| 主权项 |
1. A method of riding through and recovering from a short circuit fault of a DC side of a high-voltage direct current transmission (HVDC) system, the HVDC system comprising a grid, multiple DC lines, and a hybrid modular multilevel converter (hybrid MMC); the hybrid MMC comprising multiple phases; each phase comprising an upper arm and a lower arm; each of the upper arm and the lower arm comprising a full-bridge sub-module and a half-bridge sub-module; the method comprising:
1) detecting whether the short circuit fault of the DC side of the HVDC system occurs by using the hybrid MMC, and proceeding to 2) if yes and continuing detecting if no; 2) sequentially performing step A) and step B) by using the hybrid MMC to ride through the short circuit fault of the DC side; 3) detecting whether a residual voltage of the DC side increases by using the hybrid MMC, and proceeding to 4) if yes and continuing detecting if no; and 4) sequentially performing step A) and step B) by using the hybrid MMC to recover from the short circuit fault of the DC side;wherein:
step A) comprises: detecting the residual voltage of the DC side, a three phase AC voltage of the HVDC system, and a three phase AC current of the HVDC system; setting a reactive power required to be injected to the grid by the hybrid MMC during failure of the HVDC system and an active power required to be transmitted by the DC lines; and obtaining an AC voltage reference eiv_ref required to be output from the each phase of the hybrid MMC according to the reactive power, the active power, the residual voltage of the DC side, the three phase AC voltage of the HVDC system, and the three phase AC current of the HVDC system; and step B) comprises: calculating a first voltage reference uif_p of an equivalent voltage source of the full-bridge sub-module of the upper arm of the each phase, a second voltage reference uih_p of an equivalent voltage source of the half-bridge sub-module of the upper arm of the each phase, a third voltage reference uif_n of an equivalent voltage source of the full-bridge sub-module of the lower arm of the each phase, and a fourth voltage reference uih_n of an equivalent voltage source of the half-bridge sub-module of the lower arm of the each phase according to the AC voltage reference eiv_ref, a rated voltage Udc of the DC side, and a ratio m between the residual voltage of the DC side and the rated voltage Udc; obtaining a switching signal of each of the full-bridge sub-module and the half-bridge sub-module according to a present voltage of the each of the full-bridge sub-module and the half-bridge sub-module, the first voltage reference uif_p, the second voltage reference uih_p, the third voltage reference uif_n, and the fourth voltage reference uih_n, wherein i represents the each phase; and sending the switching signal of the each of the full-bridge sub-module and the half-bridge sub-module to the HVDC system for outputting the AC voltage reference eiv_ref to the HVDC system. |
