Tài liệu IEEE(đọc kỹ bài đầu tiên trước khi gửi yêu cầu)

@vuuvuu, boyhen: đã có t.liệu cho các bạn
@Ute: đã có 8 tài liệu đầu cho bạn
Nice week
nghichnham

@hienvth: đã up tài liệu cho bạn rồi. Tài liệu [4] và [24] giống nhau
@Ute: đã up nốt tài liệu cho bạn
@blackeyes_hut: bạn đọc lại cách post yêu cầu ở bài đầu nhé.
thân
nghichnham

Em cam on bac ngichnham ah ! Em da lay duoc roi ah. Em cam on bac nhieu ! Em chuc bac mot buoi trua ngon mieng !( Ko biet ben do bac dang vao buoi j?) !!! .

Xin loi bac, em doc khong ky huong dan cua bac. Em post lai danh sach, bac giup em voi nhe:
1. ISO 9296:1988 Acoustics - Declared noise emission values of computer and business equipment
2. ISO 7779:1999 Acoustics - Measurement of airborne noise emitted by information technology and telecommunications equipment
3. ISO 7779:1999/Amd 1:2003 Noise measurement specification for CD/DVD-ROM drives
4. ISO/IEC 9995-2:2002 Information technology -- Keyboard layouts for text and office systems -- Part 2: Alphanumeric section
5. ISO/IEC 9995-3:2002 Information technology -- Keyboard layouts for text and office systems -- Part 3: Complementary layouts of the alphanumeric zone of the alphanumeric section
6. ISO/IEC 9995-4:2002 Information technology -- Keyboard layouts for text and office systems -- Part 4: Numeric section
7. IEC 60950-1 Ed. 2.0 Information technology equipment - Safety - Part 1: General requirements
8. IEC 60068-2-3 Test Ca: Damp heat, steady state
9. IEC 60068-2-30 Ed. 3.0 Environmental testing - Part 2-30: Tests - Test Db: Damp heat, cyclic (12 h + 12 h cycle)
10. IEC 60068-3-4 (2001-08) Ed. 1.0 Environmental testing - Part 3-4: Supporting documentation and guidance - Damp heat tests
Cam on bac!

Hi, nghichnham, nhờ bạn down thêm một số tài liệu sau:
1- Neural Network Based Control of Reduced Rating DSTATCOM
Singh, B.; Solanki, J.; Verma, V.;
http://ieeexplore.ieee.org/iel5/10601/33509/01590224.pdf?tp=&arnumber=1590224&isnumber=33509
2- DSTATCOM Effect on the Adjustable Speed Drive Stability Boundaries, Eldery, M.A.; El-Saadany, E.F.; Salama, M.M.A.;
http://ieeexplore.ieee.org/iel5/61/4141100/04141117.pdf?tp=&arnumber=4141117&isnumber=4141100
3- Impacts of AC Generators and DSTATCOM devices on the dynamic performance of distribution systems, Freitas, W.; Morelato, A.; Wilsun Xu; Sato, F.;
http://ieeexplore.ieee.org/iel5/61/30625/01413418.pdf?tp=&arnumber=1413418&isnumber=30625
4- Neural Network Based Control of DSTATCOM with Rating Reduction for Three-Phase Four-Wire System, Singh, B.; Solanki, J.; Verma, V.;
http://ieeexplore.ieee.org/iel5/10774/33940/01619819.pdf?tp=&arnumber=1619819&isnumber=33940
5- Control of Cascaded H-Bridge Converter based DSTATCOM for High Power Applications, Anuradha, K.; Muni, B.P.; Kumar, A.D.R.;
http://ieeexplore.ieee.org/iel5/4147829/4147830/04147964.pdf?tp=&arnumber=4147964&isnumber=4147830
6- SVPWM Switched DSTATCOM for Power Factor and Voltage Sag Compensation, Muni, B.P.; Eswar Rao, S.; Vithal, J.V.R.;
http://ieeexplore.ieee.org/iel5/4147829/4147830/04147955.pdf?tp=&arnumber=4147955&isnumber=4147830
7- Reactive power and unbalance compensation with DSTATCOM
Tong XiangQian; Xi Keqing; Shen Ming; Ma Xianhong;
http://ieeexplore.ieee.org/iel5/10523/33303/01574966.pdf?tp=&arnumber=1574966&isnumber=33303
8- Load compensating DSTATCOM in weak AC systems
Ghosh, A.; Ledwich, G.;
http://ieeexplore.ieee.org/iel5/61/27676/01234685.pdf?tp=&arnumber=1234685&isnumber=27676
9- Adjustable Speed Drive Stability Affected By DSTATCOM
Eldery, M. A.; El-Saadany, E. F.; Salama, M. M. A.;
http://ieeexplore.ieee.org/iel5/4270599/4270600/04270710.pdf?tp=&arnumber=4270710&isnumber=4270600
10- Application of DSTATCOM for Mitigation of Voltage Sag for Motor Loads in Isolated Distribution Systems
Singh, B.; Adya, A.; Mittal, A.P.; Gupta, J.R.P.; Singh, B.N.;
http://ieeexplore.ieee.org/iel5/4035454/4078480/04078521.pdf?tp=&arnumber=4078521&isnumber=4078480
11- Power Quality Enhancement with DSTATCOM for Small Isolated Alternator feeding Distribution System, Singh, B.; Adya, A.; Mittal, A.P.; Gupta, J.R.P.;
http://ieeexplore.ieee.org/iel5/10774/33939/01619698.pdf?tp=&arnumber=1619698&isnumber=33939
12- Analysis of Voltage Compensation by DSTATCOM Using EMTDC Program, Park, S.H; Jeon, Y.S; Kwak, N.H;
http://ieeexplore.ieee.org/iel5/10523/33303/01575025.pdf?tp=&arnumber=1575025&isnumber=33303
13- State Feedback Control of Multilevel Inverters for DSTATCOM Applications, Shukla, A.; Ghosh, A.; Joshi, A.;
http://ieeexplore.ieee.org/iel5/61/4302501/04302557.pdf?tp=&arnumber=4302557&isnumber=4302501
14- Operation of a DSTATCOM in voltage control mode
Mishra, M.K.; Ghosh, A.; Joshi, A.;
http://ieeexplore.ieee.org/iel5/61/26005/01159928.pdf?tp=&arnumber=1159928&isnumber=26005
15- A flexible DSTATCOM operating in voltage or current control mode, Ledwich, G.; Ghosh, A.;
http://ieeexplore.ieee.org/iel5/2195/21531/00998023.pdf?tp=&arnumber=998023&isnumber=21531
16- Novel Control Strategy for Cascaded H-Bridge Converter based DSTATCOM, Anuradha, K.; Muni, B. P.; RajKumar, A. D.; Balaji, K.;
http://ieeexplore.ieee.org/iel5/4216542/4216543/04216555.pdf?tp=&arnumber=4216555&isnumber=4216543
17- Comparison of Direct and Indirect Current Control Strategy for DSTATCOM, Tan Tian-yuan; Jiang Qi-rong; Li Gang; Lai Yu-xiang;
http://ieeexplore.ieee.org/iel5/4115872/4115873/04116054.pdf?tp=&arnumber=4116054&isnumber=4115873
18- Operation and control of a DSTATCOM in the presence of non-integer harmonics, Ghosh, A.; Jindal, A.K.; Joshi, A.;
http://ieeexplore.ieee.org/iel5/8975/28487/01273210.pdf?tp=&arnumber=1273210&isnumber=28487
19- Neural Network Based DSTATCOM Controller for Three-phase, Three-wire System, Singh, B.; Adya, A.; Mittal, A.P.; Gupta, J.R.P.;
http://ieeexplore.ieee.org/iel5/4147829/4147830/04147995.pdf?tp=&arnumber=4147995&isnumber=4147830
20- Sliding Mode Controller For Pulse Width Modulation Based DSTATCOM, Eldery, M.A.; El-Saadany, E.F.; Salama, M.M.A.;
http://ieeexplore.ieee.org/iel5/4054516/4054517/04054760.pdf?tp=&arnumber=4054760&isnumber=4054517
21- Design, analysis and comparison of multilevel topologies for DSTATCOM applications, Barrena, J.A.; Aurtenechea, S.; Canales, J.M.; Rodriguez, M.A.; Marroyo, L.
http://ieeexplore.ieee.org/iel5/11048/34861/01665783.pdf?tp=&arnumber=1665783&isnumber=34861
22- Control Design and Simulation of DSTATCOM with Energy Storage for Power Quality Improvements, Molina, M.G.; Mercado, P.E.;
http://ieeexplore.ieee.org/iel5/4104473/4104474/04104667.pdf?tp=&arnumber=4104667&isnumber=4104474
23- Modelling, Analysis and Performance of a DSTATCOM for Unbalanced and Non-Linear Load, Kumar, D.; Rajesh;
http://ieeexplore.ieee.org/iel5/10380/33009/01547142.pdf?tp=&arnumber=1547142&isnumber=33009
24- Sensorless Direct Power Control for a DSTATCOM
Rahmati, A.; Abrishamifar, A.; Abiri, E.;
http://ieeexplore.ieee.org/iel5/4218630/4218796/04218838.pdf?tp=&arnumber=4218838&isnumber=4218796
25- Voltage flicker mitigation using PWM-based distribution STATCOM, Sun, J.; Czarkowski, D.; Zabar, Z.;
http://ieeexplore.ieee.org/iel5/8076/22348/01043313.pdf?tp=&arnumber=1043313&isnumber=22348
26- Analysis and implementation of a NPC-based DSTATCOM under the abnormal voltage con***ions, Huann-Keng Chiang; Bor-Ren Lin; Kai-Tsang Yang; Cheng-Chang Yang;
http://ieeexplore.ieee.org/iel5/10667/33650/01600720.pdf?tp=&arnumber=1600720&isnumber=33650
27- Unified approach for mitigating voltage sag and voltage flicker using the DSTATCOM, Elnady, A.; Salama, M.M.A.;
http://ieeexplore.ieee.org/iel5/61/30624/01413344.pdf?tp=&arnumber=1413344&isnumber=30624
28- An DSTATCOM for Compensating Different Abnormal Line Voltage and Nonlinear Load, Rahmati, Abdolreza; Abrishamifar, Adib; Abiri, Ebrahim;
http://ieeexplore.ieee.org/iel5/4237510/4237511/04237566.pdf?tp=&arnumber=4237566&isnumber=4237511
29- A Comparative Study of Control Algorithms for DSTATCOM for Load Compensation, Singh, Bhim; Solanki, Jitendra;
http://ieeexplore.ieee.org/iel5/4237510/4237511/04237735.pdf?tp=&arnumber=4237735&isnumber=4237511
30- Direct power control of DSTATCOMs for voltage flicker mitigation, Su Chen; Joos, G.;
http://ieeexplore.ieee.org/iel5/7586/20675/00955997.pdf?tp=&arnumber=955997&isnumber=20675
31- The distribution STATCOM for reducing the effect of voltage sag and swell, Sung-Min Woo; Dae-Wook Kang; Woo-Chol Lee; Dong-Seok Hyun;
http://ieeexplore.ieee.org/iel5/7694/21053/00975939.pdf?tp=&arnumber=975939&isnumber=21053
thanks nghichnham nhiều
Được vuuvuu sửa chữa / chuyển vào 18:04 ngày 22/10/2007

@ blackeyes_hut: Những tài liệu bạn yêu cầu, mình đã search trong ieee và scopus đều kô có nên kô down dùm bạn đc. Sorry.
Thân
nghichnham

Tiếc quá, thế là chẳng còn hi vọng download được những chuẩn này. Chính vì những chuẩn này không phải của IEEE mà của IEC và ISO nên blackeyes không down được, mua thì rất mắc.
Anyway, many tks to nghichnham. Have a good day!

Đầu tiên, em là thành viên mới gia nhập xin được diện kiến sư huynh <nghichnham>. Chúc sư huynh nhiều sức khỏe để giúp đàn em tiến bộ nha!
Em đang chuẩn bị tìm tài liệu để làm đồ án về hệ thống điện, nên em kính nhờ sư huynh down giúp em một số bài báo về IEEE nha.
[1] M. Ramamoorty, M. M. B. Narayanan, and S. Parameswaran et al., ?oTransient performance of grounding grids,? IEEE Trans. Power Del., vol. 4, no. 4, pp. 2053?"2059, Oct. 1989.
[2] A. Geri, ?oBehavior of grounding systems excited by high impulse currents: the model and its validation,? IEEE Trans. Power Del., vol. 14, no. 3, pp. 1008?"1017, Jul. 1999.
[3] A. Geri and S. F. Visacro, ?oGrounding systems under surge con***ions:
comparison between a field model and a circuit model,? in ICLP,
Cracow, Poland, Sep. 2?"6, 2002.
[4] A. F. Otero, J. Cidras, and J. L. del Alamo, ?oFrequency-dependent grounding system calculation by means of a conventional nodal analysis technique,? IEEE Trans. Power Del., vol. 14, no. 3, pp. 873?"878, Jul.
1999.
[5] F. Dawalibi, ?oElectromagnetic fields generated by overhead and buried short conductors, part I?"single conductor,? IEEE Trans. Power Del., vol. PWRD-1, no. 4, pp. 105?"111, Oct. 1986.
[6] , ?oElectromagnetic fields generated by overhead and buried short conductors, part II?"ground networks,? IEEE Trans. Power Del., vol. PWRD-1, no. 4, pp. 112?"119, Oct. 1986.
[7] L. Grcev and F. Dawalibi, ?oAn electromagnetic model for transients in grounding system,? IEEE Trans. Power Del., vol. 5, no. 4, pp.
1773?"1781, Oct. 1990.
[8] L. D. Grcev, ?oComputer analysis of transient voltages in large grounding systems,? IEEE Trans. Power Del., vol. 11, no. 2, pp. 815?"823, Apr.
1996.
[9] L. D. Grcev and M. Heimbach, ?oFrequency dependent and transient characteristics of substation grounding system,? IEEE Trans. Power Del., vol. 12, no. 1, pp. 172?"178, Jan. 1997.
[10] R. Andolfato, L. Bernardi, and L. Fellin, ?oAerial and grounding system analysis by the shifting complex images method,? IEEE Trans. Power Del., vol. 15, no. 3, pp. 1001?"1009, Jul. 2000.
[11] R. G. Olsen and M. C. Willis, ?oA comparison of exact and quasistatic methods for evaluating grounding systems at high frequencies,? IEEE Trans. Power Del., vol. 11, no. 2, pp. 1071?"1081, Apr. 1996.
[12] B. Nekhoul, C. Cuerin, P. Labie, G. Meunier, and R. Feuillet, ?oA finite element method for calculating the electromagnetic fields generated by substation grounding systems,? IEEE Trans. Magn., vol. 31, no. 3, pp.2150?"2153, May 1995.
[13] B. Nekhoul, P. Labie, F. X. Zgainski, and G. Meunier, ?oCalculating the impedance of a grounding system,? IEEE Trans. Magn., vol. 32, no. 3, pp. 1509?"1512, May 1996.
[14] A. P. Meliopoulos and M. G. Moharam, ?oTransient analysis of grounding systems,? IEEE Trans. Power App. Syst., vol. PAS-102, no. 2, Feb. 1983.
[15] A. D. Papalexopoulos and A. P. Meliopulos, ?oFrequency dependent characteristics of grounding systems,? IEEE Trans. Power Del., vol. 2, no. 4,
pp. 1073?"1081, Oct. 1987.
[16] F. Menter and L. Grcev, ?oEMTP-based model for grounding system analysis,?IEEE Trans. Power Del., vol. 9, no. 4, pp. 1838?"1847, Oct. 1994.
[17] C. Mazzetti and G. M. Veca, ?oImpulse behavior of grounding electrodes, ?IEEE Trans. Power App. Syst., vol. PAS-102, no. 9, pp.3148?"3156, Sep. 1983.
[18] Y. Liu, M. Zitnik, and R. Thottappillil, ?oAn improved transmission-line model of grounding system,? IEEE Trans. Electromagn. Compat., vol. 43, no. 3, pp. 348?"355, Aug. 2001.
[19] R. Velazquez and D. Mukhedkar, ?oAnalytical modeling of grounding electrodes transient behavior,? IEEE Trans. Power App. Syst., vol. PAS-103, no. 6, pp. 1314?"1322, Jun. 1984.
[20] M. I. Lorentzou, N. D. Hatziargyriou, and B. C. Papadias, ?oTime domain analysis of grounding electrodes impulse response,? IEEE Trans. Power Del., vol. 18, no. 2, pp. 517?"524, Apr. 2003.
[21] S. Devgan and E. R. Whitehead, ?oAnalytical models for distributed grounding systems,? IEEE Trans. Power App. Syst., pt. III, vol. PAS-92, no. 5, pp. 1763?"1770, Sep./Oct. 1973.
[22] R. Verma and D. Mukhedkar, ?oImpulse impedance of buried ground wire,? IEEE Trans. Power App. Syst., vol. PAS-99, no. 5, pp. 2003?"2007, Sep./Oct. 1980.
[23] E. D. Sunde, Earth Conduction Effects in Transmission Systems: Bell Telephone Laboratories, Incorporated, pp. 146?"148.
[24] C. R. Paul, Analysis of Multiconductor Transmission Lines. New York: Wiley, ch. 5, p. 60.

Thanks sư huynh trước nha! Chào!
Nếu đươc sư huynh cho em địa chỉ mail nhé. Mail của em là evn_dangtrunghieu@yahoo.com

Anh cò thĂ giùp em mẶt sẮ tà?i liĂu nay 'ược khĂng? càm ơn anh truoc nha:
[1] Anderson, P. M., Fouad, A.A., Power System Control and Stability, Iowa State University Press, 1977
[2] Kundur, P., Power System stability and Control, McGraw-Hill Inc., 1994
[3] Higorani, N.G, Gyugyi,L., Understanding FACTS Devices, IEEE Press 2000
[4] Hingorani, N.G., ''Flexible AC Transmission'', IEEE Spectrum, April 1993, p. 40-44
[5] Gyugyi, L., ''Dynamic Compensation of AC Transmission Lines by Solid-state Synchronous Voltage Sources'', IEEE, 1993, p. 904-911
[6] Edris, A. Mehraban, A.S., Rahman, M., Gyugyi, L., Arabi, S., Rietman, T.,
''Cotnrolling the Flow of Real and Reactive Power'', IEEE Computer Application in Power, January 1998, p. 20-25
[7] Gyugyi, L., ''A Unified Power Flow Control Concept for Flexible AC Transmission Systems'', IEE Proceedings-C, Vol. 139, No. 4, July 1992, p. 323-331
[8] Gyugyi, L., Schauder, C.D., Williams, S.L., Rietman, T.R., Torgerson, D.R., Edris, A., ''The Unified Power Flow Controller: A New Approach to Power Transmission Control'', IEEE Transactions on Power Delivery, Vol. 10, No. 2, April 1995, p. 1085-1093
[9] Noroozian, M., Angquist, L., Ghandhari, M., Andersson, G., ''Use of UPFC for
Optimal Power Flow Control, IEEE Transactions on Power Delivery, Vol. 12, No. 4, October 1997, p. 1629-1634
[10] Nabavi-Niaki, A., Iravani, M.R., ''Steady-state and Dynamic Models of Unified Power Flow Controller (UPFC) for Power System Studies'', IEEE Transactions of Power Systems, Vol. 11, No. 4, November 1996, p. 1937-1943
[11] Fuerte-Esquivel, C.R., Acha, E., ''Unified Power Flow Controller: A Critical
Comparision of Newton-Raphson UPFC algorithms in Power Flow Studies'', IEE Proceedings Generation Transmission Distribution, Vol. 144, No. 5, September 1997, p. 437-444
[12] Fuerte-Esquivel, C.R., Acha, E., ''Newton-Raphson Algorithm for reliable Solution of Large Power Networks with Embedded FACTS Devices'', IEE Proceedings Generation Transmission Distribution, Vol. 143, No. 5, September 1996, p. 447- 45462
[13] Ambriz-Perez, H., Acha, E., Fuerte-Esquivel, C.R, De la Torre, A., ''Incorporation of a UPFC Model in an Optimal Power Flow Using Newton''s Method'', IEE Proceedings Generation Transmission Distribution, Vol. 145, No. 3, May 1998, p. 336-344
[14] Schauder, C., Metha, H., ''Vector Analysis and Control of Advanced Static VAR Compensators'', IEE Proceedings-C, Vol. 140, No. 4, July 1993, p. 299-306
[15] Papic, I., Zunko, P., Povh, D., Weinhold, M., ''Basic Control of Unified Power Flow Controller'', , IEEE Transactions of Power Systems, Vol. 12, No. 4, November 1997, p. 1734-1739
[16] Smith, K.S., Ran, L., Penman, J., ''Dynamic Modeling of a Unified Power Flow Controller'', IEE Proceedings Generation Transmission Distribution, Vol. 144, No. 1, January 1997, p. 7-12
[17] Padiyar, K.R., Kulkarni, A.M., ''Control Design and Simulation of Unified Power Flow Controller'', IEEE Transactions on Power Delivery, Vol. 13, No. 4, October 1997, p. 1348-1354
[18] Wang, H.F., ''Damping Function of Unified Power Flow Controller'', IEE
Proceedings Generation Transmission Distribution, Vol. 146, No. 1, January 1999, p. 81-87
[19] Wang, H.F., ''Applications of Modelling UPFC into Multi-machine Power Systems'', IEE Proceedings Generation Transmission Distribution, Vol. 146, No. 3, May 1999, p. 306-312
[20] Uzunovic, E., Canizares, C.A., Reeve, J., ''Fundamental Frequency Model of Unified Power Flow Controller'', North American Power Symposium, NAPS,
Cleveland, Ohio, October 1998
[21] Uzunovic, E., Canizares, C.A., Reeve, J., ''EMTP Studies of UPFC Power
Oscillation Damping'', Proceedings of the North American Power Symposium
(NAPS), San Luis Obispo, CA, October 1999, pp. 405-410
[22] Huang, Z., Ni, Y., Shen, C.M., Wu, F.F., Chen, S., Zhang, B., ''Application of Unified Power Flow Controller in Interconnected Power Systems -- Modeling, Interface, Control Strategy and Case Study'', IEEE Power Engineering Society Summer Meeting, 1999
[23] Dynamic Tutorial and Functions, Power System Toolbox Version 2.0, Cherry Tree Scientific Software, Ontario, Canada
[24] Hiyama, T, Hubbi, W., Ortmeyer, Th., ''Fuzzy Logic Control Scheme with Variable Gain for Static Var Compensator to Enhance Power System Stability'', IEEE Transactions on Power Systems, Vol. 14, No. 1, February 1999, pp. 186-191 63
[25] Hiyama, T, ''Fuzzy Logic Switching of Thyristor Controlled Braking Resistor Considering Coordination with SVC'', IEEE Transactions on Power Delivery, Vol. 10, No. 4, October 1995, pp. 2020-2026
[26] Y.Y.Hsu, C.H.Cheng, ''Design of Fuzzy Power System Stabilizers for Multimachine Power Systems'', IEE Proceedings, Vol. 137, Pt. C No. 3, May 1990, pp 233_238,
[27] Hoang P., Tomsovic K., ''Design and Analysis of an Adaptive Fuzzy Power System Stabilizers'', IEEE Transactions on Energy Conversion, Vol . 11, No. 2, June 1996
[28] Toliyat H. A., Sadeh J., Ghazi R., ''Design of Augmented Fuzzy Logic Power System Stabilizers to Enhance Power Systems Stability'', IEEE Transactions on Energy Conversion, Vol. 11, No. 1, March 1996
[29] Cheng,S., Malik, O.P., Hope, G.S., â?~Self Tuning Stabilizers for a Multimachine Power Systemâ?T, IEE Proceedings, Part C, No. 4, 1986, pp. 176-185
[30] Kothari, M.L., Nanda, J., Bhattacharya, K., â?~Design of Variable Structure power System Stabilizers with Desired Eigenvalues in the Sliding Modeâ?T, IEE Proceedings, Part C, Vol 140, No. 4, July 1993
[31] Jantzen, J., â?~Design of Fuzzy Controllersâ?T, Techn. Report No. 98-E 864 (design), Technical University of Denmark, Department of automation, 19. August 1998
[32] Brogan, W.L., Modern Control Theory, Prentice Hall, 1985
[33] Mohan N, Undeland T.M., Robbins, W.P., Power Electronics: Converters,
Applications and Design, John Wiley & Sons, Inc.,199
[34]. S.-H. Kim, J.-U. Lim, S.-I. Moon, â?oEnhancement of Power System Security Level through the Power Flow Control of UPFCâ?. Proceeding of the 2000 IEEE/PES summer meeting, pp. 30-43.
[35]. S. Gerbex, R. Cherkaoui, A.J. Germond, â?oOptimal Location of Multitype
FACTS Devices in a Power System by Means of Genetic Algorithmsâ?, IEEE Trans. Power Systems, vol. 16, no 3, pp. 537-544, Aug. 2001

@vuuvuu: đã có tài liệu cho bạn
Gudluck.
nghichnham