REFERENCES
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PART-T*
Rooks
JL /11\I
[1] Ruben D. Garzon, High Voltage Circuit Breakers - Design, Testing and Applications,
Marcel Dekker, New York, 2002.
[2] Badri Ram and P. N. Viswkarma, Power system protection and switchgear, Tata
Me Graw - Hill, New Delhi.
[3] B. Ravindranath and M. Chander , Power system protection and switchgear, Wiley
Eastern, New Delhi.
[4] Kamraju and Naidu, High Voltage Engineering, Tata Me Graw - Hill, New Delhi.
[5] Hand book of switchgears, Bharat Heavy Electricals Ltd. (BHEL), Tata Me
Graw - Hill, New Delhi, 2005.
[6] D. Roy Choudhury
and
Shail
B. Jain, Linear
Integrated
circuits, New Age
International, New Delhi, 2007.
[7] R. P. Jain, Modem Digital Electronics, Tata Me Graw - Hill, New Delhi, 2006
[8] Rudra Pratab, Mat lab 7, Oxford University Press, New Delhi, 2006
[9] S. S. Rao, Optimization: Theory and Applications, New Age International, New Delhi,
2007.
[10] Gajavelli S. S. Bhishma Rao, Optimization Techniques, Scitech Publications Ltd.,
Chennai, 2006.
PART-II: Papers
[11] C.L.Wagner, H.M.Smith, “Analysis of transient recovery voltage (TRV) rating
concepts”, IEEE transactions on Power Apparatus and Systems Vol. PAS - 103, 1984,
P. 3354.
[12] W.P. Legros, A.M.Genon, “Computer aided design of synthetic test circuit for high
voltage circuit breakers”, IEEE transactions on power delivery, Vol. 4, No.2, April
1989.
[13] D. Dufoumet and G. Montillet, “Three-phase short circuit testing of high voltage circuit
breakers using synthetic circuits,” IEEE Trans. Power Delivery, vol. 15, No. 1, pp. 142
-147, Jan. 2000.
149
[14]
B. L. Sheng, “Design consideration of Weil - Dobke synthetic testing circuit for
the interrupting testing of HV AC circuit breakers,” in proc. 2001 IEEE Power
Engineering Society Conference, pp. 295 - 299.
[15] B.L. Sheng and L. Van der sluis, “The influence of the arc voltage in synthetic
test circuits” IEEE Trans, on power delivery, Vol. 10, No. 1, January 1995.
[16] P.H. Schavemaker, L. Van der sluis, R.P.P Smeets and V. Kertesz, “ Digital testing
of high-voltage circuit breakers,” IEEE Trans, on computer Applications, Vol. 13,
Issue 2, pp. 52 - 56, April 2000.
[17] B.L. Sheng and L. Van der, “Comparison of synthetic test circuits for ultra high
voltage circuit breakers”, IEEE Trans, on power delivery, Vol. 11, No. 4, Oct. 1996.
[18] B. L. Sheng and L. Van der, “A new synthetic test circuit for Ultra-high voltage
circuit breakers,” IEEE Trans, on Power Delivery,
vol. 12, No. 4, pp.1514-1519,
Oct. 1997.
[19]
L. Van derand W.R.Rutgers, “comparison of test circuits for high voltage circuit
breakers by numerical calculations with arc models” IEEE Trans, on power
delivery, Vol.7,No.4, oct.1992.
[20] T. Betz
and
D. Koenig , “ Fundamental studies on vacuum circuit breaker arc
quenching limits with a synthetic test circuit,” IEEE Trans, on Dielectrics and
Electrical Insulation, vol. 4, No. 4, pp.365-369, Aug. 1997.
[21] P. Osmokrovic, N. Arsic and D. Kusic, “Numerical and experimental design of
three-electrode spark gap for synthetic test circuits,” IEEE Trans, on
Power
Delivery, Vol. 9, No. 3, pp. 1444-1450, July 1994.
[22] Cai Zhiyuan, Ma Shaohua, Dai Jun, and Wang Erzhi, “ Breaking capacity test of
vacuum circuit breaker using synthetic test circuit with current zero forecast” in
proc .2004 IEEE Discharges and Electrical Insulation in vacuum conf. pp.387-390.
[23]
ATMEL’S
Application
Guide
on
8-bit
AVR
Microcontroller
Rev. 2486B -12/01.
[24] PSIM Simulation Software, Version 6.1, By Powersim Inc. Feb.2005
150
ATmega8,
PART-III: Standards
[25] IEC 62271-100 (2008): High voltage Alternating Current Circuit Breakers^W*?"
;
[26] IEC 62271-101 (2006): Synthetic Testing of High Voltage Alternating Cur^t^teft§i
Breakers.
[27] IS 13118 (1997): Specifications for High voltage Alternating Current Circuit Breakers.
[28] IS 13516 (1993): Methods of Synthetic Testing of High voltage Alternating Current
Circuit Breakers.
[29] IEEE Standard C37.011 (2005), “ Application Guide for Transient Recovery
Voltage for A.C. High voltage circuit breakers”
[30] IEEE Standard PC37.04b (2008), “ IEEE standard rating structure for AC High
Voltage circuit breakers rated on a symmetrical current basis”- Amendment to
change the description of TRV for harmonization with IEC 62271-100.
[31] ANSI Standard C37.06-2000, “A.C. high voltage circuit breakers rated on a
symmetrical current basis- Preferred Ratings and related required capabilities”
151