Immune checkpoint inhibitors for progressive multifocal leukoencephalopathy: a new gold standard?

Recently, a hybrid modular multilevel converter with cascaded full bridges (HMMC-CFB) is proposed. This converter has mainly two parts: a director part (DP) and a wave shaping part (WSP). The DP consists of a conventional modular multilevel converter (MMC) with half bridge submodules (HBS). The WSP is a series connection of full bridge submodules (FBS) and attenuates the voltage harmonics produced by DP. The energy exchanged by WSP changes with modulation index and causes improper capacitor voltage regulation. For satisfactory operation of HMMC-CFB, the total capacitor voltage of WSP should remain constant. This paper presents an analysis of energy exchanged by WSP and proposes a new control technique to regulate the total dc voltage of WSP. In the proposed control, the energy exchanged by WSP is controlled by changing the slope of the voltage reference signal of DP. In addition, analysis of circulating current of HMMC-CFB is presented. A circulating current suppressing controller (CCSC) is used to control the second harmonic component. The performance of the proposed control technique for the standalone model of HMMC-CFB is evaluated by using time domain simulation studies in the PSCAD software environment. To test fault blocking capability of converter, a grid connected model is built in PSCAD and analyzed for dc fault tolerant capability.

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Variable Slope Trapezoidal Reference Signal Based Control for a DC Fault Tolerant Hybrid Modular Multilevel Converter With Cascaded Full Bridges

Ghat

Shukla

Mishra

2017

IEEE Trans. on Ind. Applicat.

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Hybrid Series Converter: A DC Fault-Tolerant HVDC Converter With Wide Operating Range

Patro

Shukla

Ghat

2021

IEEE J. Emerg. Sel. Topics Power Electron.

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Performance of power coefficent & power with respect to variable wind speed

Bhandare¹,

Jadhav²,

Ghat³

2013

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A New Hybrid Submodule for MMC with DC Fault Ride-Through Capability

Rudrasimha

Ghat

Shukla

2018

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Mahendra B. Ghat

A Generalized Cross-Connected Submodule Structure for Hybrid Multilevel Converters

A New H-Bridge Hybrid Modular Converter (HBHMC) for HVDC Application: Operating Modes, Control, and Voltage Balancing

Improved Balancing and Sensing of Submodule Capacitor Voltages in Modular Multilevel Converter

A new capacitor voltage balancing control for hybrid modular multilevel converter with cascaded full bridge

Variable Slope Trapezoidal Reference Signal Based Control for a DC Fault Tolerant Hybrid Modular Multilevel Converter With Cascaded Full Bridges

Hybrid Series Converter: A DC Fault-Tolerant HVDC Converter With Wide Operating Range

Performance of power coefficent & power with respect to variable wind speed

A New Hybrid Submodule for MMC with DC Fault Ride-Through Capability

Contact Info

Product

Resources

About

Mahendra B. Ghat

A Generalized Cross-Connected Submodule Structure for Hybrid Multilevel Converters

A New H-Bridge Hybrid Modular Converter (HBHMC) for HVDC Application: Operating Modes, Control, and Voltage Balancing

Improved Balancing and Sensing of Submodule Capacitor Voltages in Modular Multilevel Converter

A new capacitor voltage balancing control for hybrid modular multilevel converter with cascaded full bridge

Variable Slope Trapezoidal Reference Signal Based Control for a DC Fault Tolerant Hybrid Modular Multilevel Converter With Cascaded Full Bridges

Hybrid Series Converter: A DC Fault-Tolerant HVDC Converter With Wide Operating Range

Performance of power coefficent &amp; power with respect to variable wind speed

A New Hybrid Submodule for MMC with DC Fault Ride-Through Capability

Contact Info

Product

Resources

About

Performance of power coefficent & power with respect to variable wind speed