C. N. Muhammed Ajmal scite author profile

C. N. Muhammed Ajmal

4Publications

10Citation Statements Received

19Citation Statements Given

How they've been cited

How they cite others

105

Affiliations

Indian Institute of Technology Dharwad, The University of Texas at Dallas

Publications

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A Modified Hybrid DC Circuit Breaker With Reduced Arc for Low Voltage DC Grids

et al. 2021

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The increasing demand for the development and utilization of renewable energy resources has lead to a growing interest in the development of LVDC systems. The dc grid provides more flexibility in integrating different forms of renewable energy sources effectively. However, the lack of a reliable protection mechanism remains the main drawback in the growth of dc distribution systems. Unlike ac systems, the absence of a natural zero crossing in dc systems for arc extinction makes the use of a conventional mechanical circuit breaker (MCB) a less reliable solution. The use of a solid-state circuit breaker (SSCB) results in fast fault interruption but reduces the overall efficiency of the system due to the on-state voltage drop of the semiconductor devices. A hybrid circuit breaker (HCB) combining MCB and SSCB yields better static and dynamic performances but the main challenges remains in the demagnetization of the transmission line inductance after a fault interruption and an arc formation between the MCB contacts. This paper proposes a hybrid circuit breaker (HCB) which is suitable for fast fault interruption in low voltage dc (LVDC) systems while alleviating the above issues. Proposed topology employs a semiconductor switch as well as an actively switched capacitor branch in parallel with the main mechanical breaker to facilitate fast current commutation during a fault. The mechanical breaker forming the main branch is turned off at zero voltage. This eliminates the arc formation across the moving contacts of the breaker. Moreover, the fault interruption process does not require a varistor for network demagnetization following the fault current commutation. This paper also presents a discharging mechanism for the capacitor in a practical implementation. Operation of the proposed dc circuit breaker is evaluated through a prototype tested in the laboratory.

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Modular Bidirectional Solid-State DC Circuit Breaker for Next-Generation Electric Aircrafts

Raghavendra

Banavath

Ajmal

et al. 2022

IEEE J. Emerg. Sel. Topics Power Electron.

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A Modular Bidirectional Solid-State DC Circuit Breaker for LV and MVDC Grid Applications

Nandakumar

Raghavendra

Ajmal

et al. 2022

IEEE J. Emerg. Sel. Topics Power Electron.

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A Zero Current Switching Hybrid Circuit Breaker for DC Grid Applications

Saminathan

Ajmal

Banavath

et al. 2022

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