2011, A continuously variable hydraulic pressure converter based on high-speed on–off valves, Mechatronics (Oxf), 21, 1298, 10.1016/j.mechatronics.2011.09.002 Wang, 2013, A hydraulic pressure-boost system based on high-speed on–off valves, IEEE/ASME Trans Mechatron, 18, 733, 10.1109/TMECH.2011.2182654 Tilley, 1976 Negri, 2014, Behavioural prediction of hydraulic step-up switching converters, Int J Fluid Power De Negri, 2015, Modelling and analysis of hydraulic step-down switching converters, Int J Fluid Power, 16, 111, 10.1080/14399776.2015.1067482 Johnston, 2015, Theoretical studies of a switched inertance hydraulic system in a four-port valve configuration Li, 2005, Software enabled variable displacement pumps, ASME Int Mech Eng Congress Expos, 63 Rannow, 2006, Software enabled variable displacement pumps: experimental studies, 67 Lehman, 1996, Switching frequency dependent averaged models for pwm dc-dc converters, Power Electron IEEE Trans, 11, 89, 10.1109/63.484421 Cheng, 2013