Dushyant Sharma scite author profile

This article compares two strategies for seamless (re)connection of grid-forming inverters to a microgrid powered by droop-controlled inverters. While an incoming inverter must be synced to the microgrid, seamless syncing and power-sharing are technical challenges for grid-forming inverters. In the first strategy, called the output-sync method, an incoming inverter is synced to the microgrid, and then the circuit breaker is closed for power-sharing. In the second strategy, called the controller-sync method, the inverter initially contributes at zero power following the microgrid frequency, and then the controller is transferred to the mode of power-sharing. Remarkably, the circuit breaker can be kept closed during the syncing process using the controller-sync method as the inverter starts from zero power contribution. In this novel strategy, two controller sets run in parallel, i.e., two parallel control paths are in place for obtaining the magnitude and the phase angle of the PWM reference signal. These parallel paths are synced for seamless transitions when only one of them is engaged to generate the PWM reference signal. The efficacy of these control strategies has been tested in a hardware setup of a microgrid fed by two 5kVA 208V droopcontrolled inverters, and the results are presented in this article. This article is also accompanied by a video clip demonstrating the performance of the output-sync and controller-sync methods in the laboratory.INDEX TERMS Autonomous synchronization, power-sharing, grid-forming inverter.

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Performance analysis of automatic generation control of interconnected power systems with delayed mode operation of area control error

Nanda

Sharma

Mishra

2015

J. eng.

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This study presents automatic generation control (AGC) of interconnected power systems comprising of two thermal and one hydro area having integral controllers. Emphasis is given to a delay in the area control error for the actuation of the supplementary controller and to examine its impact on the dynamic response against no delay which is usually the practice. Analysis is based on 50% loading condition in all the areas. The system performance is examined considering 1% step load perturbation. Results reveal that delayed mode operation provides a better system dynamic performance compared with that obtained without delay and has several distinct merits for the governor. The delay is linked with reduction in wear and tear of the secondary controller and hence increases the life of the governor. The controller gains are optimised by particle swarm optimisation. The performance of delayed mode operation of AGC at other loading conditions is also analysed. An attempt has also been made to find the impact of weights for different components in a cost function used to optimise the controller gains. A modified cost function having different weights for different components when used for controller gain optimisation improves the system performance.

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A review of PV array reconfiguration techniques for maximum power extraction under partial shading conditions

Sharma

Jalil

Ansari³

et al. 2023

Optik

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Coordinated active power control of Wind, Solar and Diesel Generator in a Microgrid

Mishra

Sharma

2015

IFAC-PapersOnLine

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Cross kit reconfiguration algorithm for enhanced output power of PV array during shading mismatch conditions

Jalil

Sharma

Bansal

2023

Optik

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Dushyant Sharma

Synchronization of Inverters in Grid Forming Mode

Performance analysis of automatic generation control of interconnected power systems with delayed mode operation of area control error

A review of PV array reconfiguration techniques for maximum power extraction under partial shading conditions

Coordinated active power control of Wind, Solar and Diesel Generator in a Microgrid

Cross kit reconfiguration algorithm for enhanced output power of PV array during shading mismatch conditions

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