CLC number: TM15
On-line Access: 2024-08-27
Received: 2023-10-17
Revision Accepted: 2024-05-08
Crosschecked: 2014-10-16
Cited: 3
Clicked: 8758
Lei Ke, Guo-zheng Yan, Sheng Yan, Zhi-wu Wang, Da-sheng Liu. Coupling analysis of transcutaneous energy transfer coils with planar sandwich structure for a novel artificial anal sphincter[J]. Journal of Zhejiang University Science C, 2014, 15(11): 1021-1034.
@article{title="Coupling analysis of transcutaneous energy transfer coils with planar sandwich structure for a novel artificial anal sphincter",
author="Lei Ke, Guo-zheng Yan, Sheng Yan, Zhi-wu Wang, Da-sheng Liu",
journal="Journal of Zhejiang University Science C",
volume="15",
number="11",
pages="1021-1034",
year="2014",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.C1400062"
}
%0 Journal Article
%T Coupling analysis of transcutaneous energy transfer coils with planar sandwich structure for a novel artificial anal sphincter
%A Lei Ke
%A Guo-zheng Yan
%A Sheng Yan
%A Zhi-wu Wang
%A Da-sheng Liu
%J Journal of Zhejiang University SCIENCE C
%V 15
%N 11
%P 1021-1034
%@ 1869-1951
%D 2014
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.C1400062
TY - JOUR
T1 - Coupling analysis of transcutaneous energy transfer coils with planar sandwich structure for a novel artificial anal sphincter
A1 - Lei Ke
A1 - Guo-zheng Yan
A1 - Sheng Yan
A1 - Zhi-wu Wang
A1 - Da-sheng Liu
J0 - Journal of Zhejiang University Science C
VL - 15
IS - 11
SP - 1021
EP - 1034
%@ 1869-1951
Y1 - 2014
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.C1400062
Abstract: This paper presents a set of analytical expressions used to determine the coupling coefficient between primary and secondary Litz-wire planar coils used in a transcutaneous energy transfer (TET) system. A TET system has been designed to power a novel elastic scaling artificial anal sphincter system (ES-AASS) for treating severe fecal incontinence (FI), a condition that would benefit from an optimized TET. Expressions that describe the geometrical dimension dependence of self- and mutual inductances of planar coils on a ferrite substrate are provided. The effects of ferrite substrate conductivity, relative permeability, and geometrical dimensions are also considered. To verify these expressions, mutual coupling between planar coils is computed by 3D finite element analysis (FEA), and the proposed expressions show good agreement with numerical results. Different types of planar coils are fabricated with or without ferrite substrate. Measured results for each of the cases are compared with theoretical predictions and FEA solutions. The theoretical results and FEA results are in good agreement with the experimental data.
[1]Acero, J., Alonso, R., Burdio, J.M., et al., 2006a. Analytical equivalent impedance for a planar circular induction heating system. IEEE Trans. Magn., 42(1):84-86.
[2]Acero, J., Alonso, R., Burdio, J.M., et al., 2006b. Frequency-dependent resistance in Litz-wire planar windings for domestic induction heating appliances. IEEE Trans. Power Electron., 21(4):856-866.
[3]ANSYS, Inc., 2006. Ansoft Maxwell 3D Field Simulator v11 User’s Guide (Ansoft Corporation, Rev. 2.0).
[4]Babic, S., Sirois, F., Akyel, C., et al., 2010. Mutual inductance calculation between circular filaments arbitrarily positioned in space: alternative to grover’s formulas. IEEE Trans. Magn., 46(9):3591-3600.
[5]Babic, S., Sirois, F., Akyel, C., et al., 2011. New formulas for mutual inductance and axial magnetic force between a thin wall solenoid and a thick circular coil of rectangular cross-section. IEEE Trans. Magn., 47(8):2034-2044.
[6]Belyaev, O., Müller, C., Uhl, W., 2006. Neosphincter surgery for fecal incontinence: a critical and unbiased review of the relevant literature. Surg. Today, 36(4):295-303.
[7]Bharucha, A.E., Wald, A., Enck, P., et al., 2006. Functional anorectal disorders. Gastroenterology, 130(5):1510-1518.
[8]Conway, J.T., 2007. Inductance calculations for noncoaxial coils using Bessel functions. IEEE Trans. Magn., 43(3):1023-1034.
[9]Dissanayake, T.D., Hu, A.P., Malpas, S., et al., 2009. Experimental study of a TET system for implantable biomedical devices. IEEE Trans. Biomed. Circ. Syst., 3(6):370-378.
[10]Edden, Y., Wexner, S.D., 2009. Therapeutic devices for fecal incontinence: dynamic graciloplasty, artificial bowel sphincter and sacral nerve stimulation. Expert Rev. Med. Device, 6(3):307-312.
[11]Gallas, S., Leroi, A.M., Bridoux, V., et al., 2009. Constipation in 44 patients implanted with an artificial bowel sphincter. Int. J. Colorectal Dis., 24(8):969-974.
[12]Grover, F.W., 1962. Inductance Calculations. Dover Publications, NY, USA.
[13]Hurley, W.G., Duffy, M.C., 1997. Calculation of self- and mutual impedances in planar sandwich inductors. IEEE Trans. Magn., 33(3):2282-2290.
[14]Jow, U.M., Ghovanloo, M., 2007. Design and optimization of printed spiral coils for efficient transcutaneous inductive power transmission. IEEE Trans. Biomed. Circ. Syst., 1(3):193-202.
[15]Lee, S.H., Lorenz, R.D., 2011. Development and validation of model for 95%-efficiency 220-W wireless power transfer over a 30-cm air gap. IEEE Trans. Ind. Appl., 47(6):2495-2504.
[16]Liu, X., Hui, S.Y.R., 2008. Optimal design of a hybrid winding structure for planar contactless battery charging platform. IEEE Trans. Power Electron., 23(1):455-463.
[17]Ma, G.Y., Yan, G.Z., He, X., 2007. Power transmission for gastrointestinal microsystems using inductive coupling. Physiol. Meas., 28(3):9-18.
[18]Ma, J.M., Yang, Q.X., Chen, H.Y., 2010. Transcutaneous energy and information transmission system with optimized transformer parameters for the artificial heart. IEEE Trans. Appl. Supercond., 20(3):798-801.
[19]Mohan, S.S., Hershenson, M.M., Boyd, S.P., et al., 1999. Simple accurate expressions for planar spiral inductors. IEEE J. Solid-State Circ., 34(10):1419-1424.
[20]Mundy, L., Merlin, T.L., Maddern, G.J., et al., 2004. Systematic review of safety and effectiveness of an artificial bowel sphincter for faecal incontinence. Brit. J. Surg., 91(6):665-672.
[21]RamRakhyani, A.K., Mirabbasi, S., Chiao, M., 2011. Design and optimization of resonance-based efficient wireless power delivery systems for biomedical implants. IEEE Trans. Biomed. Circ. Syst., 5(1):48-63.
[22]Roshen, W.A., Turcotte, D.E., 1988. Planar inductor on magnetic substrates. IEEE Trans. Magn., 24(6):3213-3216.
[23]Soma, M., Galbraith, D.C., White, R.L., 1987. Radio-frequency coils in implantable devices: misalignment analysis and design procedure. IEEE Trans. Biomed. Eng., 34(4):276-282.
[24]Wong, D.W., Congliosi, S.M., Spencer, M.P., et.al., 2002. The safety and efficacy of the artificial bowel sphincter for fecal incontinence. Dis. Colon Rectum, 45(9):1139-1153.
[25]Yue, C.P., Wong, S.S., 2000. Physical modeling of spiral inductors on silicon. IEEE Trans. Electron Device, 47(3):560-568.
[26]Zan, P., Yan, G., Liu, H., 2008. Modeling of human colonic blood flow for a novel artificial anal sphincter system. J. Zhejiang Univ.-Sci. B (Biomed. & Biotechnol.), 9(9):734-738.
[27]Zan, P., Yan, G., Liu, H., 2009a. Analysis of electromagnetic compatibility in biological tissue for a novel artificial anal sphincter. IET Sci. Meas. Technol., 3(1):22-26.
[28]Zan, P., Yan, G., Liu, H., et al., 2009b. Adaptive transcutaneous power delivery for an artificial anal sphincter system. J. Med. Eng. Technol., 33(2):136-141.
[29]Zhang, X., Ho, S.L., Fu, W.N., 2011. Quantitative analysis of a wireless power transfer cell with planar spiral structures. IEEE Trans. Magn., 47(10):3200-3203.
[30]Zierhofer, C.M., Hochmair, E.S., 1996. Geometric approach for coupling enhancement of magnetically coupled coils. IEEE Trans. Biomed. Eng., 43(7):708-714.
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