Page 116 - Modern Control of DC-Based Power Systems
P. 116
80 Modern Control of DC-Based Power Systems
[17] J.R. LeSage, R.G. Longoria, W. Shutt, Power system stability analysis of synthesized
complex impedance loads on an electric ship, 2011 IEEE Electric Ship Technologies
Symposium (ESTS), pp. 34 37, April 10 13, 2011.
[18] J.G. Ciezki, R.W. Ashton, Selection and stability issues associated with a navy ship-
board DC zonal electric distribution system, IEEE Trans. Power Deliv. 15 (2) (Apr
2000) 665 669.
[19] C. Rivetta, A. Emadi, G.A. Williamson, R. Jayabalan, B. Fahimi, Analysis and con-
trol of a buck DC-DC converter operating with constant power load in sea and
undersea vehicles, Conference Record of the 2004 IEEE Industry Applications
Conference, 2004. 39th IAS Annual Meeting., vol. 2, pp. 1146 1153, Oct. 3 7,
2004.
[20] M.K. Zamierczuk, R.C. Cravens, A. Reatti, Closed-loop input impedance of PWM
buck-derived DC-DC converters, in 1994 IEEE International Symposium on
Circuits and Systems, 1994. ISCAS’94, 1994, vol. 6, pp. 61 64.
[21] S. Buso, P. Mattavelli, Digital Control in Power Electronics, Mogan & Claypool
Publishers, Princeton, NJ, 2006.
[22] R.W. Erickson, D. Maksimovic, Fundamentals of Power Electronics, 2nd ed.,
Kluwer Academic Publisher, 2001.
[23] A. Baetica, Integrator windup and PID controller design, Caltech, accessed 20
February 2016, available at https://www.cds.caltech.edu/Bmurray/wiki/images/6/
6f/Recitation_110_nov_17.pdf.
[24] A. Emadi, A. Khaligh, C.H. Rivetta, G.A. Williamson, Constant power loads and
negative impedance instability in automotive systems: definition, modeling, stability,
and control of power electronic converters and motor drives, IEEE Trans. Vehicular
Technology 55 (Jul. 2006) 1112 1125.
[25] A. Emadi, A. Ehsani, Dynamics and control of multi-converter DC power electronic
systems, Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd
Annual, vol. 1, pp. 248 253, 2001.
[26] Y. Jang, R.W. Erickson, Physical origins of input filter oscillations in current pro-
grammed converters, IEEE Trans. Power Electronics 7 (4) (Jul. 1992) 725 733.
[27] A. Emadi, B. Fahimi, M. Ehsani, On the concept of negative impedance instability
in advanced aircraft power systems with constant power loads, Society of
Automotive Engineers (SAE) Journal, Paper No. 1999-01-2545, 1999.
[28] A.B. Jusoh, The instability effect of constant power loads, in Proc. IEEE National
Power and Energy Conference, 2004, pp. 175 179.
[29] R.D. Middlebrook, Input Filter Considerations in Design and Application of
Switching Regulators, IEEE IAS Annual Meeting, 1976.
[30] C.M. Wildrick, F.C. Lee, B.H. Cho, B. Choi, A method of defining the load imped-
ance specification for a stable distributed power system, Power Electr. IEEE Trans.
10 (3) (May 1995) 280 285.
[31] X. Feng, Z. Ye, K. Xing, F.C. Lee, D. Borojevic, Impedance specification and imped-
ance improvement for DC distributed power system, Power Electronics Specialists
Conference, 1999. PESC 99. 30th Annual IEEE, vol. 2, pp. 889 894, 1999.
[32] X. Feng, Z. Ye, K. Xing, F.C. Lee, D. Borojevic, Individual load impedance specifi-
cation for a stable DC distributed power system, Applied Power Electronics
Conference and Exposition, 1999. APEC ‘99. Fourteenth Annual, vol. 2, pp.
923 929, March 14 18, 1999.
[33] X. Feng, J. Liu, F.C. Lee, Impedance specifications for stable DC distributed power
systems, Power Electr. IEEE Trans. 17 (2) (March 2002) 157 162.
[34] S.D. Sudhoff, S.F. Glover, P.T. Lamm, D.H. Schmucker, D.E. Delisle, Admittance
space stability analysis of power electronic systems, Aerospace . Electr. Syst. IEEE
Trans. 36 (3) (Jul 2000) 965 973.
