Abstract:The novel high efficiency single-phase induction motor has three series-connected stator windings which connected with two capacitors, which can operate almost symmetrically with single-phase supply with higher efficiency and smaller volume than the normal single-phase motor with same rated power. Based on the symmetrical components method and the stator circuit structure of the novel single-phase induction motor with three-phase symmetrical windings and two capacitors, the balanced operation condition of the motor is deduced and the actual-variable transient simulation model of the motor is constructed in a-b-c stationary reference frame. The transient performance of the motor are simulated, and the variation patterns of capacitors to start-time, torque, and speed are presented, which are important to the design of the motor. The performance tests are done on the proposed motor and the three-phase induction motor. The simulation results from the model agree well with the experimental investigations. To improve the starting performance, starting method with two additional capacitors is proposed, and verified by simulated results. To reduce the number of starting capacitors, a new starting method with one additional starting capacitor is proposed and verified.
仲慧, 王秀和, 张成, 魏蓓, 牟晓磊. 三绕组串联式高效单相感应电动机瞬态性能[J]. 电工技术学报, 2011, 26(4): 32-34.
Zhong Hui, Wang Xiuhe, Zhang Cheng, Wei Bei, Mu Xiaolei. Transient Performance of a Novel High Efficiency Single-Phase Induction Motor With Three Series-Connected Windings. Transactions of China Electrotechnical Society, 2011, 26(4): 32-34.
[1] Browm J E, Jha C S. Starting of a three-phase induction motor connected to a single phase supply system[J]. Proc.Inst.Elect.Eng, 1959, 106(1): 183-190. [2] Alwash J H H. Predicting performance of three phase induction motors connected to single phase supplies[J]. IEE Proceedings on Electric Power Applications, 1996, 143(4): 339-341. [3] Tozune A D.Balanced operation of three-phase induction motor with asymmetrical stator windings connected to single-phase supply system[J]. IEE Proceeding, Part B, 1991, 138(4): 167-174. [4] Smith O J. High efficiency large single-phase adapters and motors[J]. IEEE Power Eng. Rev., 1998, 18(1): 58-59. [5] Smith O J. High-efficiency single-phase motors[J]. IEEE Transactions on Energy Conversion, 1992, 7(4): 560-569. [6] Chan T F, Lai L L. Single-phase operation of a three-phase induction generator with the smith connection[J]. IEEE Transactions on Energy Conversion, 2002, 17(1): 47-54. [7] Smith O J M. High-efficiency single-phase SemihexTM motors[J]. Electric Machines and Power System, 1998, 26(6): 573-584. [8] Smith O J M. Large low-cost single-phase SemihexTM motors [J]. IEEE Transactions on Energy Conversion, 1999, 14(11): 1353-1358. [9] 王秀和, 田国会. 新型高效单相感应电动机的设计计算方法研究[J]. 电工技术学报, 2000, 15(4): 10-13. [10] 付大金, 王秀和, 杨玉波, 等. 一种新型高效单相感应电动机的试验研究[J]. 电工技术杂志, 2003(5): 52-54. [11] 仲慧, 王秀和, 张洪宝, 等. 新型接法的三绕组单相电动机[J]. 中国电机工程学报, 2009, 27(21): 69-73.
2011, Vol. 26 
