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Single-Phase to Three-Phase Matrix Converter for Traction Drive Systems

IOSR Journals
IOSR Journals

Volume 10, Issue 2 Ver. II (Mar – Apr. 2015)

Technologie
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IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) e-ISSN: 2278-1676,p-ISSN: 2320-3331, Volume 10, Issue 2 Ver. II (Mar – Apr. 2015), PP 10-18 www.iosrjournals.org DOI: 10.9790/1676-10221018 www.iosrjournals.org 10 | Page  Single phase to three phase ac Matrix Converter for Traction Drives Bhimrao.S.Gajbhiye1 , M.V.Aware2 , B.S.Umre3 , Rajesh Patil4 Abstract: The paper presents the converter topology for single to three phase matrix converter for the ac traction drives. The converter analysis is presented with source separation and link approach. The conventional carrier based control is employed for the converter to control the output voltage and frequency. The operational feasibility with the three phase ac traction motor (850 kW) is presented. The performance of the converter with the motor is simulated in the PSIM. The results indicate the feasibility of the matrix converter application to retrofit the existing (AC-DC-AC) to (AC-AC) traction drive system. Index Terms: Matrix Converters, Sinusoidal Pulse Width Modulation, Traction Motors, Variable Speed Drives. I. Introduction Electric traction in most of the country have single phase 25 kV, 50 Hz AC or 3kV DC power supply systems. The conventional locomotives have a transformer with a tap changer or a step- down transformer with semiconductor devices, like power diodes, GTOs, IGBTs, etc. Fig. 1: Conventional Single-to-three phase ac Traction. Those are used for ac- to- dc and dc-to-three-phase ac power conversion and to charge the intermediate dc-link capacitors for energy storage elements. The locomotives have Bo-Bo (4-TM on 4 axles) or Co-Co (6- TM on 6 axles) type bogie arrangements. The traction motor (TM) is a three phase induction motor operated with variable voltage and frequency converter in conventional speed control mode as shown in figure 1. The converter without dc link will be preferred over the two stage ac-dc-ac conversion in the existing power conversion arrangements in the ac traction drives. The matrix converters (MC) is a direct ac-to-ac converter, replaces the multiple conversion stages and the intermediate energy storage elements (dc-link) thus being a single stage converter as shown in figure 2. The different topologies, single phase to single phase and three phase to three phase with bi-directional switches are analyzed and results are presented [1]-[2].The phase transformation from single to three phase with three legged six bi-directional switch converter having simple control given for the three phase balanced loads [3]-[6].This control suffers lower voltage utilization and requires additional matching transformer. The matrix converter topology could be analyzed through the separation and link technique [4]. This analysis incorporates the back–to-back common emitter bi-directional switch cells configuration is shown in figure 2 with fictitious dc link to understand the operation of matrix converter [5]. 1 Bhimrao S. Gajbhiye is research scholar at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e-mail- bsgajbhiye@gmail.com) 2 Dr. M. V. Aware is member IEEE and professor at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e- mail- mva_win@yahoo.com) 3 Dr. B. S. Umre is member IEEE and professor at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e- mail- bsumre@rediffmail.com) 4 Rajesh Patil is IRSEE Batch-1992 currently working as Sr.D.E.E.(Trd.) at Central Railways, Nagpur, Maharashtra, India. (e-mail- rajpat@gmail.com)
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 11 | Page S1 S3 S6S4 Vs (t) S5 S2 S c 1 S c 2 S c 1 d S c 2 d M Ii (t) a b c A B C + Source Matrix converter Traction motor Fig. 2: Proposed single-to-three phase ac Traction converter. The paper proposes the single phase to three phase matrix converter topology for traction drives. The operation of the converter is analyzed using the separation and link approach. The control is built by using the sinusoidal pulse width modulation (SPWM) for the bi-directional switches in this converter. This single phase to three phase converter has following merits. - This replaces the conventional ac-dc-ac stages so the effective energy conversion is efficient. - The control is conventional carrier based SPWM. The known pattern of harmonics predicts the de-rating and operational efficiency of the induction motor. II. Matrix Converter Analysis Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (a) + 100 (612 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (b) + 011 (345 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (c) + 010 ( 234 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (d) + 101 (561 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (e) + 001 ( 456 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (f) + 110 (123 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Sc2d S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S4 S1 S3 S5 S6 S2 S2S6S4 S1 S3 S5 - + + - + - + - + - + - Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (g) + 000 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (h) + 111 Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 + - + - Fig.3 (a): Operation states for single to three phase matrix converter for Positive source period.
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 12 | Page Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (a) - 100 Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (b) - 011 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (c) - 010 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (d) - 101 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (e) - 001 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (f) - 110 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 -- - - -- ++ + + + + S1 S3 S5 S4 S6 S2 S4 S2S6 S5S3S1 S6 S6 S6 S6 S1 S1 S1 S1 S3 S3 S3 S3 S5 S5 S5 S5 S4 S4 S4 S4 S2 S2 S2 S2 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (g) - 000 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (h) - 111 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d S1S1 S3 S3 S5S5 S4S4 S6S6 S2S2 - + + - Fig.3 (b): Operation states for single to three phase matrix converter for Negative source period. The single stage ac-ac converter for single phase to three phase ac conversion with six bi-directional switches are S1(Sa1,Sa2),S2(Sc3,Sc4),S3(Sb1.Sb2),S4(Sa3,Sa4),S5(Sc1,Sc2) and S6(Sb3,Sb4) is analyzed with separation and link method. The separation in Source positive period is shown in figures 3(a) and the separation in Source negative period in figures 3(b) and which are then linked, found equal to the results of the 1-3MC circuit. The sine pulse width modulation (SPWM) control technique is used to obtain the desired output results of single-to-three phase ac matrix converter. Figure 2 configuration is the adopted configuration of the single phase to three-phase ac matrix converter. In one source voltage period can be divided into two source voltages. One is bigger than zero called positive source period and other is less than zero is negative source period. The single to three phase ac matrix converter can be regarded as two equivalent circuits. TakeA-phase for example, when the source voltage Vs during positive period, following the principle of no short circuit for source side switches Sa1 & Sa3 must not be ON at the same time and no open circuit for load side one of the switches Sa1 and Sa3 must be ON. Considering the resistive load, when switch Sa1 is ON and Sa3 is OFF then switch Sa2 must be ON to provide path for current through its diode from source to load.Similarly, when switch Sa1 is OFF and Sa3 is ON then switch Sa4 should be ON to provide path for current flow through its diode from load to source. When the source voltage Vs is in the positive period, the switches Sa1,Sa3 & Sb1,Sb3 & Sc1,Sc3 should be controlled to keep energy flowing fromsource to load and switches Sa2,Sa4 & Sb2,Sb4 & Sc2,Sc4 are kept ON through its diodes to provide the current path from source to load whenever necessary. When the source voltage Vs is in negative period, the single to three phase ac matrix converter is simplified to the configuration shown in figure 3(b) with the same analysis as that in the source positive periods,
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 13 | Page the switches Sa2, Sa4 & Sb2, Sb4 & Sc2, Sc4 should be controlled to keep energy flowing from load to source and switches Sa1, Sa3 & Sb1, Sb3 & Sc1, Sc3 are kept ON through its diodes to provide the current path from load to source whenever is necessary. There are total 16-operating states shown in TABLE-I for one complete cycle of operation. The six operating states (+100 to +110) and two null states (+000 and +111) during source positive period are shown in figure 3(a). Similarly, we can draw another six operating states (-100 to -110) and two null states (-000 and - 111) for source negative period, but the direction of current flow should be reversed are shown in figure 3(b). Similarly, all analysis for phase B and C is adopted. Table-I:Switching Operation States For1-3MC Considering the states of the controlled switches, it can be defined as, where„+‟ denotes the source positive period and „−‟ denotes the source negative period. Sx1, Sx2, Sx3 and Sx4 are the controlled switches of the three phases A, B and C respectively. The subscript „d‟ denotes the anti- parallel diodes to that switches written as Sx1d , Sx2d , Sx3d and Sx4d as shown in TABLE-I. III. SPWM Control Of Matrix Converter When sine pulse width modulation (SPWM) is adopted, as usual, the analysis for conventional converter, the switch control signals for single phase to three phase ac matrix converter can be understood from figure 4. Suppose A = 1 denotes the source is during the positive period and A = 0 denotes the source is during the negative period. B = 1 denotes SPWM signal is positive and B = 0 denotes SPWM signal is zero. The switch controls signal are shown in TABLE-II are deduced from Figure 5. Take A-phase generation, for example, x = a, during the source positive or negative periods. Switches Sa1, Sa2, Sa3 and Sa4 are controlled with SPWM signals and its anti-parallel diodes Sa1d, Sa2d, Sa3d and Sa4d will provide current paths as and when needed. States Vab Vbc Vca Switching Operation +(100) Vs 0 -Vs Sa1 Sa2d Sb3 Sb4d Sc3 Sc4d +(101) Vs -Vs 0 Sa1 Sa2d Sb3 Sb4d Sc1 Sc2d +(001) 0 -Vs Vs Sa3 Sa4d Sb3 Sb4d Sc1 Sc2d +(011) -Vs 0 Vs Sa3 Sa4d Sb1 Sb2d Sc1 Sc2d +(010) -Vs Vs 0 Sb1 Sb2d Sa3 Sa4d Sc3 Sc4d +(110) 0 Vs -Vs Sa1 Sa2d Sb1 Sb2d Sc3 Sc4d +(000) 0 0 0 Sa3 Sa4d Sb3 Sb4d Sc3 Sc4d +(111) 0 0 0 Sa1 Sa2d Sb1 Sb2d Sc1 Sc2d -(100) Vs 0 -Vs Sb4 Sb3d Sc4 Sc3d Sa2 Sa1d -(101) Vs -Vs 0 Sb4 Sb3d Sa2 Sa1d Sc2 Sc1d -(001) 0 -Vs Vs Sa4 Sa3d Sb4 Sb3d Sc2 Sc1d -(011) -Vs 0 Vs Sa4 Sa3d Sb2 Sb1d Sc2 Sc1d -(010) -Vs Vs 0 Sa4 Sa3d Sc4 Sc3d Sb2 Sb1d -(110) 0 Vs -Vs Sc4 Sc3d Sa2 Sa1d Sb2 Sb1d -(000) 0 0 0 Sa4 Sa3d Sb4 Sb3d Sc4 Sc3d -(111) 0 0 0 Sa2 Sa1d Sb2 Sb1d Sc2 Sc1d „1‟ Upper arm switch ON, „0„Lower arm switch ON „+‟ period source voltage, „-„ period source voltage Subscript„d‟ denotes diode to that switch.
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 14 | Page Fig.4: Single -to- three phase MC with R-load. Fig.5: Output voltage Vab - SPWM control at fc=1kHz Table-II: Switch Controls Signal For 1-3 MC SWITCH Sx (x = a, b, c) PWM switching signals A=1 B=1 A=1 B=0 A=0 B=1 A=0 B=0 Sx1 1 0 0 1 Sx2 0 1 1 0 Sx3 0 1 1 0 Sx4 1 0 0 1 The results of line voltage Vab are obtained as shown in Figure 5 and also the same results can be obtained for other phase B and C. IV. Operation With A Traction Motor To verify the operation strategy, the proposed 1-3 phase ac matrix converter with a three-phase ac asynchronous traction motor (TM), Type [ABB-6FRA6068] is simulated by PSIM software. The three-phase
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 15 | Page resistive load is changed to three-phase star wounded induction motor. The traction motor parameters are given in TABLE-III. Table-III: Traction Motor Parameters Type: ABB-6FRA6068 Parameters Symbols Rating Supply Voltage Supply Frequency Output Frequency Speed Power (KW) current Max. Current Stator Resistance Stator Inductance Rotor Resistance Rotor Inductance Mutual Inductance Motor Inertia Vab f i fo N P I Imax Rs Ls R’r Lr Lm J 2180 V 50 Hz 65 – 170 Hz 1283 rpm 850 Kw 270 A 393 A 0.0727 Ω 1.312 m H 0.0641 Ω 2.716 m H 41.982 m H 19.1 Kgm2 The single-to-three phase ac Matrix Converter circuit is three legged A, B and C with Six bi-directional switches are S1 (Sa1- Sa2), S2 (Sc3- Sc4), S3 (Sb1- Sb2), S4 (Sa3- Sa4), S5 (Sc1-Sc2) and S6 (Sb3- Sb4).The simulation circuit is shown in Figure 6. Fig.6: Simulation circuit for 1-3 MC with a TM. The simulation is presented by using SPWM control technique. The Simulation of circuit is simulated with traction motor parameters by PSIM/MATLAB software packages. The single phase ac source voltage Vs taken as 1269V and source frequency fi is 50Hz. When 150 Hz output frequency is demanded, the simulated results are obtained shows the three phase output voltages found approximately equal to 2180 V and three phase output currents are nearly 270 A andalso following 120 degree phase sequence. The input current Ii is found nearly sinusoidal as expected is shown in Figure 7. Where, Vab, Vbc and Vca are the line voltages and Va, Vb and Vc are phase voltages. Ia, Ib and Ic are the output currents
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 16 | Page Fig.7: Output waveforms of 1-3 MC with Traction Motor. Fig. 8: Speed-torque-load currents of 1-3 MC with Traction Motor. It can be seen that the Torque-Speed response of the Traction Motor during motoring operation, the shaft torque Tem and speed N is shown in Figure 8 at an accelerating mode. It is also found that the output voltage parts at the frequencies |fo− 2 fi| and |fo+ 2 fi | possess big proportions besides the frequency fo, where, fo is the fundamental frequency of the output voltage and fi is the frequency of the source voltage, which implied the influence of the input supply frequency. Time (s)
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 17 | Page Fig. 9: FFT of input current and output voltages of 1-3 MC At the same time the amplitudes of the output voltages fluctuate at about 100Hz, the FastFourierTransform (FFT) taken after simulation is shown in Figure 9, which is twice the source frequency fi. This fluctuating is due to the SPWM control signals having relation only with the sign of the source voltage but not with the instantaneous value of the source voltage. The instantaneous value of the source voltage influences the output voltage directly. The low voltage ratio is the weakness of the matrix converter, which should be improved with some other efficient methods like SVPWM (space vector PWM), Fuzzy logic, etc. V. Conclusion The proposed matrix converter topology for single phase to three phase ac conversion is used for traction drives. This is analyzed to indicate the operational features of MCwith six bidirectional switches. The operation of this MC with SPWM is verified with simulation. This simplified control approach is suitable for general purpose implementation. The three phase traction motor drives performance indicates the satisfactory operation of this converter. This 1-3MC is a direct single stage ac-ac converter topology could be used to retrofit the existing two stage ac-dc-ac converter with dc link traction drives. This is also suitable for conversion of single phase transmission lines into three phase ac lines for Domestic, Industrial and Agricultural applications at remote places. References [1]. SatyaSahityaSekhar Nuka.; Dr. R. SaravanaKumar, “Implementation of Sinusoidal PWM Technique for AC-AC Matrix Converter Using PSIM” 978-1-4244-7926-9/11/$26.00©2011IEEE. [2]. Ashwin Kumar Sahoo.;Meenakshe,; S. S Dash.; and T. Thyagarajan,“Analysis and simulation of Matrix Converter Using PSIM.”The 7th International Conference on Power Electronics -October 22-26, 2007/ EXCO, Daegu, Korea.978-1-4244-1872-5/08 IEEE. [3]. S. I. Kahn, P. D. Ziogas and M. H. Rashid, “A Novel single to three phase static converter,” IEEE Transactions on Industry Applications, 1989, Vol. 25, No.1, pp. 143-152. [4]. Jianmin Xiao.; Wei Zhang.; Hideki Omori,;KeizoMatsui,“A Novel Operation Strategy for Single-to Three-Phase Matrix Converter” Electrical Machines and systems,2009,ICMES-2009/5382800,page 1-6,Cited by:3 [5]. P. Wheeler, J. Rodriguez, J. Clare, Empringham and A. Weinstein., "Matrix converters: A Technology Review," IEEE Transactions on Industrial Electronics, vol. 49, no. 2, April 2002,pp. 276 - 288. [6]. Milan, G; Mohamadian, M.;Dehghan, S.M.; Seifi, E,Yazdian, A.,”A Novel SPWM strategy for single to three-phase matrix converter.”2nd PEDSTC-2011,IEEE 10.1109/PEDSTC.2011.5742469,Page(s) 495-500, [7]. A. Zuckerberger, D. Weinstock, A. Alexandrovitz, "Simulation of three-phase loaded matrix converter," in Proc. on Electric Power Applications, vol. 143, no. 4, July 1996, pp. 294-300. Bhimrao S. Gajbhiye is research scholar (B.E., M.Tech. (Power Electronics and Drives)),since 1994 he is working in Indian Railway‟s departments Research Designs and Standards Organization (RDSO), Lucknow, (India) and currently he is working in Electric Loco Shed, Ajni , Central Railway, Nagpur, Maharashtra State as a Senior Section Engineer dealing with testing & maintenance of three phase locomotives WAG9 & WAP7. His main research interests are power electronics devices IGBT/GTO Matrix Converters based electrical drives for Traction, Industrial, Agricultural, and Domestic applications.
Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 18 | Page Dr. M.V. Aware, Professor, (M. Tech., Ph.D.) in VNIT, Nagpur (India) in Electrical Engineering Department. Area of Interest: Power electronics, Electrical machines and Traction Drives. Dr.B S. Umre, Assistant Professor,(M. Tech., Ph. D.) in VNIT, Nagpur (India) in Electrical Engineering Department. Area of Interest: Torsional Oscillation, Power System, Electrical Machines. Rajesh Patil, B.E, M.Tech.IRSEE-1992 batch of Indian Railways;presently working as Sr.D.E.E.(Traction distribution) in Central Railways, Nagpur (India). Area of Interest: Traction drives.

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Single-Phase to Three-Phase Matrix Converter for Traction Drive Systems

  • 1. IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) e-ISSN: 2278-1676,p-ISSN: 2320-3331, Volume 10, Issue 2 Ver. II (Mar – Apr. 2015), PP 10-18 www.iosrjournals.org DOI: 10.9790/1676-10221018 www.iosrjournals.org 10 | Page  Single phase to three phase ac Matrix Converter for Traction Drives Bhimrao.S.Gajbhiye1 , M.V.Aware2 , B.S.Umre3 , Rajesh Patil4 Abstract: The paper presents the converter topology for single to three phase matrix converter for the ac traction drives. The converter analysis is presented with source separation and link approach. The conventional carrier based control is employed for the converter to control the output voltage and frequency. The operational feasibility with the three phase ac traction motor (850 kW) is presented. The performance of the converter with the motor is simulated in the PSIM. The results indicate the feasibility of the matrix converter application to retrofit the existing (AC-DC-AC) to (AC-AC) traction drive system. Index Terms: Matrix Converters, Sinusoidal Pulse Width Modulation, Traction Motors, Variable Speed Drives. I. Introduction Electric traction in most of the country have single phase 25 kV, 50 Hz AC or 3kV DC power supply systems. The conventional locomotives have a transformer with a tap changer or a step- down transformer with semiconductor devices, like power diodes, GTOs, IGBTs, etc. Fig. 1: Conventional Single-to-three phase ac Traction. Those are used for ac- to- dc and dc-to-three-phase ac power conversion and to charge the intermediate dc-link capacitors for energy storage elements. The locomotives have Bo-Bo (4-TM on 4 axles) or Co-Co (6- TM on 6 axles) type bogie arrangements. The traction motor (TM) is a three phase induction motor operated with variable voltage and frequency converter in conventional speed control mode as shown in figure 1. The converter without dc link will be preferred over the two stage ac-dc-ac conversion in the existing power conversion arrangements in the ac traction drives. The matrix converters (MC) is a direct ac-to-ac converter, replaces the multiple conversion stages and the intermediate energy storage elements (dc-link) thus being a single stage converter as shown in figure 2. The different topologies, single phase to single phase and three phase to three phase with bi-directional switches are analyzed and results are presented [1]-[2].The phase transformation from single to three phase with three legged six bi-directional switch converter having simple control given for the three phase balanced loads [3]-[6].This control suffers lower voltage utilization and requires additional matching transformer. The matrix converter topology could be analyzed through the separation and link technique [4]. This analysis incorporates the back–to-back common emitter bi-directional switch cells configuration is shown in figure 2 with fictitious dc link to understand the operation of matrix converter [5]. 1 Bhimrao S. Gajbhiye is research scholar at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e-mail- bsgajbhiye@gmail.com) 2 Dr. M. V. Aware is member IEEE and professor at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e- mail- mva_win@yahoo.com) 3 Dr. B. S. Umre is member IEEE and professor at Visvesvaraya National Institute of Technology, Nagpur, Maharashtra state, India. (e- mail- bsumre@rediffmail.com) 4 Rajesh Patil is IRSEE Batch-1992 currently working as Sr.D.E.E.(Trd.) at Central Railways, Nagpur, Maharashtra, India. (e-mail- rajpat@gmail.com)
  • 2. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 11 | Page S1 S3 S6S4 Vs (t) S5 S2 S c 1 S c 2 S c 1 d S c 2 d M Ii (t) a b c A B C + Source Matrix converter Traction motor Fig. 2: Proposed single-to-three phase ac Traction converter. The paper proposes the single phase to three phase matrix converter topology for traction drives. The operation of the converter is analyzed using the separation and link approach. The control is built by using the sinusoidal pulse width modulation (SPWM) for the bi-directional switches in this converter. This single phase to three phase converter has following merits. - This replaces the conventional ac-dc-ac stages so the effective energy conversion is efficient. - The control is conventional carrier based SPWM. The known pattern of harmonics predicts the de-rating and operational efficiency of the induction motor. II. Matrix Converter Analysis Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (a) + 100 (612 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (b) + 011 (345 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (c) + 010 ( 234 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (d) + 101 (561 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (e) + 001 ( 456 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (f) + 110 (123 ) Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d Sc2d S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 S4 S1 S3 S5 S6 S2 S2S6S4 S1 S3 S5 - + + - + - + - + - + - Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (g) + 000 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (h) + 111 Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d S1 S3 S5 S4 S6 S2 S1 S3 S5 S4 S6 S2 + - + - Fig.3 (a): Operation states for single to three phase matrix converter for Positive source period.
  • 3. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 12 | Page Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (a) - 100 Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (b) - 011 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (c) - 010 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (d) - 101 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (e) - 001 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 (f) - 110 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d Ii Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 -- - - -- ++ + + + + S1 S3 S5 S4 S6 S2 S4 S2S6 S5S3S1 S6 S6 S6 S6 S1 S1 S1 S1 S3 S3 S3 S3 S5 S5 S5 S5 S4 S4 S4 S4 S2 S2 S2 S2 Vs Sb1 Sc1 Sa3 Sb3 Sc3 Sb4d Sc4d A B C Sa1 Sa2d (g) - 000 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Vs Sb1 Sc1 Sb2d Sa3 Sb3 Sc3 Sa4d Sb4d Sc4d A B C Sa1 Sa2d (h) - 111 Sa4 Sb4 Sc4 Sa2 Sb2 Sc2 Sc2d Sc3d S1S1 S3 S3 S5S5 S4S4 S6S6 S2S2 - + + - Fig.3 (b): Operation states for single to three phase matrix converter for Negative source period. The single stage ac-ac converter for single phase to three phase ac conversion with six bi-directional switches are S1(Sa1,Sa2),S2(Sc3,Sc4),S3(Sb1.Sb2),S4(Sa3,Sa4),S5(Sc1,Sc2) and S6(Sb3,Sb4) is analyzed with separation and link method. The separation in Source positive period is shown in figures 3(a) and the separation in Source negative period in figures 3(b) and which are then linked, found equal to the results of the 1-3MC circuit. The sine pulse width modulation (SPWM) control technique is used to obtain the desired output results of single-to-three phase ac matrix converter. Figure 2 configuration is the adopted configuration of the single phase to three-phase ac matrix converter. In one source voltage period can be divided into two source voltages. One is bigger than zero called positive source period and other is less than zero is negative source period. The single to three phase ac matrix converter can be regarded as two equivalent circuits. TakeA-phase for example, when the source voltage Vs during positive period, following the principle of no short circuit for source side switches Sa1 & Sa3 must not be ON at the same time and no open circuit for load side one of the switches Sa1 and Sa3 must be ON. Considering the resistive load, when switch Sa1 is ON and Sa3 is OFF then switch Sa2 must be ON to provide path for current through its diode from source to load.Similarly, when switch Sa1 is OFF and Sa3 is ON then switch Sa4 should be ON to provide path for current flow through its diode from load to source. When the source voltage Vs is in the positive period, the switches Sa1,Sa3 & Sb1,Sb3 & Sc1,Sc3 should be controlled to keep energy flowing fromsource to load and switches Sa2,Sa4 & Sb2,Sb4 & Sc2,Sc4 are kept ON through its diodes to provide the current path from source to load whenever necessary. When the source voltage Vs is in negative period, the single to three phase ac matrix converter is simplified to the configuration shown in figure 3(b) with the same analysis as that in the source positive periods,
  • 4. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 13 | Page the switches Sa2, Sa4 & Sb2, Sb4 & Sc2, Sc4 should be controlled to keep energy flowing from load to source and switches Sa1, Sa3 & Sb1, Sb3 & Sc1, Sc3 are kept ON through its diodes to provide the current path from load to source whenever is necessary. There are total 16-operating states shown in TABLE-I for one complete cycle of operation. The six operating states (+100 to +110) and two null states (+000 and +111) during source positive period are shown in figure 3(a). Similarly, we can draw another six operating states (-100 to -110) and two null states (-000 and - 111) for source negative period, but the direction of current flow should be reversed are shown in figure 3(b). Similarly, all analysis for phase B and C is adopted. Table-I:Switching Operation States For1-3MC Considering the states of the controlled switches, it can be defined as, where„+‟ denotes the source positive period and „−‟ denotes the source negative period. Sx1, Sx2, Sx3 and Sx4 are the controlled switches of the three phases A, B and C respectively. The subscript „d‟ denotes the anti- parallel diodes to that switches written as Sx1d , Sx2d , Sx3d and Sx4d as shown in TABLE-I. III. SPWM Control Of Matrix Converter When sine pulse width modulation (SPWM) is adopted, as usual, the analysis for conventional converter, the switch control signals for single phase to three phase ac matrix converter can be understood from figure 4. Suppose A = 1 denotes the source is during the positive period and A = 0 denotes the source is during the negative period. B = 1 denotes SPWM signal is positive and B = 0 denotes SPWM signal is zero. The switch controls signal are shown in TABLE-II are deduced from Figure 5. Take A-phase generation, for example, x = a, during the source positive or negative periods. Switches Sa1, Sa2, Sa3 and Sa4 are controlled with SPWM signals and its anti-parallel diodes Sa1d, Sa2d, Sa3d and Sa4d will provide current paths as and when needed. States Vab Vbc Vca Switching Operation +(100) Vs 0 -Vs Sa1 Sa2d Sb3 Sb4d Sc3 Sc4d +(101) Vs -Vs 0 Sa1 Sa2d Sb3 Sb4d Sc1 Sc2d +(001) 0 -Vs Vs Sa3 Sa4d Sb3 Sb4d Sc1 Sc2d +(011) -Vs 0 Vs Sa3 Sa4d Sb1 Sb2d Sc1 Sc2d +(010) -Vs Vs 0 Sb1 Sb2d Sa3 Sa4d Sc3 Sc4d +(110) 0 Vs -Vs Sa1 Sa2d Sb1 Sb2d Sc3 Sc4d +(000) 0 0 0 Sa3 Sa4d Sb3 Sb4d Sc3 Sc4d +(111) 0 0 0 Sa1 Sa2d Sb1 Sb2d Sc1 Sc2d -(100) Vs 0 -Vs Sb4 Sb3d Sc4 Sc3d Sa2 Sa1d -(101) Vs -Vs 0 Sb4 Sb3d Sa2 Sa1d Sc2 Sc1d -(001) 0 -Vs Vs Sa4 Sa3d Sb4 Sb3d Sc2 Sc1d -(011) -Vs 0 Vs Sa4 Sa3d Sb2 Sb1d Sc2 Sc1d -(010) -Vs Vs 0 Sa4 Sa3d Sc4 Sc3d Sb2 Sb1d -(110) 0 Vs -Vs Sc4 Sc3d Sa2 Sa1d Sb2 Sb1d -(000) 0 0 0 Sa4 Sa3d Sb4 Sb3d Sc4 Sc3d -(111) 0 0 0 Sa2 Sa1d Sb2 Sb1d Sc2 Sc1d „1‟ Upper arm switch ON, „0„Lower arm switch ON „+‟ period source voltage, „-„ period source voltage Subscript„d‟ denotes diode to that switch.
  • 5. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 14 | Page Fig.4: Single -to- three phase MC with R-load. Fig.5: Output voltage Vab - SPWM control at fc=1kHz Table-II: Switch Controls Signal For 1-3 MC SWITCH Sx (x = a, b, c) PWM switching signals A=1 B=1 A=1 B=0 A=0 B=1 A=0 B=0 Sx1 1 0 0 1 Sx2 0 1 1 0 Sx3 0 1 1 0 Sx4 1 0 0 1 The results of line voltage Vab are obtained as shown in Figure 5 and also the same results can be obtained for other phase B and C. IV. Operation With A Traction Motor To verify the operation strategy, the proposed 1-3 phase ac matrix converter with a three-phase ac asynchronous traction motor (TM), Type [ABB-6FRA6068] is simulated by PSIM software. The three-phase
  • 6. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 15 | Page resistive load is changed to three-phase star wounded induction motor. The traction motor parameters are given in TABLE-III. Table-III: Traction Motor Parameters Type: ABB-6FRA6068 Parameters Symbols Rating Supply Voltage Supply Frequency Output Frequency Speed Power (KW) current Max. Current Stator Resistance Stator Inductance Rotor Resistance Rotor Inductance Mutual Inductance Motor Inertia Vab f i fo N P I Imax Rs Ls R’r Lr Lm J 2180 V 50 Hz 65 – 170 Hz 1283 rpm 850 Kw 270 A 393 A 0.0727 Ω 1.312 m H 0.0641 Ω 2.716 m H 41.982 m H 19.1 Kgm2 The single-to-three phase ac Matrix Converter circuit is three legged A, B and C with Six bi-directional switches are S1 (Sa1- Sa2), S2 (Sc3- Sc4), S3 (Sb1- Sb2), S4 (Sa3- Sa4), S5 (Sc1-Sc2) and S6 (Sb3- Sb4).The simulation circuit is shown in Figure 6. Fig.6: Simulation circuit for 1-3 MC with a TM. The simulation is presented by using SPWM control technique. The Simulation of circuit is simulated with traction motor parameters by PSIM/MATLAB software packages. The single phase ac source voltage Vs taken as 1269V and source frequency fi is 50Hz. When 150 Hz output frequency is demanded, the simulated results are obtained shows the three phase output voltages found approximately equal to 2180 V and three phase output currents are nearly 270 A andalso following 120 degree phase sequence. The input current Ii is found nearly sinusoidal as expected is shown in Figure 7. Where, Vab, Vbc and Vca are the line voltages and Va, Vb and Vc are phase voltages. Ia, Ib and Ic are the output currents
  • 7. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 16 | Page Fig.7: Output waveforms of 1-3 MC with Traction Motor. Fig. 8: Speed-torque-load currents of 1-3 MC with Traction Motor. It can be seen that the Torque-Speed response of the Traction Motor during motoring operation, the shaft torque Tem and speed N is shown in Figure 8 at an accelerating mode. It is also found that the output voltage parts at the frequencies |fo− 2 fi| and |fo+ 2 fi | possess big proportions besides the frequency fo, where, fo is the fundamental frequency of the output voltage and fi is the frequency of the source voltage, which implied the influence of the input supply frequency. Time (s)
  • 8. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 17 | Page Fig. 9: FFT of input current and output voltages of 1-3 MC At the same time the amplitudes of the output voltages fluctuate at about 100Hz, the FastFourierTransform (FFT) taken after simulation is shown in Figure 9, which is twice the source frequency fi. This fluctuating is due to the SPWM control signals having relation only with the sign of the source voltage but not with the instantaneous value of the source voltage. The instantaneous value of the source voltage influences the output voltage directly. The low voltage ratio is the weakness of the matrix converter, which should be improved with some other efficient methods like SVPWM (space vector PWM), Fuzzy logic, etc. V. Conclusion The proposed matrix converter topology for single phase to three phase ac conversion is used for traction drives. This is analyzed to indicate the operational features of MCwith six bidirectional switches. The operation of this MC with SPWM is verified with simulation. This simplified control approach is suitable for general purpose implementation. The three phase traction motor drives performance indicates the satisfactory operation of this converter. This 1-3MC is a direct single stage ac-ac converter topology could be used to retrofit the existing two stage ac-dc-ac converter with dc link traction drives. This is also suitable for conversion of single phase transmission lines into three phase ac lines for Domestic, Industrial and Agricultural applications at remote places. References [1]. SatyaSahityaSekhar Nuka.; Dr. R. SaravanaKumar, “Implementation of Sinusoidal PWM Technique for AC-AC Matrix Converter Using PSIM” 978-1-4244-7926-9/11/$26.00©2011IEEE. [2]. Ashwin Kumar Sahoo.;Meenakshe,; S. S Dash.; and T. Thyagarajan,“Analysis and simulation of Matrix Converter Using PSIM.”The 7th International Conference on Power Electronics -October 22-26, 2007/ EXCO, Daegu, Korea.978-1-4244-1872-5/08 IEEE. [3]. S. I. Kahn, P. D. Ziogas and M. H. Rashid, “A Novel single to three phase static converter,” IEEE Transactions on Industry Applications, 1989, Vol. 25, No.1, pp. 143-152. [4]. Jianmin Xiao.; Wei Zhang.; Hideki Omori,;KeizoMatsui,“A Novel Operation Strategy for Single-to Three-Phase Matrix Converter” Electrical Machines and systems,2009,ICMES-2009/5382800,page 1-6,Cited by:3 [5]. P. Wheeler, J. Rodriguez, J. Clare, Empringham and A. Weinstein., "Matrix converters: A Technology Review," IEEE Transactions on Industrial Electronics, vol. 49, no. 2, April 2002,pp. 276 - 288. [6]. Milan, G; Mohamadian, M.;Dehghan, S.M.; Seifi, E,Yazdian, A.,”A Novel SPWM strategy for single to three-phase matrix converter.”2nd PEDSTC-2011,IEEE 10.1109/PEDSTC.2011.5742469,Page(s) 495-500, [7]. A. Zuckerberger, D. Weinstock, A. Alexandrovitz, "Simulation of three-phase loaded matrix converter," in Proc. on Electric Power Applications, vol. 143, no. 4, July 1996, pp. 294-300. Bhimrao S. Gajbhiye is research scholar (B.E., M.Tech. (Power Electronics and Drives)),since 1994 he is working in Indian Railway‟s departments Research Designs and Standards Organization (RDSO), Lucknow, (India) and currently he is working in Electric Loco Shed, Ajni , Central Railway, Nagpur, Maharashtra State as a Senior Section Engineer dealing with testing & maintenance of three phase locomotives WAG9 & WAP7. His main research interests are power electronics devices IGBT/GTO Matrix Converters based electrical drives for Traction, Industrial, Agricultural, and Domestic applications.
  • 9. Single phase to three phase ac Matrix Converter for Traction Drives DOI: 10.9790/1676-10221018 www.iosrjournals.org 18 | Page Dr. M.V. Aware, Professor, (M. Tech., Ph.D.) in VNIT, Nagpur (India) in Electrical Engineering Department. Area of Interest: Power electronics, Electrical machines and Traction Drives. Dr.B S. Umre, Assistant Professor,(M. Tech., Ph. D.) in VNIT, Nagpur (India) in Electrical Engineering Department. Area of Interest: Torsional Oscillation, Power System, Electrical Machines. Rajesh Patil, B.E, M.Tech.IRSEE-1992 batch of Indian Railways;presently working as Sr.D.E.E.(Traction distribution) in Central Railways, Nagpur (India). Area of Interest: Traction drives.