[11], presented in this literature

[11], presented in this literature is known that the optimal carrier based approach for modulating a multilevel converter is to use a phase disposition (PD). Jung-Ik Ha, et al. [12], suggested a voltage injection method for reconstructing phase currents from current signals measured on single current–shunt circuits with costeffective confi gurations in the PWM inverters. John E. Makaran, et al. [13], addressed empirical approach to gate charge control of a MOSFET used in low-side drive applications such as found in dc motor drives during turn-OFF. 2.1.2 Current Harmonics A. M. Hava, et al. [14], introduced the over-modulation region voltage gain characteristics and waveform qualities of carrierbased PWM methods are investigated. I. Husain, et al. [15], used in this literature higher torque ripple is one of the few drawbacks of switched reluctance motor (SRM) drives. D. S. Oliveira, et al. [16], presented in this literature proposes the use of a three-phase version of the hybridge rectifi er in the three-phase zero-voltage switch (ZVS) dc/dc converter with asymmetrical duty cycle. F. Peng,et al. [17], suggested an active power fi lter using quad-series voltage-source PWM converters to suppress ac harmonics by injecting compensating currents to the ac system is described in this literature. Sadeq A. Hamed, et al. [18], addressed PWM control of dc drive systems is considered as a challenge to the conventional phase controlled systems. M. Ohshima, et al. [19], introduced the error-tracking mode (ETM) in this literature, constantly sampled PWM technique for a voltage source power conversion system (PCS) interconnecting with a utility network to regulate. G. Narayanan,et al. [20], used in this two synchronized bus-clamping PWM strategies based on the space vector approach are proposed for high-power induction motor drives. The two strategies together can produce PWM waveforms with any odd pulse number. D. S. Oliveira Jr., et al. [21], presented the theoretical analysis of the three-phase zero voltage switching pulsewidth modulation dc–dc converter associated with a double Wye connected rectifi er, delta primary in this literature. R. Ghosh, et al. [22], presented in this literature the analysis, design, and control of a four-wire rectifi er system using split-capacitor topology. D. Kimhi, et al. [23], suggested a SPICE simulation model of current mode PWM converters, operating in the continuous mode, is described and tested against analytical expressions for buck and boost converters. S. Kim, et al. [24], addressed in this literature a matrix converter interfaces with three-phase ac voltage source, which creates three different virtual dc-link voltages. H. Akagi, et al. [25], introduced a transformerless hybrid active fi lter integrated into a medium-voltage motor drive for energy savings. This hybrid fi lter is intended for line harmonic-current mitigation of the three-phase diode rectifi er used. K. Marouani, et al. [26], used a new SVPWM technique for the control of a six-phase VSI-fed dual stator induction machines (DSIM). A DSIM is an induction machine which has two sets of three-phase stator windings spatially shifted by 30 electrical degrees. J. H. Seo, et al. [27], presented in this literature a new simplifi ed SVPWM method for three-level inverter is proposed. A. C. Lopes, et al. [28], suggested a variable reactance type series compensator with PWM capability. On a per-phase basis, it can be represented by a bidirectional force commutated switch in parallel with a combination of a capacitor in series. M. P. Kaimierkowski,et al. [29], addressed in two literatures simple control strategies for current-controlled, PWM transistor inverters are presented. Both methods are based on the three-level hysteresis comparator. K. M. Rahman, et al. [30], introduced literature hysteresis current controllers having fi xed bands are used in inverters of high-performance ac drives in this literature. A. Z. Albanna, et al. [31], used in this literature derives a closed-form analytical approximation of the output harmonic spectrum of a single-phase two level inverter under the action of hysteresis current control. M. Salo, et al. [32], presented in this literature three-phase current-type PWM rectifi ers are becoming increasingly popular as the front-end converter unit in power electronic system in this literature J. A. Pomilio, et al. [33], suggested a new soft-switched ac/dc PWM converter structure is presented. It is useful for current fed inverters and PWM rectifi ers. J. Chen, and P. Tang, et al. [34], addressed in this is proposes a sliding mode current control scheme for PWM brushless dc motor drives. Y. Wei Li, et al. [35], introduced an inductor–capacitor (LC) fi lter is normally required at the input of a PWM current source rectifi er (CSR), to assist in the commutation of switching devices in this literature. 2.1.3 Voltage and Current Harmonics S. C. Rizzo, et al. [36], used in this PWM current-source inverter (CSI) used in ac-drive applications can be implemented with symmetric gate turn-off thyristors (GTO’s) in this literature. T. Kawabata,et al. [37], presented in this literature a new method of the microprocessor control of three phase sinusoidal voltage PWM inverters is proposed. S. Fukuda, et al. [38], suggested in this literature sinusoidal PWM technique suitable for single-chip microprocessor-based control is described in this literature. D. Lee, and D. Lim, et al. [39], addressed in this a control technique of three-phase PWM rectifi ers eliminating both the ac input voltage and current sensors is proposed. E. Kim, et al. [40], introduced an improved soft-switching topology of a full-bridge pulse width modulation (FBPWM) dc/dc converter is described. L. A. C. Lopes, et al. [41], used in this PWM phase shifters allow the smooth control of power fl ow in a transmission line. In this literature analyzes a PWM quadrature booster phase shifter based on a multimodule ac controller structure in this literature. Y. Birbir, et al. [42], presented in this literature, fi rstly a sinusoidal pulsewidth modulation (SPWM) inverter feeding fi ve different chorded three-phase induction motors were tested for low-order odd harmonic voltage component and effi ciency at different loads. E. Van Dijk,et al. [43], suggested in this PWM-switch modeling method is a simple method for modeling PWM dc-dc converters operating in the continuous conduction mode. Lizhi Zhu, et al. [44], introduced a soft-commutating method and control scheme for an isolated boost full bridge converter is proposed in this literature to implement dual operation. Osman Kukrer, et al. [45], addressed the discrete-time current control of three-phase voltage-fed PWM inverters are discussed, with emphasis on important practical aspects in this literature. Y. Shrivastava, et al. [46], used in this literature is presents a generalized theory which covers both twolevel and three-level random pulsewidth modulation (RPWM) techniques. J. Cho, et al. [47], presented in this literature zero voltage and zero current switching (ZVZCS) full bridge PWM converter is proposed to improve the demerit. D. Sharon, et al. [48], suggested in this switched link PWM current source converters are presented. J. Kim, and S. Sul, et al. [49], addressed a voltage modulation method based on a triangular carrier wave for the three-phase four-leg voltage source converter is described. Y.