Faculty Publications
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Item Switched-Capacitor-Based Three-Phase Five-Level Inverter Topology with Reduced Components(IEEE Computer Society help@computer.org, 2018) Sandeep, N.; Jagabar Sathik, J.S.M.; Yaragatti, U.R.; Krishnasamy, K.This paper presents a new five-level multilevel inverter (MLI) based on retrofitting of the conventional two-level (2L) three-phase inverter modules with minimum structural reconfigurations for low-voltage and high-power-quality demanding applications. It comprises two such inverter modules connected in series with 2L switched-capacitor units (SCUs). It requires only two isolated dc sources which are shared by all inverter output phases and thus eliminates the chances of output phase unbalance. Further, the voltage across the floating capacitors of the SCUs are naturally regulated without any sensors, thus makes the proposed topology more elegant for industrial applications. Further, an extensive comparison with the recent other MLI topologies attests the reduced requirement of the components in devising the proposed topology. Finally, experimental results from a low-power hardware prototype are presented to validate the feasibility of the proposed configuration. © 2018 IEEE.Item Synergy of fiber length and content on free vibration and damping behavior of natural fiber reinforced polyester composite beams(Elsevier Ltd, 2014) Krishnasamy, K.; Siva, I.; Jeyaraj, P.; Winowlin Jappes, J.T.; Amico, S.C.; Nagarajan, N.This work addresses the results of experimental investigation carried out on free vibration characteristics of short sisal fiber (SFPC) and short banana fiber (BFPC) polyester composites. Influence of fiber length and weight percentage on mechanical properties and free vibration characteristics are analyzed. Composite beam specimen is fabricated with random fiber orientations at17. MPa compression using compression molding machine. Natural frequencies and associated modal damping values of the composite laminates were obtained by carrying out the experimental modal analysis. It is found that an increase in fiber content increases the mechanical and damping properties. For SFPC, 3. mm fiber length and 50. wt% fiber content yielded better properties, whereas for BFPC, 4. mm fiber length and 50. wt% fiber content was the best combination. Scanning electron microscopy was performed to study the interfacial mechanism. © 2013 Elsevier Ltd.Item A New Generalized Multilevel Converter Topology Based on Cascaded Connection of Basic Units(Institute of Electrical and Electronics Engineers Inc., 2019) Jagabar Sathik, J.; Shalchi Alishah, R.; Sandeep, N.; Hosseini, S.H.; Babaei, E.; Krishnasamy, K.; Yaragatti, U.R.In this paper, a new single-phase multilevel converter (MLC) topology based on the cascade connection of novel basic units is presented. The proposed basic unit generates 17-level output voltage waveform and can be extended for higher voltage levels by using a simple cascade connection. Both the proposed basic unit and cascaded topologies are compared with other state-of-the-art MLC topologies. From the comparison results, it will be shown that the proposed topology has several advantages such as the reduced number of power electronic components, lesser number of dc sources, and blocking voltage. Moreover, the proposed MLC has reduced power losses and improved efficiency. The operability and feasibility of the proposed converter are validated through extensive simulation and experiments. Finally, the corresponding results affirming the predominance of the proposed topologies are presented. © 2013 IEEE.Item A Self-Balancing Five-Level Boosting Inverter with Reduced Components(Institute of Electrical and Electronics Engineers Inc., 2019) Sandeep, N.; Jagabar Sathik, J.S.; Yaragatti, U.R.; Krishnasamy, K.Two-Stage boosting multilevel inverters (MLIs), which are highly suitable for photovoltaic power plants, are known to suffer because of the high voltage stress on the switches of second stage. One of the ways to confront this issue is through eliminating the front-end booster. However, this leads to increased structural and control complexity of the resulting integrated boosting MLI. This letter presents a single-stage boosting MLI requiring lesser number of switches, diodes, and capacitors for renewable power generation applications. It requires nine switches and only one capacitor for five-level voltage generation. The topology has inherent self-balancing capability, thereby does not need additional balancing circuitry. The proposed topology has a uniform peak inverse voltage stress on the switches of value equal to the input dc voltage. A less complicated logic-form-equations-based gating pulse generation scheme is designed for enabling the proposed MLI to maintain its capacitor voltage. Further, a comparative study with state-of-the-art topologies is carried out to demonstrate the superior performance of the proposed topology. Finally, the feasibility of the proposed topology is validated through experimental tests and the corresponding results are elucidated. © 1986-2012 IEEE.Item Switched-Capacitor-Based Quadruple-Boost Nine-Level Inverter(Institute of Electrical and Electronics Engineers Inc., 2019) Sandeep, N.; Jagabar Sathik, J.S.; Yaragatti, U.R.; Krishnasamy, K.This letter describes a novel nine-level inverter based on switched capacitors (SCs) with quadruple-boost ability requiring reduced components. The structure of the proposed topology relies on the series/parallel connection of SCs. It consists of 12 switches and two SCs. As opposed to similar SC-based inverters, the proposed topology does not employ a back-end H-bridge and the voltage stress of all the switches does not exceed twice the input dc voltage. A simple logic-gate-based pulsewidth-modulation scheme is developed for gating the switches of the proposed topology. A comprehensive comparison against the state-of-the-art topologies in terms of the required number of components is performed to attest the outperforming merits of the proposed topology. Finally, various experimental results are presented to validate the feasibility and operability of the proposed topology. © 1986-2012 IEEE.