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引用次数: 1
摘要
本文提出了一种新型PID自调节三环控制器,用于采用4个永磁直流(PMDC)电机的pv - fc -柴油-电池混合动力全轮驱动电动汽车。基于多目标粒子群优化MOPSO,提出了一种三环动态误差驱动方案,除了电机速度动态参考跟踪外,还可以在高浪涌电流和电机过载情况下调节电机电流。所提出的三环动态误差驱动PID自整定控制器在保持全速跟踪能力的同时,保证了能效、控制环解耦、稳定性和系统的高效利用。该集成方案采用了由第一作者开发的基于FACTS的新型绿色滤波补偿器,确保稳定的直流母线电压,最小的涌流条件和阻尼负载漂移。
A novel PSO-based hybrid PV-FC-Diesel-Battery electric PID-controller drive system for electric vehicle traction
This paper presents a novel PID self regulating tri loop controller for a hybrid PV-FC-Diesel-Battery powered all-wheel drive electric vehicle using four Permanent Magnet DC (PMDC) motors, which are modeled to include existing nonlinearities in motor plus load inertia (J) and viscous friction (B). A Tri Loop dynamic error driven scheme is based on Multi Objective Particle Swarm Optimization MOPSO and proposed to regulate motor current against high inrush currents and motor overloading conditions, in addition to motor speed dynamic reference tracking. The Proposed tri loop dynamic error driven PID self tuned controller is also used to ensure energy efficiency, control loop decoupling, stability and system efficient utilization while maintaining full speed tracking capability. The integrated scheme is fully stabilized using a novel FACTS based green filter compensators developed by First Author that ensures stabilized DC bus voltage, minimal inrush current conditions, and damped load excursions.
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