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Found 6 papers, 0 papers with code
Input-Output Specifications of Grid-Forming Functions and Data-Driven Verification Methods
This work investigates interoperability and performance specifications for converter interfaced generation (CIG) that can be verified using only input-output data.
Three-phase grid-forming droop control for unbalanced systems and fault ride through
In this work, we investigate grid-forming (GFM) control for dc/ac voltage source converters (VSC) under unbalanced system conditions and unbalanced faults.
Grid-forming control of three-phase and single-phase converters across unbalanced transmission and distribution systems
In this work, we investigate grid-forming control for power systems containing three-phase and single-phase converters connected to unbalanced distribution and transmission networks, investigate self-balancing between single-phase converters, and propose a novel balancing feedback for grid-forming control that explicitly allows to trade-off unbalances in voltage and power.
Unified Grid-Forming Control of PMSG Wind Turbines for Fast Frequency Response and MPPT
In this work we present a novel dual-port grid-forming control strategy, for permanent magnet synchronous generator wind turbines with back-to-back voltage source converters, that unifies the entire range of functions from maximum power point tracking (MPPT) to providing inertia and fast frequency response without explicit mode switching between grid-following and grid-forming control.
Dual-port grid-forming control of MMCs and its applications to grids of grids
Finally, we provide an in-depth discussion and comparison of single-port GFM control and the proposed dual-port GFM controls.
Interactions of Grid-Forming Power Converters and Synchronous Machines -- A Comparative Study
An inevitable consequence of the global power system transition towards nearly 100% renewable-based generation is the loss of conventional bulk generation by synchronous machines, their inertia, and accompanying frequency and voltage control mechanisms.
Optimization and Control
