负载变化下无传感器感应电机主动零频穿越及脉动抑制策略  被引量：2

作　　者：杨凯[1] 李孺涵 罗成[1] 黄煜昊 罗伊逍 Yang Kai;Li Ruhan;Luo Cheng;Huang Yuhao;Luo Yixiao(School of Electrical and Electronic Engineering Huazhong University of Science and Technology,Wuhan 430074 China)

机构地区：[1]华中科技大学电气与电子工程学院,武汉430074

出　　处：《电工技术学报》2023年第18期4910-4920,共11页Transactions of China Electrotechnical Society

基　　金：国家自然科学基金(52237002,52207055);中国博士后科学基金(2022M721232);湖北省重点研发计划(2022BAA097,2022BAA100)资助项目。

摘　　要：无速度传感器感应电机系统在低速、变负载工况运行时,转速可观测性较差。为此,提出一种负载变化下无传感器感应电机主动零频穿越及脉动抑制策略。首先,基于误差系数矩阵行列式分析,阐述了低速发电不稳定的原因,揭示了负载变化对感应电机低速运行稳定性的影响,指出负载变化下恒励磁电流策略存在转速不可观测、系统稳定性差等问题。进而,以提高负载变化下系统的转速可观测性为目标,引入主动零频穿越策略,并基于定子电流限制推导出励磁电流自适应变化区间与其修正步长。为提升系统稳态带载能力,分析了同步转速限制值对电机转矩输出能力的影响,并给出同步转速限制值取值范围。此外,为抑制主动零频穿越过程中的转速/磁链/电流脉动,保证电磁转矩和负载实时匹配,提出转矩电流相位补偿方法。最后,在2.2 kW的感应电机实验平台上验证了所提方法的有效性。In recent years,the sensorless induction motor drives(SIMD)technique has seen significant advances in industrial applications and electrical transmission systems.Compared to sensor-based control strategies,the SIMD technique has low cost,high reliability,and increased resistance to harsh environments.Conventional approaches of SIMD,such as model reference adaptive system,extended Kalman filter,sliding mode observer,and full-order flux observer,nonetheless,fail to estimate the rotor speed stably in the low-speed regenerating mode.Therefore,a proactive low-frequency ride-through(PLFRT)method and its ripple reduction technique for sensorless induction motor drives under load variation are proposed in this paper.Firstly,based on the determinant analysis of the error coefficient matrix,the instability of the IM in low-speed regenerating mode is analyzed.The influence of load variation on IM is revealed.With constant magnetizing current under changing load conditions,two problems exist:speed unobservability and poor system stability.Thus,the PLFRT method is introduced.At a fixed moment,the electromagnetic torque keeps constant.The change of the magnetizing current means the synchronous change of the torque current and the slip speed.Therefore,The PLFRT method can modify the magnetizing current reference and then the synchronous speed will be prevented from the unstable region.When the synchronous speed reaches the preset limit,the PLFRT method will be triggered,and the current reference will be modified.Then speed observability is ensured during the crossing process.The adaptive increase of the magnetizing current reference will be triggered automatically and repeatedly until the IM is in the appropriate range to cross the low-frequency region.The adaptive variation interval of magnetizing current and its correction step length are derived based on the stator current limit.The influence of synchronous speed limit is studied to enhance the torque output capacity of the sensorless IM control system.The stator current lim

关 键 词：感应电机 无速度传感器控制 零频穿越 脉动抑制 

分 类 号：TM346[电气工程—电机]