Your search keyword '"Shivam Prakash Gautam"' showing total 16 results

1. Investigating the Effectiveness of H-Bridge in Mitigating Switch Faults of a Single-Phase Five-Level Inverter

Author

Shivam Prakash Gautam, Satyajit Mohanty, Santanu Kumar Dash, Manik Jalhotra, Lalit Kumar Sahu, Michele Roccotelli, and Kashem M. Muttaqi

Subjects

Capacitor voltage ripple reduction, fault-tolerant, inherent redundant paths, photovoltaic systems, uniform power losses, 5-level inverter, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The use of multilevel inverters (MLIs) is increasingly popular due to their ability to operate at high power and reduce voltage stress on semiconductor switches compared to conventional inverters. However, the greater number of conducting semiconductor switches in MLIs, coupled with their higher failure rate, can weaken the inverter system. Five-level inverters provide an optimal balance by leveraging MLI benefits without significantly increasing semiconductor devices. This paper defines parameters to evaluate both quantitative and qualitative aspects of three recently proposed fault-tolerant MLI topologies. By scrutinizing these topologies, a generalized redundant leg architecture is proposed. This architecture is adaptable to any five-level MLI topology, whether it requires fault tolerance or already possesses it. The proposed solution, validated through comparative analysis and experiments, demonstrates superior fault tolerance with only one switch conducting from the redundant leg under faulty conditions, outperforming related works.

Published

2025

2. Hybrid LSTM-GBRT based machine learning technique implementation for electric vehicle sales prediction analysis

Author

Rishav Dev Mishra, Santanu Kumar Dash, Saichol Chudjuarjeen, Satyajit Mohanty, Shivam Prakash Gautam, Rupali Mohanty, and Md Tasnin Tanvir

Subjects

Electric vehicle, electric vehicle sales, forecast, machine learning, deep Learning, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The investigation of machine learning models in Europe and India for predicting future sales of electric cars (EVs) worldwide has been the focus of present research. In this study, Long Short-Term Memory (LSTM), Support Vector Regression (SVR), Autoregressive Integrated Moving Average (ARIMA), Linear Regression, hybrid long- and short-term memory neural network model and gradient boosted regression trees model (LSTM-GBRT) models based machine learning techniques are compared for performance analysis to predict EV sales. Moreover, in this study, a hybrid LSTM-GBRT technique was developed, which forecasts EV sales, particularly for Battery Electric Vehicles (BEVs) and Plug-in Hybrid Electric Vehicles (PHEVs) over the next five years. During the prediction of EV sales, it has been validated that hybrid LSTM-GBRT technique has better predictive power. In addition, the present study attempts to provide estimated sales statistics for the designated locations. The results indicate that EV industry is evolving, with India showing a strong growth rate in BEV sales and establishing itself as a major participant in the global EV scenario by showing a notable increase in its share of worldwide EV sales volume by 2027. Conversely, the performance of EV sales in Europe has been analysed and validated through the proposed LSTM-GBRT model.

Published

2024

3. Lower Output Voltage Harmonics With Optimum Switching Angles of Single PV-Source Based Reduced Switch Multilevel Inverter Using BWO Algorithm

Author

Rupali Mohanty, Debashis Chatterjee, Satyajit Mohanty, Sonam Shrivastava, Santanu Kumar Dash, Shivam Prakash Gautam, and Kishore Bingi

Subjects

BWO algorithm, flyback converter, modulation index, reduced multilevel inverter, total harmonic distortion, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper presents a technique of harmonic minimization from output voltage waveform of a reduced switch Multilevel Inverter (MLI) through an efficient bio inspired metaheuristic algorithm called Black widow optimization (BWO). The proposed reduced switch 13- level MLI scheme uses a single Photovoltaic (PV) source which can be suitable for grid integration. The proposed BWO algorithm minimizes the Total Harmonic Distortion (THD) of output voltage with low operational time compared to other existing nature based algorithms considering large searching area. The weighted THD (WTHD) of the output voltage is also minimized in order to reduce the effect of lower order harmonics from the output voltage in a greater extent. The convergence rate and level of accuracy of BWO algorithm is compared with two different bio inspired algorithms for justification. The MLI operation is carried out with fundamental frequency, minimizing the switching stress while lowering the power loss compared to PWM or Sinusoidal PWM switching schemes. A single PV panel with multi winding flyback converter is used for medium voltage application through reduced switch MLI, serving the purpose of both isolation and reduction of energy sources. Simulation and experimental analysis are carried out with online control technique using a three phase 13-level reduced MLI to validate the proposed concept on a practical system.

Published

2024

4. A Survey on Fault Tolerant and Diagnostic Techniques of Multilevel Inverter

Author

Shivam Prakash Gautam, Manik Jalhotra, Lalit Kumar Sahu, Mano Ranjan Kumar, and Krishna Kumar Gupta

Subjects

Fault tolerance, multilevel inverters (MLI), single phase and three phase topologies, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Multilevel inverters are used in a number of high-power applications, including industrial motor drives, flexible power transmission, and, renewable energy systems. Since the MLI design incorporates a large number of devices, the system’s reliability suffers. This has caught the interest of academics all over the world, who are searching for methods to increase the dependability of the MLI design and include fault-tolerant qualities into it, either through software or hardware. Redundancy is a method that has recently gained popularity in solid-state transformer applications where fault tolerance is a highly desired quality. This is because the method provides for greater fault tolerance. The goal of this research is to offer a complete knowledge of the fault tolerance capabilities of MLIs created by the research community over the last few years

Published

2023

5. Techniques to Reduce Capacitor Voltage Ripples in Multilevel Inverters

Author

Shivam Prakash Gautam, Manik Jalhotra, Atif Iqbal, Lalit Kumar Sahu, Mano Ranjan Kumar, Meena Malik, and Shima Sadaf

Subjects

Capacitor voltage ripple reduction, inherent redundant paths, multilevel inverters, uniform power losses, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Reducing ripples on the capacitor voltage has two benefits: improved output waveform quality and accurate converter size. During the generation of a given output voltage level, the factor “Inherent Redundant Paths (IRPs)” has a considerable impact on the characteristics of multilevel inverter design. The consistent distribution of power loss derives from the Active Neutral Point-Clamed Inverter’s intrinsic redundant route at zero-voltage level generation. Even though it has been claimed that adding intrinsically redundant routes might give fault-tolerance capabilities to MLI topologies, the utilization of these pathways at intermediate voltage levels has not yet been studied. Based on this, the current research provides a unique charging and discharging technique is known as the alternating charging and discharging approach, which reduces capacitor voltage ripple. In addition, the suggested technique permits the inherent voltage balancing of capacitors without the need for supplemental components. The suggested alternative charging and discharging approach is implemented under both healthy and varied switch failure circumstances. In a laboratory prototype, the efficacy of the suggested alternative charging and discharging technique has been empirically tested.

Published

2023

6. A Highly Resilient Fault Tolerant Topology of Single Phase Multilevel Inverter

Author

Shivam Prakash Gautam, Manik Jalhotra, Lalit Kumar Sahu, Allamsetty Hema Chander, and Veera Venkata Subrahmanya Kumar Bhajana

Subjects

Multilevel inverter, capacitor voltage balancing, single switch fault tolerance, multiple switch fault tolerance, reliability analysis, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Low reliability of the inverter is caused by high failure rates of semiconductor components and capacitors as well as high requirements for these components in the design of multilevel inverter topologies. The primary challenges in the reported fault-tolerant topology solutions include high component count, handling single and multiple switch faults, handling open and short switch failures on all fault locations, and achieving natural voltage balancing of the capacitors. This paper proposes a highly resilient fault-tolerant topology to accomplish the above challenges without compromising efficiency during faulty conditions. The acquired experimental results verify the proposed topology’s robustness and efficacy. The proposed topology is evaluated by considering multiple instances of switch failures to encompass various fault locations and types. A comparison with the recently reported fault-tolerant MLI topologies verifies the superiority of the proposed topology.

Published

2023

7. DC Bus Voltage Stabilization and SOC Management Using Optimal Tuning of Controllers for Supercapacitor Based PV Hybrid Energy Storage System

Author

Saswati Pattnaik, Mano Ranjan Kumar, Sunil Kumar Mishra, Shivam Prakash Gautam, Bhargav Appasani, and Taha Selim Ustun

Subjects

photovoltaic, batteries, supercapacitor, SOC consumption, DC bus voltage stabilization, PI controller, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Industrial electrochemistry, TP250-261

Abstract

The global initiative of decarbonization has led to the popularity of renewable energy sources, especially solar photovoltaic (PV) cells and energy storage systems. However, standalone battery-based energy storage systems are inefficient in terms of the shelf and cycle life, reliability, and overall performance, especially in instantaneous variations in solar irradiance and load. In order to overcome this, a combination of a supercapacitor and battery-based hybrid energy storage system (HESS) is considered as an emerging and viable solution. The present work proposes an optimally tuned tilt-integral (TI) controller to develop an efficient power management strategy (PMS) to enhance the overall system performance. The controller parameters are tuned by optimization of the time-domain design specifications using a gradient-free simplex search technique. The robustness of the proposed TI controller is demonstrated in comparison to PI and fractional-order PI (FOPI) controllers. Furthermore, extensive experimentation was carried out to analyze the effectiveness of the proposed approach for DC bus voltage stabilization and state-of-charge (SOC) management under varying operating conditions such as solar irradiance, load, temperature, and SOC consumption by battery.

Published

2022

8. Single and multiple switch fault‐tolerance capabilities in a hybrid five‐level inverter topology

Author

Manik Jalhotra, Tushar Janarao Nistane, Shivam Prakash Gautam, and Lalit Kumar Sahu

Subjects

Computer science, 020209 energy, 020208 electrical & electronic engineering, Fault tolerance, 02 engineering and technology, Semiconductor device, Capacitor voltage, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Redundancy (engineering), Electrical and Electronic Engineering, Inverter topology, MATLAB, computer, Voltage, computer.programming_language

Abstract

The redundancy in switching states to generate different voltage levels is of great importance to incorporate fault-tolerant features in multilevel inverters. However, this redundancy comes at the expense of high device count, which is paralleled with vulnerable characteristics of semiconductor devices, resulting in low reliability. About this concern, the present study introduces a novel fault-tolerant topology to generate the five-level output voltage. The proposed topology can tolerate open-circuit failure, for single and multiple switches with the help of novel redundant leg architecture and short-circuit condition is dealt with the fast fuses. The comparative study with recent literature is discussed, which reveals the superiority of the proposed topology, in terms of qualitative as well as quantitative parameters. Switching strategies are proposed under different single and multiple switch fault cases, which achieves self-balancing of capacitor voltage. Thus, no complex control scheme is required. The simulation is performed in MATLAB/Simulink, and the feasibility of the proposed topology is validated using experimental results.

Published

2020

9. Reliability and energy sharing analysis of a fault‐tolerant multilevel inverter topology

Author

Shubhrata Gupta, Lalit Kumar Sahu, Shivam Prakash Gautam, and Manik Jalhotra

Subjects

Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Fault tolerance, Failure rate, Topology (electrical circuits), 02 engineering and technology, Network topology, Topology, Reliability (semiconductor), 0202 electrical engineering, electronic engineering, information engineering, Inverter, Voltage source, Electrical and Electronic Engineering

Abstract

Photovoltaic (PV) systems, especially which are installed in the remote areas, stand in need for a highly reliable system. A high failure rate of the semiconductor switches and capacitors yields a very low reliability of the inverters used in the PV system. Conventional two-level inverters are replaced by multilevel inverters (MLIs) to effectively improve the output quality waveform. However, MLIs incorporate a high device count in their architecture which further impairs the reliability of the PV system. Recent research has focused on developing fault-tolerant MLI topologies with reduced device count. However, the number of active devices and power losses, factors which are many of the times overlooked, are key in determining the reliability of the inverter. Here, the reliability of a novel fault-tolerant MLI topology is evaluated bearing in mind the effect of power losses on the junction temperature. Equal (or best) voltage source utilisation characteristics help in maintaining the uniform charge of the batteries. The concept of reliability is evaluated mathematically. The fault tolerance and even source utilisation of the proposed topology is verified through the obtained experimental results.

Published

2019

10. Development of fault‐tolerant MLI topology

Author

Manik Jalhotra, Shivam Prakash Gautam, Lalit Kumar, and Shubhrata Gupta

Subjects

Computer science, 020209 energy, 020208 electrical & electronic engineering, Topology (electrical circuits), Fault tolerance, 02 engineering and technology, Semiconductor device, Topology, law.invention, Capacitor, Reliability (semiconductor), Development (topology), law, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, MATLAB, computer, Voltage, computer.programming_language

Abstract

Multilevel inverters (MLIs) have developed deep roots in various industrial sectors owing to their advantages over conventional two-level inverters. However, the reliability of the semiconductor devices has been one of the major concerns for the proper functioning of MLI. Therefore, a novel fault-tolerant topology is proposed in this study. The proposed topology is capable to tolerate single- and multi-switch faults. It has lesser device count compared with the most recent work in the field. Moreover, it achieves inherent voltage balancing across capacitors. The proposed fault-tolerant topology is simulated in MATLAB/Simulink and validated experimentally.

Published

2018

11. Single‐phase multilevel inverter topologies with self‐voltage balancing capabilities

Author

Shubhrata Gupta, Lalit Kumar, and Shivam Prakash Gautam

Subjects

Computer science, 020209 energy, 020208 electrical & electronic engineering, Modulation index, Topology (electrical circuits), 02 engineering and technology, Network topology, law.invention, Cost reduction, Reduction (complexity), Capacitor, Modulation, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Voltage

Abstract

In this study, two new structures of single-phase hybrid multilevel inverter are proposed for both symmetrical and asymmetrical configurations that can be employed in drives and control of electrical machines and connection of renewable energy sources. The proposed configuration uses a less number of semiconductor devices and DC sources as compared with conventional and newly developed topologies which lead to a reduction in cost and installation area. The proposed topology poses a vital advantage of self-voltage balancing of its capacitor voltage regardless of load type, load dynamics and modulation index. Also, the proposed topology is expanded in a cascaded fashion which reduces the complexity and improves the performance significantly. A wide range of comparison is done with conventional and newly developed topologies to show the superior performance of proposed topologies regarding a total number of switches and DC sources. The multi-carrier pulse-width modulation strategy is adopted for generating switching pulses for respective switches. A laboratory prototype is developed for testing the performance of the proposed topology for 9-level and 17-level inverters.

Published

2018

12. Reliability improvement of transistor clamped H‐bridge‐based cascaded multilevel inverter

Author

Shivam Prakash Gautam, Lalit Kumar, and Shubhrata Gupta

Subjects

Total harmonic distortion, Computer science, 020209 energy, 020208 electrical & electronic engineering, Transistor, Fault tolerance, 02 engineering and technology, Fault (power engineering), H bridge, law.invention, Capacitor, Reliability (semiconductor), law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Inverter, Electrical and Electronic Engineering

Abstract

Reduced voltage stress and low-total harmonic distortion are the main causes for such widespread application of multilevel inverters (MLIs) in various industrial sectors. However, reliability is one of the major concerns of MLIs as it uses a large number of switches as compared with two-level inverters. Therefore, a newly developed transistor clamped H-bridge inverter is proposed in the literature which uses a relatively less number of switches and DC sources as compared with cascaded H-bridge but lacks in reliability due to the absence of redundant states. Hence, in this study, the reliability improvement strategy for newly developed five-level transistor clamped H-bridge-based cascaded inverter is proposed which can be generalised for any number of levels. In the proposed fault tolerant strategy, the fault can be broadly classified based on the two main legs of the proposed inverter. Moreover, the proposed fault tolerant strategy does not require any kind of external circuit for maintaining its capacitor voltage in the balanced state. Finally, to validate the concept, a laboratory prototype of the five-level inverter is developed and results are obtained successfully.

Published

2017

13. A Single-Phase Five-Level Inverter Topology With Switch Fault-Tolerance Capabilities

Author

Lalit Kumar, Nitesh Agrawal, Shivam Prakash Gautam, and Shubhrata Gupta

Subjects

Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Fault tolerance, Topology (electrical circuits), Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Semiconductor device, Network topology, Fault (power engineering), law.invention, Stuck-at fault, Capacitor, Reliability (semiconductor), Control and Systems Engineering, Control theory, law, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business

Abstract

Low reliability is one of the major concerns of multilevel inverter due to the requirement of a large number of semiconductor devices as compared to two-level inverters. Thus, in this paper, a novel topology of multilevel inverter is proposed that can tolerate both open and short-circuit faults on its switches. The proposed topology also reduces dc sources and capacitors as compared to the conventional and recently proposed fault-tolerant topologies. Two types of solutions are provided in order to make the proposed topology fault tolerant; first provides a partial solution to fault, while the second provides a complete solution to fault. In addition, a novel switching strategy is proposed to reduce the amount of capacitor voltage ripples under normal and postfault conditions. Also, the proposed switching scheme offers an additional advantage of self-voltage balancing of its capacitor voltage both under normal as well as postfault conditions. To validate the proposed concepts, simulation and experimental analysis are carried out and different results are presented to show the viability of the proposed topology under normal operation, during fault and postfault conditions.

Published

2017

14. Reduction in number of devices for symmetrical and asymmetrical multilevel inverters

Author

Shivam Prakash Gautam, Lalit Kumar Sahu, and Shubhrata Gupta

Subjects

Total harmonic distortion, Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Topology (electrical circuits), 02 engineering and technology, Driver circuit, Network topology, Power (physics), law.invention, Capacitor, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, business, Pulse-width modulation, Voltage

Abstract

Multilevel inverter (MLI) is receiving remarkable recognition due to its reduced voltage stress across the power switches and low total harmonic distortion in output voltage. However, MLI incorporates large number of semiconductor switches and hence increases its complexity. In this study, new structures of symmetrical and asymmetrical MLI are proposed. The proposed structures offer reduced number of controlled switches, power diodes, capacitors and DC sources as compared with classical and recently proposed topologies in the line. Reduction of switch count, driver circuit and DC voltage sources reduces the size, cost, complexity and enhances overall performance. Moreover significant reduction in voltage stress across the switches can be achieved. A comparative analysis of proposed topologies with the classical topology and recently published topologies has been made in terms of controlled switches, power diodes, driver circuit requirement, DC voltage sources and blocking voltage. Multi-carrier pulse width modulation strategy is adopted for generating the switching pulses. The detailed simulation study of the proposed topology has been carried out using MATLAB/Simulink and feasibility of topology has been validated experimentally.

Published

2016

15. Hybrid topology of symmetrical multilevel inverter using less number of devices

Author

Shivam Prakash Gautam, Shubhrata Gupta, and Lalit Kumar

Subjects

Engineering, Low-dropout regulator, business.industry, Topology (electrical circuits), Network topology, Topology, Driver circuit, Power (physics), Reduction (complexity), Electronic engineering, Electrical and Electronic Engineering, business, Diode, Voltage

Abstract

The interest in development of newer topologies of multilevel inverter has been increasing rapidly in past few years. Recently introduced topologies achieve higher number of output voltage steps with reduced number of switches, DC voltage sources, voltage stress across switches and losses as compared with the conventional topologies. In this study, a new structure of symmetrical multilevel inverter is proposed. The proposed structure offers reduced number of controlled switches, power diodes and DC sources as compared with classical and recently proposed topologies in the literature. Reduction of switch count and DC voltage sources reduces the size, cost, complexity and enhances overall performance. Proposed topology is capable of producing 7, 9 and 11 levels of output voltage with seven switches only. Moreover, significant reduction in voltage stress across the switches can be achieved. A comparative analysis of proposed topology with the conventional topology and recently published topologies has been made in terms of controlled switches, power diodes, driver circuit requirement, DC voltage sources and blocking voltage. Multi-carrier pulse-width modulation strategy is adopted for generating the switching pulses. Simulation study of the proposed topology has been carried out using Matlab/Simulink and feasibility of topology has been validated experimentally.

Published

2015

16. Aberrant cytoplasmic accumulation of retinoblastoma protein in basal cells may lead to increased survival in malignant canine mammary tumours

Author

Naresh Kumar Sood, Shivam Prakash Gautam, and Kuldip Gupta

Subjects

0301 basic medicine, 030102 biochemistry & molecular biology, General Veterinary, biology, Retinoblastoma, Retinoblastoma protein, Myoepithelial cell, 010501 environmental sciences, medicine.disease, medicine.disease_cause, 01 natural sciences, Molecular biology, 03 medical and health sciences, Basal (phylogenetics), Cyclin D1, Gene expression, biology.protein, medicine, Carcinogenesis, Gene, 0105 earth and related environmental sciences

Abstract

The retinoblastoma susceptibility gene RB-1 is a tumour suppressor gene that encodes a protein (Rb) that regulates the transition from the G1 phase to the S phase of the cell cycle. Inactivation of the Rb gene has been shown in a variety of human tumours, including breast, ovarian, hepatic, prostatic, and endometrial carcinomas. Although Rb protein is normally expressed in the nuclei of healthy cells, during carcinogenesis there is a partial or complete loss of nuclear expression. Recently, some reports have indicated aberrant cytoplasmic expression of Rb protein. However, little is known about its cytoplasmic expression and significance as a prognostic marker in canine mammary tumours (CMT). The present study was performed on 36 malignant CMT cases in order to assess the mutational status and prognostic significance of Rb in primary malignant CMT. We report an almost complete loss of nuclear expression of Rb protein with corresponding gain of aberrant cytoplasmic expression in basal/myoepithelial cells in CMT. Strikingly, our analysis reveals a significant positive correlation between survival time and cytoplasmic expression of Rb protein in basal cells. Moreover, cytoplasmic expression of Rb protein in basal cells was also correlated with tumour grade and stage.

Published

2014