Dhaval Patel scite author profile

Recently, medium voltage SiC devices have been developed which can be used for grid tie applications at medium voltage. Two such devices -15 kV SiC IGBT and 10 kV SiC MOSFET have opened up the possibility of looking into different converter topologies for medium voltage distribution grid interface. These can be used in medium voltage drives, active filter applications or as the active front end converter for Solid State Transformers (SST). Transformer-less Intelligent Power Substation (TIPS) is one such application for these devices. TIPS is proposed as a 3-phase SST interconnecting 13.8 kV distribution grid with 480 V utility grid. The Front End Converter (FEC) of TIPS is made up of 15 kV SiC IGBTs.This paper focuses on the advantages, design considerations and challenges associated with the operation of converters using these devices keeping TIPS as the topology of reference.

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Experimental Study on Low Power Wide Area Networks (LPWAN) for Mobile Internet of Things

Patel

Won

2017

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In the past decade, we have witnessed explosive growth in the number of low-power embedded and Internetconnected devices, reinforcing the new paradigm, Internet of Things (IoT). The low power wide area network (LPWAN), due to its long-range, low-power and low-cost communication capability, is actively considered by academia and industry as the future wireless communication standard for IoT. However, despite the increasing popularity of 'mobile IoT', little is known about the suitability of LPWAN for those mobile IoT applications in which nodes have varying degrees of mobility. To fill this knowledge gap, in this paper, we conduct an experimental study to evaluate, analyze, and characterize LPWAN in both indoor and outdoor mobile environments. Our experimental results indicate that the performance of LPWAN is surprisingly susceptible to mobility, even to minor human mobility, and the effect of mobility significantly escalates as the distance to the gateway increases. These results call for development of new mobility-aware LPWAN protocols to support mobile IoT.Index Terms-Low power wide area networks, mobile Internet of Things

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A Transformerless Intelligent Power Substation: A three-phase SST enabled by a 15-kV SiC IGBT

Krishna

Tripathi

Madhusoodhanan

et al. 2015

IEEE Power Electron. Mag.

106

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Solid-State Transformer and MV Grid Tie Applications Enabled by 15 kV SiC IGBTs and 10 kV SiC MOSFETs Based Multilevel Converters

Madhusoodhanan

Tripathi

Patel

et al. 2015

IEEE Trans. on Ind. Applicat.

317

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Medium Voltage (MV) SiC devices have been developed recently which can be used for 3-phase, MV grid tie applications. Two such devices-15 kV SiC IGBT and 10 kV SiC MOSFET have opened up the possibilities of looking into different converter topologies for MV distribution grid interface. These can be used in MV drives, active filter applications or as the active front end converter for Solid State Transformers (SST). Transformerless Intelligent Power Substation (TIPS) is one such application for these devices. TIPS is proposed as a 3-phase SST interconnecting 13.8 kV distribution grid with 480 V utility grid. It is an all SiC devices based multi-stage SST. This paper focuses on the advantages, design considerations and challenges associated with the operation of converters using these devices keeping TIPS as the topology of reference. Efficiency of TIPS topology is also calculated using the experimentally measured loss data of the devices and the high frequency transformer. Experimental results captured on a developed prototype of TIPS along with its measured efficiency are also given.Index Terms-Active front end converter, medium voltage grid tie application, silicon carbide, solid state transformer. NOMENCLATUREZ out rect (s) FEC closed loop output impedance in forward direction Z in dab (s) DAB closed loop input impedance in forward direction V dc rect FEC dc bus voltage V dc dab DAB dc bus voltage C dc MV side dc bus capacitance m FEC modulation index K v , T v FEC dc bus voltage controller gain, time constant K i , T i FEC current controller gain, time constant ω ibw FEC current control loop bandwidth L s , R s FEC line inductance and resistance per phase i load rect FEC load current i d FEC d-axis current i d1 DAB d-axis current L m , C p , R c DAB magnetizing inductance with its parasitic capacitance and resistance C m DAB primary winding mutual capacitance L l1 , C 1 , R 1 DAB leakage inductance with its parasitic capacitance and resistance L f 1 , R df 1 DAB filter inductance and its parasitic resistance L s1 , R s1 DAB secondary inductance and its series resistance φ DAB phase angle N DAB turns ratio K v1 , T v1 DAB dc bus voltage controller gain, time constant K i1 , T i1 DAB current controller gain, time constant T f DAB feedback path time constant V dc low DAB low voltage side dc bus voltage i load dab DAB load current C dc low , E SR DAB low voltage side dc bus capacitor and its ESR R load dab DAB parallel load model

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Modeling and Analysis of Stator Interturn Fault Location Effects on Induction Machines

Patel

Chandorkar

2014

IEEE Trans. Ind. Electron.

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Dhaval Patel

Solid State Transformer and MV grid tie applications enabled by 15 kV SiC IGBTs and 10 kV SiC MOSFETs based multilevel converters

Experimental Study on Low Power Wide Area Networks (LPWAN) for Mobile Internet of Things

A Transformerless Intelligent Power Substation: A three-phase SST enabled by a 15-kV SiC IGBT

Solid-State Transformer and MV Grid Tie Applications Enabled by 15 kV SiC IGBTs and 10 kV SiC MOSFETs Based Multilevel Converters

Modeling and Analysis of Stator Interturn Fault Location Effects on Induction Machines

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