참고문헌
- Y-H. Kim and H-D. Ha, 'Design of Interface Circuits with Electrical Battery Models,' IEEE Trans. on Industrial Electronics , Vol. 44, No. I, pp. 81-86, Feb. 1997 https://doi.org/10.1109/41.557502
- H. L. Chan and D. Sutanto, A New Battery Model for use with Battery Energy Storage Systems and Electric Vehicles Power Systems,' in Proc. IEEE Power Engineering Society Winter Meeting,Singapore,No. l.l, pp. 470-475, Jan. 2000
- J. Marcos, A. Lago, C. M. Penalver, J. Doval, A. Nogueira, C. Castro, and J. Chamadoira, 'An Approach to Real Behavior Modeling for Traction Lead-Acid Batteries,' in Proc. IEEE 32nd Annual Power Electronic Specialists Conf., Vancouver, BC, Canada, Vol. 2, pp. 620-624, June. 2001.
-
H-G. Jeong, B-M. Jung, S-B. Han, S. Park, and S-H. Choi, 'Modeling and Performance Simulation of Power Systems in Fuel Cell Vehiclesin,' Proc.
${3}^r^d$ International Power Electronics and Motion Control Conf., Beijing, China, Vol. 2, pp. 671-675, Aug. 2000 - V-H. Kim and S-S. Kim, 'An Electrical Modeling and Fuzzy Logic Control of a Fuel Cell Generation system,' IEEE Trans. on Energy Conversion, Vol. 14, No.2, pp 239-244, Jun. 1999
-
W. Turner, M. Parten, D. Vines, J. Jones, and T. Maxwell, 'Modeling of a PEM Fuel Cell for Use in a Hybrid Electric Vehicle,' in Proc.
${49}^t^h$ IEEE Vehicular Technology Conf., Amsterdam, The Netherlands, Vol. 2, pp. 1385-1388, Sept. 1999 - J-H. Yoo, J-S. Gho, and G-H. Choe, 'Analysis and Control of PWM Converter with V-I Output Characteristics of Solar Cell,' in Proc. 2001 IEEE International Symposium on Industrial Electronics, Pusan, Korea, Vol. 2, pp. 1049-1054, Jun. 2001.
-
G. A. Vokas, A. V. Machias, and J. L. Souflis, 'Computer Modeling and Parameters Estimation for Solar Cells,' in Proc.
${6}^t^h$ Mediterranean Electrotechnical Conf., 니ubljana,Slovenia, Vol. 1, pp. 206-209. May. 1991 -
R. L. Spyker and R. M. Nelms, 'Double Layer Capacitor/DC-DC Converter System Applied to Constant Power Loads,' in Proc. IEEE
${31}^s^t$ Intersociety Energy Conversion Engineering Conf., Washington, DC, Vol. 1, pp. 255-259, Aug. 1996 - J. P. Zheng, T. R. Jow, and M. S. Ding, 'Hybrid Power Sources for Pulsed Current Applications,' IEEE Trans. on Aerospace and Electronic Systems, Vol. 37, No. 1, pp. 288-292, Jan. 2001 https://doi.org/10.1109/7.913688
-
X. Van and D. Patterson, 'Improvement of Drive Range, Acceleration, and Deceleration Performance in an Electric Vehicle Propulsion System,' in Proc. IEEE
${30}^t^h$ Annual Power Electronic Specialists Conf., Charleston, South Carolina, Vol. 2, pp. 638-643, June. 1999 -
A. F. Burke,'Prospects for Ultracapacitors in Electric and Hybrid Vehicles , ' in Proc. IEEE
${11}^t^h$ Annual Battery Conf. on Applications and Advances, Long Beach, CA, pp. 183-188, Jan. 1996 -
B. G. Beaman and G. M. Rao, 'Hybrid Battery and Flywheel Energy Storage System for LEO Spacecraft,' in Proc. IEEE
${13}^t^h$ Annual Battery Conf. on Applications and Advances, Long Beach, CA, pp. 113-116, Jan. 1998 - L. J. Reinke, 'Tutorial Overview of Flywheel Energy Storage in a Photovoltaic Power Generation System,' in Proc. IEEE Canadian Canf. on Electrical and Computer Engineering, Vancouver, Canada, Vol. 2, pp. 1161- 1164. Sept. 1993.
- R. S. Weissbach, G. G. Karady, and R. G. Farmer, 'Combined Uninterruptible Power Supply and Dynamic Voltage Compensator using a Flywheel Energy Storage System,' IEEE Trans. on Power Delivery, Vol. 16, No.2, Apr. 2001
- T. Boutot, L. Chang, and D. Luke, 'A Low Speed Flywheel System for Wind Energy Conversion,' in Proc. IEEE Canadian Coηf. on EIectrical and Computer Engineering, Winnipeg, Vol. 1, pp. 251-256, Canada, May. 2002
- Z. Jiang, 'Flywheel Energy System Virtual Test Bed (VTB) Model,' see http://vtb.engr.sc.edu/