Refine your search
Collections
Journals
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Raja Prabu, R.
- Simulation and Implementation of Solid State Circuit Breaker for the Protection of Power System
Abstract Views :1066 |
PDF Views:0
Authors
Affiliations
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, IN
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, IN
Source
Research Journal of Engineering and Technology, Vol 4, No 1 (2013), Pagination: 30-35Abstract
The Solid State Circuit Breakers (SSCBs) which are developed using modern high power semiconductors can replace the conventional mechanical circuit breakers. With the development of power semiconductor technology, the power handling capabilities and switching speed of the power devices have improved tremendously. The Solid State Circuit Breaker uses high power anti parallel switches to carry bidirectional current. During normal operation the solid state circuit breaker is “on”. During faults, the gate of the SSCB is pulse modulated to prevent the circuit current from exceeding a predetermined limit. The load voltage and current is sensed and it is used to turn on and turn off the SSCB. In this paper, a circuit topology for SSCB is developed and simulated using Matlab/Simulink. The hardware model is also developed. Hardware results show satisfactory performance for an SSCB. The SSCB offer many advantages like much faster interruption of over currents, based on over current thresholds; reduced energy flowing into the electrical systems during faults and reduced system ringing during fault interruptions. This paper deals with simulation and implementation of SSCB in multi bus system.Keywords
Solid State Circuit Breakers (SSCBs), Reclosers, Gate Turn-Off Thyristor (GTO), Gate Commutated Thyristor (GCT).References
- IEEE Standard for interconnecting Distributed Resources with Electric Power Systems, IEEE Std 1547- 2003.
- P.Barker and R.W.DeMello, “Determining the impact of DG on the Power Systems, Radial Distribution”, in Proc. IEEE Power Eng. Soc. Summer Meeting, 2000, pp.1645-1656.
- A.Girgis ans S.Brahama, “ Effect of Distributed Generation on Protective Device Coordination in Distribution System”, in Proc. Large Engineering Systems Conf. Power Engineering, July 2001, pp.115-119.
- L .Klingbeil, W. Kalkner , and C. Heinrich, “Fast acting Solid- State Circuit Breaker Using State-of-the-Art Power-Electronic Devices,” in proc. Eur. Conf. Power Electron. Applicat .(EPE), Graz, Austria, 2001.
- R.K. Smith et al., “Solid State Distribution Current Limiter and Circuit Breaker: Application Requirements and Control Strategies,” IEEE Trans.Power Delivery, vol. 8, no. 3, pp. 1155- 1164, Jul, 1993.
- A. Ekstrom, P. Bennich, M. De Oliveira,and A.Wilkstrom, “Design and Control of a Current-Controlled Current Limiting Device,” in proc, EPE’01 Conf., Graz, Austria, 2001.
- S. Sugimoto, S. Neo, H. Arita, J. Kida, Y. Matsui, and T. Yamagiwa, “Thyristor Controlled Ground Fault Current Limiting System for Ungrounded Power Distribution Systems,” IEEE Trans. Power Delivery, vol. 11, no. 2, pp. 940-945, Apr.1996.
- J. W. Schwartzenberg and R. W. De Doncker, “15 kV Medium Voltage Static Transfer Switch,” in proc. IEEE 30th Ind. Applicat. Soc. Annu. Meeting, vol. 3, Oct. 8-12, pp. 2515-2520.
- M. Meyer, “Selbstgefuhrte Thyristor-Stromrichter,” Tech. Rep.,Siemens AG, 1974.
- C. Meyer, S.Schroder, and R. W. De Doncker, “Solid-State Circuit Breakers and Current Limiters for Medium-Voltage Systems Having Distributed Power Systems,” IEEE Trans. Power Electron, vol. 19, no. 5, pp. 1333-1340,Sep. 2004.
- K.Kunde, M. Kleimaier, L.Klingbeil, H. J. Hermann, C. Neumann, and J.Patzhold, “Integration of Fast Acting Electronic Fault Current Limiters (Efcl) In Medium-Voltage Systems,” in Proc. 17th Int. Conf. Electricity Distribution (CIRED), Barcelona, Spain, 2003, pp. 148-152.
- C. Meyer, S.Schroder, and R. W. De Doncker, “Integration of Solid State Switches Into Medium-Voltage Grids,” in Proc. Eur. Conf. Power Electron. Applicat. (EPE’03), Toulouse, France, 2003.
- G. Celli, F.Pilo, R. Sannais, and M. Tosi, “A Custom Power Protection Device Controlled by a Neural Network Relay,” in Proc. IEEE Power Electron. Soc. Summer Meeting, Seattle, WA, Jul. 16-20, 2000, pp. 1384-1389.
- B. Cannas, G. Celli, A. Fanni, and F. Pilo: Automated recurrent neutral network design of a neutral controller in a custom power device, J.Intell. Robot. Syst., no. 31, pp. 229-251, 2001.
- Digital Simulation of Closed Loop Controlled PFC Converter Fed DC Drive Using Simulink
Abstract Views :220 |
PDF Views:3
Authors
R. Anushya
1,
R. Raja Prabu
2
Affiliations
1 Electrical and Electronics Engineering Department, SRR Engineering College, Chennai, Tamil Nadu, IN
2 Electrical and Electronics Engineering Department, B.S.Abdur Rahman University, Chennai, Tamil Nadu, IN
1 Electrical and Electronics Engineering Department, SRR Engineering College, Chennai, Tamil Nadu, IN
2 Electrical and Electronics Engineering Department, B.S.Abdur Rahman University, Chennai, Tamil Nadu, IN
Source
Software Engineering, Vol 3, No 4 (2011), Pagination: 153-157Abstract
In this paper, a systematic review of bridgeless power factor correction (PFC) boost rectifier, also called dual boost PFC rectifier, is presented. Open loop and closed loop PFC converter fed DC drives are modeled. Simulation of Closed Loop Controlled bridgeless converter fed DC motor drive is presented and various performance characteristics are provided. This drive has advantages like reduced losses and improved power factor. The simulation results reveal a quantitative insight of the power losses in different topologies and also verify that this simulation approach is faster and more cost-effective than numerical calculation or experimental measurement approach.Keywords
Boost Converter, Diode, Power Factor Correction, Rectifier.- Digital Simulation of Thirty Bus System Using TCTC & STATCOM
Abstract Views :253 |
PDF Views:1
Authors
Affiliations
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, Tamil Nadu, IN
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, Tamil Nadu, IN
Source
Programmable Device Circuits and Systems, Vol 3, No 12 (2011), Pagination: 675-680Abstract
This work deals with power quality improvement by using TCTC & STATCOM. When the reactive power of the load is changing continuously, a suitable fast response compensator is needed. STATCOM (Static Compensator) and TCTC (Thyristor controlled tap changer) are two such compensators belonging to FACTS devices. They are used in this work. Models for the STATCOM &TCTC (Thyristor tap changer) are developed using MATLAB simulink. Smooth reactive power control is achieved by varying the firing angle of TCTC system. The aim of this work is to model and simulate thirty bus system using simulink. The simulation results of thirty bus system with STATCOM & TCTC are presented.Keywords
STATCOM, Reactive Power, Thyristor Controlled Tap Changer.- Digital Simulation of Solid State Circuit Breaker Using Simulink
Abstract Views :266 |
PDF Views:3
Authors
Affiliations
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, IN
1 Sathyabama University, Chennai, IN
2 B.S. Abdur Rahman University, Chennai, IN
Source
Programmable Device Circuits and Systems, Vol 3, No 8 (2011), Pagination: 412-415Abstract
This paper deals with modeling and simulation of Solid State Circuit Breaker using MATLAB Simulink. The Solid State Circuit Breaker is developed using four power diodes and one Silicon Controlled Rectifier. The voltage across the load is sampled and is rectified to obtain the control signal. The closed loop system detects the fault and the Solid State Circuit Breaker is opened by inhibiting the pulses. The results of sustained fault condition and the closed loop condition are presented. The Solid State Circuit Breaker has advantages like arc free interruption and reduced hardware. The aim of this paper is to model and simulate the Solid State Circuit Breaker.Keywords
Solid State Circuit Breakers (SSCBs), Simulation, Semiconductors.- Simulation and Analysis of Lossless Double Boost Converter
Abstract Views :221 |
PDF Views:4
Authors
R. Anushya
1,
R. Raja Prabu
2
Affiliations
1 Electrical and Electronics Engineering Department ,Sathyabama University, Chennai, Tamil Nadu, IN
2 Electrical and Electronics Engineering Department, B.S.Abdur Rahman University, Chennai, Tamil Nadu, IN
1 Electrical and Electronics Engineering Department ,Sathyabama University, Chennai, Tamil Nadu, IN
2 Electrical and Electronics Engineering Department, B.S.Abdur Rahman University, Chennai, Tamil Nadu, IN
Source
Networking and Communication Engineering, Vol 3, No 8 (2011), Pagination: 521-524Abstract
This paper deals with theoretical analysis of EMI filter along with the simulation and implementation of closed loop controlled double boost converter. This circuit has advantages like reduced hardware, improved power factor and higher output voltage. The EMI filter at the input is capable of reducing the noise in the source voltage. Double Boost Converter feeding resistive load is analyzed and simulated. The aim of this work is to develop a simulation model for closed loop controlled lossless double boost converter and the hardware is tested. The experimental results are compared with the simulation results.Keywords
Boost Converter, Diode, Emi, Rectifier.- Implementation of Interleaved Soft-Switching Boost Converter fed PMDC Motor System
Abstract Views :259 |
PDF Views:0
Authors
R. Anushya
1,
R. Raja Prabu
2
Affiliations
1 Electrical and Electronics Engineering Department, Sathyabama University, Chennai, Tamil Nadu, IN
2 Department of E.E.E, B.S. Abdur Rahman University, Chennai, Tamil Nadu, IN
1 Electrical and Electronics Engineering Department, Sathyabama University, Chennai, Tamil Nadu, IN
2 Department of E.E.E, B.S. Abdur Rahman University, Chennai, Tamil Nadu, IN