Abstract
PCB stator coreless disc motor using PCB board as motor stator core can simplify the motor manufacturing process, its eddy current loss and winding copper consumption together constitute the motor stator loss, which directly affects the output power of the motor, reducing the eddy current loss of the motor can effectively improve the efficiency of the motor, so the combination of the trapezoidal winding and circular winding in the traditional spiral winding is designed as a spiral The combined PCB stator windings is designed to reduce the temperature rise of the winding and thus extend the service life of the PCB board. Based on ANSYS MAXWELL software, a three-dimensional model is established for finite element simulation, the relationship between the eddy current loss of the combined winding and the trapezoidal winding is compared and analyzed, and the magnitude of copper consumption of the motor winding under the corresponding winding is calculated. The simulation results prove that the designed stator winding structure can increase heat dissipation, reduce the motor loss value and improve the power factor.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Gong **ao, X., Yanliang, F.K.: Analytical calculation of a new disc-type transverse flux permanent magnet motor and its no-load electric potential waveform. Journal of Electrotechnology 29(7), 77 (2014)
Daghigh, A., Javadi, H., Iavadi, A.: Improved analytical modeling of permanent magnet leakage flux in design of the coreless axial flux permanent magnet generatorx. Can. J. Electr. Comput. Eng. 40(1), 3–9 (2017)
Daghigh, A., Javadi, H., Javadi, A.: Improved analytical modeling of permanent magnet leakage flux in design of the coreless axial flux permanent magnet generator. Canadian Journal of Electrical and Computer Engineering 40(1) (2017)
**aoyuan, W., Xudong, H., Tianyuan, L.: Optimal design of PCB stator disc-type permanent magnet motor windings under high-frequency power supply conditions. Chinese J. Electr. Eng. 41(06), 1937–1946 (2021)
**aoyuan, W., **ang, L., Wei, P., Chunpeng, L., Fei, L., **aoyu, H.: Comparative analysis of distributed windings of PCB stator coreless disc motor. Electric machines and control 22(11), 11–18 (2018)
Liu, X., Ma, T., Zhao, J.: A Review of Stator Centerless Axial Flux Permanent Magnet Synchronous Machines. Proceedings of the CSEE (2019)
Wu, J.: Design of a miniature axial flux flywheel motor with PCB winding for nanosatellite. In: International Conference On Opt-oe lectronics and Microelectronics, August 23-25201-2, pp. 544–548. Changchun, China (2012)
Dehez, B., Markovi, C.M.: Classical and Flex PCB slotless windings in BLDC Motors. In: International Conference on Electrical Machines and Systems, October 21–24, 2012, pp. 1–6, Sapporo, Japan (2012)
Wang, H., Wu, J., Li, Y., et al.: Stator winding design of printed circuit board for axial flux flywheel motor. Optics and precision engineering 23(4), 1004 (2015)
Mour, Y.S., Iqbal, M.: A permanent magnet generator with PCB stator for low speed Marine current applications. Develo-pments in Renewable Energy Technology, December 17-19, 2009, pp. 1-4. Dhaka, Bangladesh (2009)
Wang, X., Yang, G., Wang, Y., et al.: Study on PCB winding loss optimization of axial flux reaction flywheel m-otor. Small & Special Electric Machines 44(6), 5 (2016)
Wang, W., Song, Z., Chen, J., et al.: Natural frequency and electromagnetic noise calculation of stator system of AFI-R disc permanent magnet motor. Electric Machines & Control 13(6), 857 (2009)
Donato, G.D., Capponi, F.G., Caricchi, F.: on the use of axial flux permanent Magnet machines. IEEE Transactions on I-ndustrial Electronics 60(11), 4831 (2013)
Cao, Y.J., Huang, Y.K., **, L., et al.: Design and analysis of axial magnetic field coreless permanent magnet motor with combined magnetic poles. Chinese J. Electri. Eng. 34(6), 903–909 (2014)
Wang, X.: Design and Analysis of a New Type of armature Disc Motor without Core. Bei**g: China Ship Research Institute (2012)
Darren, D.: On the design and analysis of a printed circuit board in a high spped surface permanent magnet axial flux machine. University of Wisconsin, Madison (2009)
**aoyuan, W., Fei, L., Chunpeng, L.: Optimization of spiral winding of PCB disc permanent magnet synchronous machine. Proceedings of the csee 37(20), 6092–6100 (2017)
Wang **aoguang, H., Zanxian, Z.M., Lingyun, L.: Design and optimization of winding structure of PCB stator coreless disc motor. Microelectric machines 53(10), 17–21 (2020)
He, C.: Design and optimization of disc-type coreless permanent magnet synchronous motor based on PCB winding. Shanghai Institute of Electrical Engineering (2018)
Zhou, C.: Research on temperature field analysis and cooling method of disc motor based on PCB winding. Tian** University (2016)
**aoyuan, W., Chen, Z.: Temperature field analysis and cooling mode research of disc permanent magnet synchronou-s motor based on PCB windings. China electrical engineering journal 36(11), 3062–3069 (2016)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 Bei**g Paike Culture Commu. Co., Ltd.
About this paper
Cite this paper
Li, Y., Sun, H., Zhang, L., Li, G., Hu, W., Guo, Y. (2023). Design and Optimization of PCB Stator Spiral Combination Winding for Disc-Type Permanent Magnet Motor. In: Li, J., **e, K., Hu, J., Yang, Q. (eds) The Proceedings of the 17th Annual Conference of China Electrotechnical Society. ACCES 2022. Lecture Notes in Electrical Engineering, vol 1013. Springer, Singapore. https://doi.org/10.1007/978-981-99-0451-8_44
Download citation
DOI: https://doi.org/10.1007/978-981-99-0451-8_44
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-99-0450-1
Online ISBN: 978-981-99-0451-8
eBook Packages: EngineeringEngineering (R0)