Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft
An increase in the demand of the electrical power in the more electric aircraft (MEA) with electrical equipment replacing the pneumatic and hydraulic equipment; the modular power converter (MPC) is needed for power conversion and power distribution in the MEA. The MPC is a promising technological so...
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sg-ntu-dr.10356-1392972020-05-18T09:39:17Z Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft Mohd Tariq Ali Iftekhar Maswood Moreddy, Abhinava Chaitanya Gajanayake, Chandana Jayampathi Lee, Meng Yeong Amit Kumar Gupta School of Electrical and Electronic Engineering Rolls-Royce@NTU Corporate Lab Electrical Power System Integration Laboratory@NTU Engineering::Electrical and electronic engineering Aircraft Power Systems Dc–ac Power Conversion An increase in the demand of the electrical power in the more electric aircraft (MEA) with electrical equipment replacing the pneumatic and hydraulic equipment; the modular power converter (MPC) is needed for power conversion and power distribution in the MEA. The MPC is a promising technological solution for high voltage and high power conversion. The scalable configuration of MPC's improves reliability and availability of the converter. This paper presents a novel modular zero current switching (ZCS) inverter for applications in the MEA. The proposed inverter achieves ZCS through a modular circuital configuration and eliminates the utilization of dead time. Elimination of dead time in the proposed topology will be helpful in proposing a low-complex control circuit for its integration with the 270-V dc power distribution architecture of the MEA. Moreover, with respect to MEA, the reliability and economic feasibility of the converter is also important, as reliability is a fundamental requirement in aircraft safety-critical equipment. A comparative analysis in terms of reliability, economic feasibility, and the effect of dead time on inverter output for the proposed inverter with respect to the conventional pulsewidth modulated inverter is presented in this paper. The operational and low loss features of the proposed converter are highlighted. NRF (Natl Research Foundation, S’pore) 2020-05-18T09:39:16Z 2020-05-18T09:39:16Z 2017 Journal Article Mohd Tariq, Ali Iftekhar Maswood, Moreddy, A. C., Gajanayake, C. J., Lee, M. Y., & Amit Kumar Gupta. (2017). Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft. IEEE Transactions on Transportation Electrification, 3(4), 843-854. doi:10.1109/TTE.2017.2704283 2332-7782 https://hdl.handle.net/10356/139297 10.1109/TTE.2017.2704283 2-s2.0-85050168553 4 3 843 854 en IEEE Transactions on Transportation Electrification © 2017 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Aircraft Power Systems Dc–ac Power Conversion Mohd Tariq Ali Iftekhar Maswood Moreddy, Abhinava Chaitanya Gajanayake, Chandana Jayampathi Lee, Meng Yeong Amit Kumar Gupta Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
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An increase in the demand of the electrical power in the more electric aircraft (MEA) with electrical equipment replacing the pneumatic and hydraulic equipment; the modular power converter (MPC) is needed for power conversion and power distribution in the MEA. The MPC is a promising technological solution for high voltage and high power conversion. The scalable configuration of MPC's improves reliability and availability of the converter. This paper presents a novel modular zero current switching (ZCS) inverter for applications in the MEA. The proposed inverter achieves ZCS through a modular circuital configuration and eliminates the utilization of dead time. Elimination of dead time in the proposed topology will be helpful in proposing a low-complex control circuit for its integration with the 270-V dc power distribution architecture of the MEA. Moreover, with respect to MEA, the reliability and economic feasibility of the converter is also important, as reliability is a fundamental requirement in aircraft safety-critical equipment. A comparative analysis in terms of reliability, economic feasibility, and the effect of dead time on inverter output for the proposed inverter with respect to the conventional pulsewidth modulated inverter is presented in this paper. The operational and low loss features of the proposed converter are highlighted. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Mohd Tariq Ali Iftekhar Maswood Moreddy, Abhinava Chaitanya Gajanayake, Chandana Jayampathi Lee, Meng Yeong Amit Kumar Gupta |
| format |
Article |
| author |
Mohd Tariq Ali Iftekhar Maswood Moreddy, Abhinava Chaitanya Gajanayake, Chandana Jayampathi Lee, Meng Yeong Amit Kumar Gupta |
| author_sort |
Mohd Tariq |
| title |
Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
| title_short |
Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
| title_full |
Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
| title_fullStr |
Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
| title_full_unstemmed |
Reliability, dead-time, and feasibility analysis of a novel modular tankless ZCS inverter for more electric aircraft |
| title_sort |
reliability, dead-time, and feasibility analysis of a novel modular tankless zcs inverter for more electric aircraft |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139297 |
| _version_ |
1681058564184997888 |