电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
3期
807-811
,共5页
陈珂睿%王泽忠%刘胜南%夏天%方舟%闫磊%赵莉莉%郭若颖
陳珂睿%王澤忠%劉勝南%夏天%方舟%閆磊%趙莉莉%郭若穎
진가예%왕택충%류성남%하천%방주%염뢰%조리리%곽약영
非接触式电能传输系统%疏松耦合变压器%有限元%电感参数计算%功率传输效率
非接觸式電能傳輸繫統%疏鬆耦閤變壓器%有限元%電感參數計算%功率傳輸效率
비접촉식전능전수계통%소송우합변압기%유한원%전감삼수계산%공솔전수효솔
inductively coupled power transfer system%loosely coupled transformer%finite element%calculation of inductance parameters%power transferring efficiency
搭建以实验模型为基础的非接触式电能传输系统仿真计算模型,考虑该系统实际应用中疏松耦合变压器可能出现的不理想工作情况,利用ANSYS有限元仿真软件分析变压器不同气隙厚度、横向、纵向不同侧移距离下电感参数的变化趋势,通过实验举例验证上述仿真计算的可行性。实现疏松耦合变压器原副边两侧电路的解耦,对不同频率下的系统进行电容补偿,分析变压器原副边分别谐振情况下系统功率和传输效率的影响因素,研究系统功率和效率随负载电阻、频率和电感参数的变化规律,为提高非接触式电能传输系统的优化设计提供参考。
搭建以實驗模型為基礎的非接觸式電能傳輸繫統倣真計算模型,攷慮該繫統實際應用中疏鬆耦閤變壓器可能齣現的不理想工作情況,利用ANSYS有限元倣真軟件分析變壓器不同氣隙厚度、橫嚮、縱嚮不同側移距離下電感參數的變化趨勢,通過實驗舉例驗證上述倣真計算的可行性。實現疏鬆耦閤變壓器原副邊兩側電路的解耦,對不同頻率下的繫統進行電容補償,分析變壓器原副邊分彆諧振情況下繫統功率和傳輸效率的影響因素,研究繫統功率和效率隨負載電阻、頻率和電感參數的變化規律,為提高非接觸式電能傳輸繫統的優化設計提供參攷。
탑건이실험모형위기출적비접촉식전능전수계통방진계산모형,고필해계통실제응용중소송우합변압기가능출현적불이상공작정황,이용ANSYS유한원방진연건분석변압기불동기극후도、횡향、종향불동측이거리하전감삼수적변화추세,통과실험거례험증상술방진계산적가행성。실현소송우합변압기원부변량측전로적해우,대불동빈솔하적계통진행전용보상,분석변압기원부변분별해진정황하계통공솔화전수효솔적영향인소,연구계통공솔화효솔수부재전조、빈솔화전감삼수적변화규률,위제고비접촉식전능전수계통적우화설계제공삼고。
Based on experimental model, a simulation model for inductively coupled power transfer (ICPT) system is constructed. Considering possibly non-ideal working condition of loosely coupled transformer, which may occur during actual application of IICPT system, the finite element simulation software ANSYS is used to analyze the variation tendency of inductance parameter of loosely coupled transformer under different air-gaps and different lateral displacements in transverse and longitudinal directions, and to validate the feasibility of above-mentioned simulation by experiment. To implement the decoupling between primary winding and secondary winding of loosely coupled transformer, the capacitance compensation for self-inductances of both windings under different frequencies is carried out and the impacting factors on system power and transferred efficiency under resonance respectively occurred in primary and secondary winding as well as the varying rules of system power and transferring efficiency with the variation of resistance, frequency and inductance parameter of the load are analyzed, to provide reference for optimization design of ICPT system.
