Search Results

1 - 10 of 113 items :

  • "rectifier" x
Clear All

References BAUER, J. : Single-Phase Pulse Width Modulated Rectifier, Acta Polytechnica 48 No. 3 (2008), 84-87. CICHOWLAS, M.—KAZMIERKOWSKI, M. : Comparison of Current Control Techniques for PWM Rectifiers, ISIE 2001, l'Aquila, Italy. JAVUREK, J.—KOPECKY, M. : Pulse Rectifier: Input Circuit of Three-Systems Locomotive, AT&P journal No. 2 (2005), 40-41. (in Czech) KULKA, A.—UNDELAND, T.—VAZQUEZ, S.—FRANQUELO, L. G. : Stationary Frame Voltage Harmonic Controller for Standalo Power Generation, EPE 2007 Conference Alborg, Danmark, 2007. LETTLE, J—DOLECEK, R. : EMC

REFERENCES 1. Suhara, E. M., & Nandakumar, M. (2015). Voltage oriented control of three phase PWM rectifier with Bus Clamped Space Vector PWM. 2015 International Conference on Power, Instrumentation, Control and Computing (PICC) , 1–5. DOI: 10.1109/PICC.2015.7455788 2. Wu, X., Panda, S. K., & Xu, J. (2007). Analysis and experimental validation of the output voltage and input current performances in three phase PWM boost rectifiers under unbalanced and distorted supply voltage conditions. 2007 IEEE International Conference on Control Applications . 605–610. DOI

”, Electron. Lett., 1995, vol. 31, 1727-1728. [5] S. J. Gift, ”A High-Performance Full-Wave Rectifier Circuit”Int. J. Electron., 2000, vol. 87, no. 8, 925-930. [6] J. R. Angulo, R. G. Carvajal, J. M. Hereida and A. Torrabla, ”Very Low-Voltage Class AB CMOS Precision Voltage and Cur- rent Rectifier”, Proceedings of IEEE Intern. Sym. on Cir. and Sys., 2000, III-5-III-8. [7] A. V. Garcia, R. Venkatasubramanian, J. S. Martinez and E. S. Sinencio, ”A Broadband CMOS Amplitude Detector for On-Chip RF Measurements”, IEEE Trans. Instrum. Meas., 2008, vol. 57, no. 7, 1470-1477. [8] C

current reduction in rectifier-type utility interface,” IEEE Transactions on Power Electronics , vol. 11, no. 5, pp. 680–690, Sep. 1996. https://doi.org/10.1109/63.535400 [5] K. Oguchi, G. Maeda, N. Hoshi, and T. Kubata, “Coupling rectifier systems with harmonic cancelling reactors,” IEEE Industry Applications Magazine , vol. 7, no. 4, pp. 53–63, 2001. https://doi.org/10.1109/2943.930991 [6] Electromagnetic compatibility (EMC) – Part 3-2: Limits – Limits for harmonic current emissions (equipment input current <= 16 A per phase), IEC 61000-3-2:2014. [7

References Correa, P., Rodriguez, J., Lizama, I. and Andler, D. (2009). A Predictive Control Scheme for Current- Source Rectifiers, IEEE Transaction on Industrial Electronics, 56(5), pp. 1813-1815. Cortes, P., Kouro, S., La Rocca, B., Vargas, R., Rodriguez, J., Leon, J., Vazquez, S.and Franquelo, L. (2009). Guidelines for weighting factors design in model predictive control of power converters and drives. In: IEEE International Conference on Industrial Technology (ICIT), February 2009, Gippsland, Australia, pp. 1-7. Falkowski, P., Kulikowski, K. and Grodzki, R

. Kkelis, D. C. Yates, and P. D. Mitcheson, “Class-E Half-Wave Zero d v/ d t Rectifiers for Inductive Power Transfer”, IEEE Transactions on Power Electronics , vol. 32, no. 11, pp. 8322–8337, 2017. [7] X. Fu, M. Liu, Z. Tang, and C. Ma, “Design Procedure of a Class E 2 DC–DC Converter for Megahertz Wireless Power Transfer based on a Compact Class-E Current-Driven Rectifier”, 2017 IEEE 26th International Symposium on Industrial Electronics (ISIE) Edinburgh, pp. 694–699, 2017. [8] W. Xiao, R. Shen, B. Zhang, D. Qiu, Y. Chen, and T. Li, “Effects of Foreign Metal Object

Introduction The usage of memristors in analog circuit design enablesnew applications. In [ 1 ], an ADC consisting of memristors has been proposed. Other applications are an automatic gain control circuit [ 2 ], programmable analog circuits [ 3 ], an electrical potentiometer [ 3 ] or oscillators [ 4 , 5 ]. In [ 6 ] memristors are used for basic arithmetic operations. In this paper a frequency-dependent rectifier memristor bridge is presented and therefore, a broad description of memristive systems will be given first. In general, a memristive system is described

AC-DC converters", International Journal of Electrical Engineering Education, Vol.41, Issue. 3 pp. 244-264, 2004 3. T. Ernö and M. Frisch, "Second generation of PFC solutions," Power Electronics Europe, Issue 7, pp. 33-35, 2004 4. L. Huber, Y. Jang, M. M. Jovanović, Performance Evaluation of Bridgeless PFC Boost Rectifiers, Applied Power Electronics Conference, APEC 2007.

.-MARTIND. A. : Implementation of a Direct Digital Predictive Current Controller for Single and Three Phase Voltage Source Inverters, in Proc. IEEE IAS Annu. Meeting, 1996, pp. 906-913. [5] RUFER, A.-BAHRANI, B.-KENZELMANN, S.-LOPES, L. : Vector Control of Single-Phase Voltage Source Converters based on Fictive Axis Emulation, ECCE 2009, pp. 2689-2695. [6] HONG-SEOK SONG-KEIL, R.-MUTSCHLER, P.-Van Der WEEM, J.-KWANGHEE NAM: Advanced Control Scheme for a Single-Phase PWM Rectifier in Traction Applications, Industry Applications Conference, vol. 3, 2003, pp. 1558-1565. [7

, Wiley-Interscience, 2006. [6] CHOI, S.-ENJETI, P. N.-PITEL, I. J. : Polyphase Transformer Arrangements with Reduced kVA Capacities for Harmonic Current Reduction in Rectifier Type Utility Interface, IEEE Trans. on Power Electronics 11 No. 5 (Sep 1996), 680-689. [7] HAMMOND, P.W. : Autotransformer, U.S. Patent No.5619407 (Apr, 8, 1997). [8] SINGH, B.-BHUVANESWARI, G.-GARG, V. : Harmonic Mitigation using 12-Pulse AC-DC Converter in Vector-Controlled Induction Motor Drives, IEEE Trans. Power Delivery 21 No. 3 (July 2006), 1483-1492. [9] CHOI, S.-LEE, B. S.-ENJETI, P. N