Analysis of Frequency Adjustable Control of Permanent Magnet Synchronous Motor for Pump-controlled Actuators
DOI:
https://doi.org/10.13052/ijfp1439-9776.2416Keywords:
Zonal hydraulics, direct driven hydraulics, energy consumption, pump-controlled actuators, field oriented control (FOC), permanent magnet synchronous motorAbstract
Recently the pump-controlled system has actively been proposed as a replacement for conventional valve-controlled systems, to improve the energy efficiency in non-road mobile machinery. Earlier research demonstrated that a pump-controlled hydraulic system combines the best properties of traditional hydraulics and electric intelligence. This pump-controlled system can be realized via direct control of hydraulic pimp/motor by varying speed of electric motor without complex servo valves. Nowadays, a wide range of different electric motors is known and available with efficiency higher than 95% One of the most attractive option of electric motor is Permanent Magnet Synchronous Motor (PMSM) due to its size, power, and high efficiency.
However, control of electric motors in pump-controlled systems has are not yet considered and not well researched.
In this paper, the main objective of this investigation is determination of control values for the pump-controlled actuator and analysis of system’s behavior in different applications.
Therefore, model of PMSM drive with pump-emulated load is proposed. Field Oriented Control (FOC) gives wide range of the speed regulation and smooth characteristics, but tuning of controllers is challenging.
Case of the steering-modeled load represented that such operations need more power than other modes. More complex frequency converters allow to reach higher level of accuracy and decrease torque ripples, but complexity of such systems increases rapidly.
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References
Noah D. Manring, Roger C. Fales, Hydraulic Control Systems, John Wiley & Sons 2019.
Qingbo Guo, Cheng Ming Zhang, Liyi Li, Jiangpeng Zhang, Mingyi Wang, Maximum Efficiency Control of Permanent-Magnet Synchronous Machines for Electric Vehicles, The 8th International Conference on Applied Energy – ICAE2016.
Christopher Goldenstein, Advanced Combustion Engines, Stanford University, 2011.
Saša Milojević and Radivoje Pesic, CNG buses for clean and economical city transport, 2011.
D. Grahame Holmes, Thomas A. Lipo. Pulse width modulation for power converters. Principles and practice. – Canada: A John Wiley & Sons, Inc., Publication, 2003.
G.G. Sokolovskiy. AC drives with frequency regulation. Moscow Academa, 2006.
A.B. Vinogradov. Vector control of alternating current electric drives. State educational institution of higher professional education “Ivanovo State Energy University”. – Ivanovo, 2008.
D.G. Holmes, “A general analytical method for determining the theoretical harmonic components of carrier based PWM strategies”, Industry Applications Conference, Thirty-Third IAS Annual Meeting. The 1998 IEEE, Vol. 2, 12–15 Oct. 1998.
Peter S. Maybeck, Stochastic Models, Estimation and Control, Academic Press, 1982.
D. Casadei, F. Profumo, G. Serra, A. Tani, ”FOC and DTC: two viable schemes for induction motors torque control”, IEEE Transactions on Power Electronics, Vol. 17, Issue: 5, Sept. 2002.