Search Results - "Chinthavali, M"

Improving Resiliency for Electric Vehicle Charging by Starke, M., Chinthavali, M., Kim, N., Carroll, T., Tuffner, F., Varghese, B., Rieger, C., Rohde, K., Pennington, T.

“…Electric vehicles adoption continues to grow. While charging infrastructure is anticipated to expand to meet the increased need, lack of EV charger system…”
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SiC-Based Intelligent Power Stage with Device Prognosis & Diagnosis and ZVRT Capability by Dong, Xiaofeng, Li, Hui, Martin, Sandro, Kim, Sanghun, Han, Dongwoo, Peng, Fang Z., Moon, Jinyeong, Li, Yuan, Chinthavali, M. S., Moorthy, RSK

“…A SiC-based intelligent power stage (IPS) with zero-voltage-ride-through (ZVRT) and device prognosis & diagnosis (P&D) capability is proposed for power…”
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A 55-kW Three-Phase Inverter With Si IGBTs and SiC Schottky Diodes by Ozpineci, B., Chinthavali, M.S., Tolbert, L.M., Kashyap, A.S., Mantooth, H.A.

“…Silicon carbide (SiC) power devices are expected to have an impact on power converter efficiency, weight, volume, and reliability. Currently, only SiC Schottky…”
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An Intelligent Energy Router for Managing Behind-the-Meter Resources and Assets by Chinthavali, M., Starke, M., Moorthy, R.

“…With increase in distributed energy resources (DERs) and smart loads, each energy resource and load need a separate power conversion system leading to complex…”
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Agent-Based Framework for Supporting Behind the Meter Transactive Power Electronic Systems by Starke, M., Chinthavali, M., Zheng, S., Campbell, S., Zeng, R., Smith, M., Kuruganti, T., Dean, B.

“…In this paper, the concept of a framework based on an agent-based interface for power stages in a power electronic system is presented. The presented concept…”
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Networked Control and Optimization for Widescale Integration of Power Electronic Devices in Residential Homes by Starke, M., Chinthavali, M., Winstead, C., Sheng, Z., Campbell, S., Zeng, R., Kuruguanti, T., Xue, Y., Thomas, C.

“…Power electronics devices are emerging at residential houses, including electric vehicles, energy storage systems, solar photovoltaic systems, and…”
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Comparison of Si and SiC inverters for IPM traction drive by Chinthavali, M, Otaduy, P, Ozpineci, B

“…In this paper a comparison of performance of an hybrid electric vehicle with an all-silicon (Si), hybrid (Si and SiC), and an all-Silicon Carbide (SiC)…”
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Residential (Secondary-Use) Energy Storage System with Modular Software and Hardware Power Electronic Interfaces by Starke, M., Chinthavali, M., Zheng, S., Campbell, S., Zeng, R., Smith, M., Dean, B.

“…Secondary-use energy storage systems (ESS) are a potential low-cost energy storage system for the electric grid. These systems propose a low-cost solution to…”
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Isolated wired and wireless battery charger with integrated boost converter for PEV applications by Chinthavali, M., Onar, O. C., Campbell, S. L., Tolbert, L. M.

“…Integrated charger topologies that have been researched so far are with the dc-dc converters and the charging functionality usually have no isolation in the…”
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All-SiC inductively coupled charger with integrated plug-in and boost functionalities for PEV applications by Chinthavali, M., Onar, O. C., Campbell, S. L., Tolbert, L. M.

“…So far, the charging functionality for vehicles has been integrated either into the traction drive system or to the dc-dc converters in plug-in electric…”
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Integrated charger with wireless charging and boost functions for PHEV and EV applications by Chinthavali, M., Onar, O. C., Campbell, S. L., Tolbert, L. M.

“…Integrated charger topologies that have been researched so far with dc-dc converters and the charging functionality have no isolation in the system. Isolation…”
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High power SiC modules for HEVs and PHEVs by Chinthavali, M, Tolbert, L M, Zhang, H, Han, J H, Barlow, F, Ozpineci, B

“…With efforts to reduce the cost, size, and thermal management systems for the power electronics drivetrain in hybrid electric vehicles (HEVs) and plug-in…”
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Temperature dependent Pspice model of silicon carbide power MOSFET by Yutian Cui, Chinthavali, M., Tolbert, L. M.

“…This paper provides a behavioral model in Pspice for a silicon carbide (SiC) power MOSFET rated at 1200 V / 30 A for a wide temperature range. The Pspice model…”
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Investigation on the parallel operation of discrete SiC BJTs and JFETs by Chinthavali, M, Puqi Ning, Yutian Cui, Tolbert, L M

“…This paper presents an analysis of single discrete silicon carbide (SiC) JFET and BJT devices and their parallel operation. The static and dynamic…”
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A fast overcurrent protection scheme for IGBT modules through dynamic fault current evaluation by Zhiqiang Wang, Xiaojie Shi, Tolbert, L. M., Blalock, B. J., Chinthavali, M.

“…This paper presents a new active overcurrent protection scheme for IGBT modules based on the evaluation of fault current level by measuring the induced voltage…”
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SiC GTO thyristor model for HVDC interface by Chinthavali, M., Tolbert, L.M., Ozpineci, B.

“…The development of semiconductor devices is vital for the growth of power electronic systems. Modern technologies like voltage source converter (VSC) based…”
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Feasibility study of a 55-kW air-cooled automotive inverter by Chinthavali, M., Christopher, J. F., Arimilli, R. V.

“…The purpose of this study is to determine the thermal feasibility of an air-cooled 55-kW power inverter with SiC devices. Air flow rate, ambient air…”
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Optimal Sizing of a Dynamic Wireless Power Transfer System for Highway Applications by Foote, A., Onar, O. C., Debnath, S., Chinthavali, M., Ozpineci, B., Smith, D. E.

“…Inductive power transfer has been proposed as a solution to power future automated and electrified highways. In this study, an interoperable wireless charging…”
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Characterization and modeling of silicon carbide power devices and paralleling operation by Yutian Cui, Chinthavali, M. S., Fan Xu, Tolbert, L. M.

“…This paper presents recent research on several silicon carbide (SiC) power devices. The devices have been tested for both static and dynamic characteristics,…”
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Design and analysis of a 55-kW air-cooled automotive traction drive inverter by Chinthavali, M., Tawfik, J. A., Arimilli, R. V.

“…The purpose of this study is to determine the thermal feasibility of an air-cooled 55-kW power inverter with SiC devices. Air flow rate, ambient air…”
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