諧振耦合式電能無(wú)線傳輸系統(tǒng)效率研究進(jìn)展
李方紅�����,殷波���,宮飛翔
中國(guó)海洋大學(xué) 信息科學(xué)與工程學(xué)院,山東 青島 266100
摘 要:諧振耦合式電能無(wú)線傳輸技術(shù)是有別于感應(yīng)耦合式電能無(wú)線傳輸技術(shù)的一種新型技術(shù)�����,能實(shí)現(xiàn)供電設(shè)備和用電設(shè)備之間的中等距離電能傳輸�。介紹了諧振耦合式電能無(wú)線傳輸技術(shù)的工作原理,對(duì)影響諧振耦合式電能無(wú)線傳輸系統(tǒng)傳輸效率的因素進(jìn)行了分類(lèi)研究���,并給出了提高系統(tǒng)傳輸效率的方法�����。指出在實(shí)際應(yīng)用中�����,要實(shí)現(xiàn)系統(tǒng)的最大效率傳輸����,就要確定合適的電路工作方式、諧振頻率和線圈參數(shù)�����。
關(guān)鍵詞:無(wú)線能量傳輸�;諧振耦合;傳輸效率�����;中等距離
中圖分類(lèi)號(hào):TM724 文獻(xiàn)標(biāo)識(shí)碼:A 文章編號(hào):1007-3175(2014)04-0001-07
Progress on Wireless Power Transmission System Efficiency Study of Self-Resonance Coupling Coils
LI Fang-hong, YIN Bo, GONG Fei-xiang
College of Information Science and Engineering, Ocean University of China, Qingdao 266100, China
Abstract: The wireless power transmission technology of self-resonance coupling coils is a new type technology different from the wireless power transmission technology of induction coupling coils. The technology could realize power transmission of medium distance between power supply equipment and power use equipment. Introduction was made to the working principle of wireless power transmission technology of self-resonance coupling coils. This paper carried out classification study on factors which had impacts on the wireless power transmission efficiency of self-resonance coupling coils and gave the method to lift system transmission efficiency. It is pointed out that in actual application, to realize max efficiency of the system is to determine the proper circuit working method, resonance frequency and coils parameters.
Key words: wireless power transmission; resonance coupling; transmission efficiency; medium distance
參考文獻(xiàn)
[1] 孫躍�,夏晨陽(yáng),戴欣�,等.感應(yīng)耦合電能傳輸系統(tǒng)互感耦合參數(shù)的分析與優(yōu)化[J].中國(guó)電機(jī)工程學(xué)報(bào),2010�,30(33):44-50.
[2] 戴欣�����,孫躍.單軌行車(chē)新型供電方式及相關(guān)技術(shù)分析[J].重慶大學(xué)學(xué)報(bào)��,2003,26(1):50-53.
[3] Wang Guoxing, Liu Wentai, Sivaprakasam M,et al.A dual band wireless power and data telemetry for retinal prosthesis[C]//Proceed-ings of the 28th IEEE EMBS Annual International Conference, 2006.
[4] Sallan J,Villa J L,Llombart A, et al.Optimal Dseign of ICPT Systems Applied to Electric Vehicle Battery Charge[J].IEEE Transactions on Industrial Electronics, 2009�,56(6):2140-2149.
[5] Kurs André, Karalis Aristeidis, Moffatt Robert,et al.Wireless power transfer via strongly coupled magnetic resonances[J]. Science,2007�,317(6):83-86.
[6] Hamam R E, Karalis A, Joannoponlos J D,et al.Coupled-mode theory for general free-space resonant scattering of waves[J].Physical Review A, 2007,75(5):1-5.
[7] Karalis A, Joannopoulos J D, Soljacic M. Efficient wireless non-radiative mid-range energy transfer[J].Annals of Physics, 2008�,323(1):34-48.
[8] 何秀,顏國(guó)正����,馬官營(yíng).互感系數(shù)的影響因素及其對(duì)無(wú)線能量傳輸系統(tǒng)效率的影響[J].測(cè)控技術(shù),2007���,26(11):57-60.
[9] 傅文珍��,張波��,丘東元�,等.自諧振線圈耦合式電能無(wú)線傳輸?shù)淖畲笮史治雠c設(shè)計(jì)[J].中國(guó)電機(jī)工程學(xué)報(bào)�,2009,29(18):21-26.
[10] Seung-Hwan L, Lorenz R D.Development and validation of model for 95%-efficiency 220-W wireless power transfer over a 30-cm air gap[J].IEEE Transactions on Industry Applications, 2011�,47(6):2495-2504.
[11] 封阿明,毛志鑫�����,秦海鴻.非接觸感應(yīng)電能傳輸系統(tǒng)的頻率分叉現(xiàn)象及移相控制策略[J].上海電機(jī)學(xué)院學(xué)報(bào),2010���,13(1):17-21.
[12] 李陽(yáng)�����,楊慶新����,閆卓���,陳海燕���,張獻(xiàn),金亮�,薛明.磁耦合諧振式無(wú)線電能傳輸系統(tǒng)的頻率特性[J].電機(jī)與控制學(xué)報(bào),2012���,16(7):7-11.
[13] Cheon Sanghoon, Kim Yong-Hae, Kang Seung-Youl, et al.Circuit-model-based analysis of a wireless energy-transfer system via coupled magnetic resonances[J].IEEE Transactions on Industrial Electronics, 2011��,58(7):2906-2914.
[14] 程麗敏�����,崔玉龍.磁耦合諧振式無(wú)線電能傳輸技術(shù)研究進(jìn)展[J].電工電氣����,2012(12):1-5.
[15] 鄒玲����,鄭偉,李麗.磁耦合諧振式無(wú)線能量傳輸系統(tǒng)頻率特性研究[J].湖北工業(yè)大學(xué)學(xué)報(bào)�����,2013���,28(1):82-85.
[16] 翟淵��,孫躍�����,戴欣�����,蘇玉剛�����,王智慧.磁共振模式無(wú)線電能傳輸系統(tǒng)建模與分析[J].中國(guó)電機(jī)工程學(xué)報(bào)��,2012���,32(12):155-160.
[17] Chen Xiaoyuan, Jin Jianxun.Resonant Circuit and magnetic field analysis of superconducting contactless power transfer[C]//International Conference on Applied Superconductirity and Electromagnetic Devices,2011.
[18] 張獻(xiàn)�,楊慶新�,陳海燕,等.電磁耦合諧振式傳能系統(tǒng)的頻率分裂特性研究[J].中國(guó)電機(jī)工程學(xué)報(bào)��,2012���,32(9):167-172.
[19] Kim N Y, Kim K Y, Kim C W.Automated frequency tracking system for efficient mid-range magnetic resonance wireless power transfer[J].Microwave and Optical Technology Letters, 2012�����,54(6):1423-1426.
[20] Imura T, Hori Y.Maximizing Air Gap and Efficiency of Magnetic Resonant Coupling for Wireless Power Transfer Using equivalent Circuit and Neumann Formula[J].IEEE Transactions on Industrial Electronics, 2011���,58(10):4746-4752.
[21] Jongmin P, Youndo T, Yoongoo K, et al.Investigation of adaptive matching methods for near-field wireless power transfer[J].IEEE Transactions on Antennas and Propagation, 2011,59(5):1769-1773.
[22] Dukju A, Songcheol H.A study on magnetic field repeater in wireless power transfer[J].IEEE Transactions on Industrial Electronics, 2013����,60(1):360-371.
[23] Sample A P, Meyer D A, Smith J R.Analysis, experimental results����,and range adaptation of magnetically coupled resonators for wireless power transfer[J].IEEE Transactions on Industrial Electronics�����,2011�����,58(2):544-554.
[24] Sanghoon C,Yong-Hae K,Seung-Youl K,et al.Circuit-model-based analysis of a wireless energy-transfer system via coupled magnetic resonances[J].IEEE Transactions on Industrial Electronics���,2011,58(7):2906-2914.
[25] 趙爭(zhēng)鳴�����,張藝明�����,陳凱楠.磁耦合諧振式無(wú)線電能傳輸技術(shù)新進(jìn)展[J].中國(guó)電機(jī)工程學(xué)報(bào)�����,2013,33(3):1-13.
[26] Yuan Qiaowei,Chen Qiang,Li Long,et al.Numerical Analysis on Transmission Efficiency of Evanescent Resonant Coupling Wireless Power Transfer System[J].IEEE Transactions on Antennas and Propagation���,2010��,58(5):17511758.
[27] Cannon B L,Hoburg J F,Stancil D D,et al.Magnetic Resonant Coupling As a Potential Means for Wireless Power Transfer to Multiple Small Receivers[J].IEEE Transactions on Power Electronics����,2009�����,24(7):1819-1825.
[28] Thuc P D, Jong-Wook L.Experimental results of high-efficiency resonant coupling wireless power transfer using a variable coupling method[J].IEEE Microwave and Wireless Components Letters, 2011���,21(8):442-444.
[29] Jin Wook K, Hyeon-Chang S, Kwan-Ho K, et al. Efficiency analysis of magnetic resonance wireless power transfer with intermediate resonant coil[J].IEEE Antennas and Wireless Propagation Letters, 2011���,10:389-392.
[30] 駱彥廷,楊擁民�,陳仲生.磁耦合諧振式無(wú)線電能傳輸系統(tǒng)建模與分析[J].中國(guó)集成電路,2013��,22(8):46-51.
[31] 傅文珍����,張波���,丘東元.頻率跟蹤式諧振耦合電能無(wú)線傳輸系統(tǒng)研究[J].變頻器世界,2009(8):41-46.
[32] 張小壯.磁耦合諧振式無(wú)線能量傳輸距離特性及其實(shí)驗(yàn)裝置研究[D].哈爾濱:哈爾濱工業(yè)大學(xué)�,2009.
[33]周甜,萬(wàn)隆君�,徐軼群.磁耦合諧振式無(wú)線能量傳輸系統(tǒng)特性研究[J].中國(guó)科技信息����,2012(24):43-44.
[34] Mizuno T, Yachi S, Kamiya A, et al. Improvement in efficiency of wireless power transfer of magnetic resonant coupling using magnetoplated wire[J].IEEE Transactions on Magnetics, 2011,47(10):4445-4448.
[35] Choi J, Seo C.High-efficiency wireless energy transmission using magnetic resonance based on metamaterial with relative permeability equal to-1[J].Progress in Electromagnetics Research, 2010����,106:33-47.
[36] 張超.磁諧振耦合無(wú)線能量傳輸系統(tǒng)諧振器的仿真和實(shí)驗(yàn)研究[D].天津:河北工業(yè)大學(xué),2010.
[37] 任立濤.磁耦合諧振式無(wú)線能量傳輸功率特性研究[D].哈爾濱:哈爾濱工業(yè)大學(xué)����,2009.
[38] Fei Z, Hackworth S A, Weinong F, et al.Relay effect of wireless power transfer using strongly coupled magnetic resonances[J].IEEE Transactions on Magnetics, 2011,47(5):1478-1481.
[39] Wenxing Z, Chi Kwan L, Hui S Y R.General Analysis on the Use of Tesla's Resonators in Domino Forms for Wireless Power Transfer[J].IEEE Transactions on Industrial Electronics, 2013����,60(1):261-270.
[40] Zhong W X, Chi Kwan L, Hui S Y.Wireless Power Domino-Resonator Systems with Noncoaxial Axes and Circular Structures[J].IEEE Transactions on Power Electronics, 2012,27(11):4750-4762.
