Priyankar Roy scite author profile

Priyankar Roy

4Publications

3Citation Statements Received

109Citation Statements Given

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109

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National Institute of Technology Meghalaya

Publications

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A study on performance parameters of three-level T-type inverter based PMSM drives for electric vehicles applications

Roy

Banerjee

2023

Electr Eng

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In this paper a comparative analysis is conducted to analyse the performances of two-level conventional and three-level diode clamped voltage source inverter-based drives. Carrier-based space vector modulation technique is employed in both three-level & two-level voltage source inverter (2L-VSI) inverter-based drives. Comparative study for 2L-VSI, three-level neutral-point-clamped (3L-NPC) and three-level T-type neutral-point-clamped (3L-TNPC) inverters are performed in view of conduction & switching losses and harmonic profile. Also presented in this work the dynamic response of field-oriented control (FOC) controlled permanent magnet synchronous motor (PMSM) drive under varying load conditions towards EV applications. Rapid changes in speed and loading in Electric vehicle (EV) traction drives lead to sharp fluctuations in modulation depth and power factor (PF). With variation of modulation index and power factor, power loss of all the three inverters are analysed. Also, in the present work control logics are simulated in MATLAB to observe various speed-torque combinations of 54 kW PMSM drive. Additionally, inverters power losses are developed in PLECS environment. By using a scaled-down prototype of 5 hp PMSM drive, the results are carried out for hardware validation. .

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Reliability evaluation of carrier‐based pulse width modulated three‐level F‐type neutral point clamped inverter with power loss analysis

Roy

Kurre

Nannam

et al. 2023

Circuit Theory & Apps

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An improved carrier‐based pulse‐width‐modulation (CBPWM) technique for a three‐level (3L) F‐type neutral point‐clamped (FNPC) inverter is presented in this paper. By using the proposed modulation scheme, the DC‐link capacitor voltage at the neutral point is balanced. For manufacturers, reliability is one of the major concerns for all power electronics devices and parts. This paper proposes an extensive reliability analysis of the 3L‐FNPC inverter. Considering the mean time to failure (MTTF) of each device, the reliability of the 3L‐FNPC inverter is analyzed in this present work by using two different methods, which are the approximate method and the exact method. To compute the failure rate of the equipment, only the number of components is considered in the approximate method. Alternatively, exact methods are utilized to evaluate the reliability of a system by knowing the different stress levels and various operating environments of a specific system. Because of the strong correlation between device failure and temperature stress factors, power loss analysis is used in the exact method. The MATLAB Simulink environment is used to determine the power loss of the switching devices. A solar off‐grid photovoltaic (PV) system is considered for reliability testing. Experimental mission profile data are used to estimate the lifetime of the 3L‐FNPC inverter by applying the rainflow counting algorithm, the Coffin‐Manson model, and Miner's rule. The competitiveness, effectiveness, and reliability of the 3L‐FNPC inverter with the proposed modulation technique are validated using a hardware prototype.

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A Reduced Switch Count High-Frequency Single-Phase 5-L MLI for IH Applications

Kurre

Banerjee

Roy

2023

J CIRCUIT SYST COMP

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Nowadays, multilevel inverter (MLI)-based induction heating (IH) technology is the best-suited option in many domestic, commercial and medicinal applications because of its higher efficiency, low cost, fast heating and lower electromagnetic interference (EMI). This paper presents reduced components count high-frequency (HF) single phase five-level (5-L) MLI for IH applications. The working methodology of the proposed system has been analyzed in the multicarrier phase disposition pulse width modulation (MC-PD-PWM) method in high switching frequency i.e., 10[Formula: see text]kHz. In addition, the proposed topology can produce output voltage twice of input voltage without any external source. Moreover, the detailed power loss and reliability analysis have been evaluated for the proposed system. In terms of switch count and efficiency, the single-phase 5-L inverter architecture is compared to some conventional and current topologies. Finally, to validate and justify the operation of the proposed system, the simulation and experimental results of five-level inverter are presented.

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GH-reference frame based SVPWM controlled T-type NPC Inverter fed PMSM drive for Electric Vehicle applications

Roy

Kurre

Bandyopadhyay

2022

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Priyankar Roy

A study on performance parameters of three-level T-type inverter based PMSM drives for electric vehicles applications

Reliability evaluation of carrier‐based pulse width modulated three‐level F‐type neutral point clamped inverter with power loss analysis

A Reduced Switch Count High-Frequency Single-Phase 5-L MLI for IH Applications

GH-reference frame based SVPWM controlled T-type NPC Inverter fed PMSM drive for Electric Vehicle applications

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