Your search keyword '"Shashavali, P."' showing total 9 results

1. Comprehensive analysis of faults and diagnosis techniques in cascaded multi-level inverters

Author

Ranjith Kumar Gatla, Devineni Gireesh Kumar, Palthur Shashavali, Rao Dsnm, Hossam Kotb, Abdulaziz Alkuhayli, Yazeed Yasin Ghadi, and Wulfran Fendzi Mbasso

Subjects

Multi-level inverters, Fault detection, Total harmonic distortion, Open-loop and closed-loop systems, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Reliability is a crucial factor to consider for multi-level inverters (MLIs) used in industrial applications. With the increasing number of power semiconductor devices, the potential for defects to significantly degrade the overall system is heightened. A highly effective fault-detection technique is required to minimize the impact of faults. This paper provides a comprehensive overview of the fundamental principles of multi-level inverters and the various sorts of faults that can occur in multi-level inverters. This study provides a comprehensive analysis of five-level cascaded H-bridge multilevel inverters (MLIs) under both normal and defective conditions. The paper outlines a fault-detection method that utilizes total harmonic distortion and a normalized output voltage factor. In addition, the paper discusses a fault-isolation strategy that relies on reducing amplitude modulation. This method leads to the development of a fault-tolerant inverter. The utilization of level-shifted pulse-width modulation (LSPWM) technology is employed for the purpose of switching operations. LSPWM is the most appropriate technique for MLIs that require a low amount of computational resources. The fault-diagnosis approach given is suitable for MLI-based drives, grid-connected operations, and other applications. This paper presents a comprehensive examination of the 5L-CMLI (5-Level Cascaded Multi-Level Inverter) under various fault scenarios in CMLI. Subsequently, various fault diagnosis approaches will be examined, including their advantages and disadvantages. The paper discusses several defects that can occur in the Insulated Gate Bipolar Transistor (IGBT) of a Current Mode Logic Inverter (CMLI), and also presents a design for a reliable fault diagnosis system. Furthermore, this analysis examines several fault detection strategies in CMLI, categorized according to open-loop and closed-loop dynamic systems fault classifications.

Published

2024

2. Effect of Junction Temperature on System Level Reliability of Grid Connected PV Inverter

Author

Gatla, Ranjith Kumar, primary, Ramesh, M, additional, Rao, Kota Prasada, additional, Shashavali, P, additional, Garapati, Durga Prasad, additional, Babu, P Chandra, additional, and Kumar, Devineni Gireesh, additional

Published

2023

3. Design and fabrication of material handling robot

Author

Shashavali, Shaik, Kumar, S. Sathees, Chakravarthy, Ch. Nithin, and Kumar, K. Santosh

Published

2023

4. Investigation on tribological behavior of graphite reinforced Nylon 6 polymer composites evaluated by Taguchi method

Author

Raheem, Mohd. Abdul, Kumar, S. Sathees, Chakravarthy, Ch. Nithin, and Shashavali, Shaik

Published

2023

5. Fabrication of gang planter

Author

Shashavali, Shaik, Sathees Kumar, S., Nithin Chakravarthy, Ch., and Annapurna, P.

Published

2023

6. Design and analysis of formula race car

Author

Shashavali, Shaik, Kumar, S. Sathees, Chakravarthy, Ch. Nithin, and Raheem, Abdul

Published

2023

7. Modelling and analysis of centrifugal compressor 3D impeller

Author

ShashaVali, Shaik, Chakravarthy, Ch. Nithin, and Prabhakar, N.

Published

2021

8. Design, analysis and development of antimicrobial ventilator splitters for four patients

Author

Singh, D. Dev, Mahender, T., and Shashavali, Shaik

Published

2021

9. Comprehensive analysis of faults and diagnosis techniques in cascaded multi-level inverters.

Author

Gatla RK, Kumar DG, Shashavali P, Dsnm R, Kotb H, Alkuhayli A, Ghadi YY, and Mbasso WF

Abstract

Reliability is a crucial factor to consider for multi-level inverters (MLIs) used in industrial applications. With the increasing number of power semiconductor devices, the potential for defects to significantly degrade the overall system is heightened. A highly effective fault-detection technique is required to minimize the impact of faults. This paper provides a comprehensive overview of the fundamental principles of multi-level inverters and the various sorts of faults that can occur in multi-level inverters. This study provides a comprehensive analysis of five-level cascaded H-bridge multilevel inverters (MLIs) under both normal and defective conditions. The paper outlines a fault-detection method that utilizes total harmonic distortion and a normalized output voltage factor. In addition, the paper discusses a fault-isolation strategy that relies on reducing amplitude modulation. This method leads to the development of a fault-tolerant inverter. The utilization of level-shifted pulse-width modulation (LSPWM) technology is employed for the purpose of switching operations. LSPWM is the most appropriate technique for MLIs that require a low amount of computational resources. The fault-diagnosis approach given is suitable for MLI-based drives, grid-connected operations, and other applications. This paper presents a comprehensive examination of the 5L-CMLI (5-Level Cascaded Multi-Level Inverter) under various fault scenarios in CMLI. Subsequently, various fault diagnosis approaches will be examined, including their advantages and disadvantages. The paper discusses several defects that can occur in the Insulated Gate Bipolar Transistor (IGBT) of a Current Mode Logic Inverter (CMLI), and also presents a design for a reliable fault diagnosis system. Furthermore, this analysis examines several fault detection strategies in CMLI, categorized according to open-loop and closed-loop dynamic systems fault classifications., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024