Chun-Chu Lin scite author profile

In this study, the backstepping control (BSC) design for a high-performance inverter with the functions of stand-alone and grid-connected power supply is developed so that distributed generation units can operate individually or in a micro-grid mode. In the stand-alone power-supply mode, the output ac voltage can supply to ac loads. In the grid-connected powersupply mode, the goal of power management can be achieved by controlling the amplitude and direction of the output current in the inverter. As a result, the proposed high-performance inverter with the BSC scheme has the output voltage with a low total harmonic distortion in the stand-alone power-supply mode and the output current with a high-power factor in the gridconnected power-supply mode to provide an ac output with high-performance power quality. The effectiveness of the proposed high-performance inverter with the BSC is verified by experimental results of a 3 kW prototype, and the merit of the proposed BSC scheme is indicated in comparison with previous proportional-integral control, proportional-resonant control and adaptive total sliding-mode control strategies.

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Efficient electrochemical dicarboxylations of arylacetylenes with carbon dioxide using nickel as the cathode

Yuan

Jiang

Lin

2008

Tetrahedron

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Chun-Chu Lin

Shape- and size-controlled electrochemical synthesis of cupric oxide nanocrystals

Design of High-Performance Stand-Alone and Grid-Connected Inverter for Distributed Generation Applications

Efficient electrochemical synthesis of 2-arylsuccinic acids from CO2 and aryl-substituted alkenes with nickel as the cathode

Design of backstepping control for high‐performance inverter with stand‐alone and grid‐connected power‐supply modes

Efficient electrochemical dicarboxylations of arylacetylenes with carbon dioxide using nickel as the cathode

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