| CPC H02M 7/5387 (2013.01) [H01M 8/04559 (2013.01); H01M 8/04567 (2013.01); H01M 8/04679 (2013.01); H01M 8/04888 (2013.01); H02M 1/12 (2013.01); H01M 2250/10 (2013.01)] | 8 Claims |
|
1. A grid-connected power conversion system, comprising:
a fuel cell stack generating a DC voltage;
a power conversion system (PCS) converting the DC voltage supplied from the fuel cell stack into an AC voltage;
a multi-input transformer including a primary coil having a plurality of voltage input terminals and a secondary coil transforming a magnitude of a voltage applied to the primary coil and outputting the transformed voltage, the plurality of voltage input terminals determining a number of turns of the primary coil differently from each other, one of the plurality of voltage input terminals receiving the AC voltage converted in the PCS; and
a controller selecting the one of the plurality of voltage input terminals of the multi-input transformer based on a magnitude of the DC voltage generated from the fuel cell stack and determining whether to replace the fuel cell stack;
wherein when the DC voltage received from a DC sensor is lower than or equal to a minimum DC voltage required for conversion into a preset reference voltage, the controller switches a voltage inputted to the one of the plurality of voltage input terminals of the multi-input transformer, and the controller changes the AC voltage outputted from the PCS to a preset threshold voltage; and wherein the number of turns of the primary coil is determined so that the transformed voltage output through the secondary coil before and after switching of the voltage input to the one of the plurality of voltage input terminals of the multi-input transformer is constantly maintained wherein a number of turns of the secondary coil is fixed regardless of the number of turns of the primary coil.
|
|
7. A control method of a grid-connected power conversion system, the control method comprising:
a fuel cell stack operating step in which a DC voltage is outputted from the fuel cell stack, the DC voltage is converted into a AC voltage by a PCS, a converted AC voltage is supplied to a grid, and the DC voltage and the AC voltage are monitored by a controller;
a switch determining step in which the DC voltage is compared with a minimum DC voltage required for conversion into a preset reference voltage and it is determined whether to make a switch in a multi-input transformer and whether to change the AC voltage outputted from the PCS; a voltage changing step in which operation of the fuel cell stack is stopped, a voltage to be inputted to a voltage input terminal of the multi-input transformer is switched to a preset threshold voltage, and the AC voltage to be outputted from the PCS is changed to a threshold voltage; a fuel cell stack operation restarting step in which an operation of the fuel cell stack is restarted using the threshold voltage as a grid voltage, and the DC voltage and the AC voltage are monitored by the controller; a fuel cell stack replacement determining step in which the DC voltage is compared with a minimum DC voltage required for conversion into the threshold voltage and it is determined whether to replace the fuel cell stack; and an after-replacement fuel cell stack operating step in which the fuel cell stack is replaced and then the grid-connected power conversion system is operated with a replaced fuel cell stack as in the fuel cell stack operating step; wherein in the switch determining step, it is determined to continuously operate the fuel cell stack without making any switch when the DC voltage is higher than the minimum DC voltage required for conversion into the reference voltage, and it is determined to make a switch in the multi-input transformer when the DC voltage is lower than or equal to the minimum DC voltage required for conversion into the reference voltage; wherein the multi-transport transformer includes a primary coil having a plurality of voltage input terminals and a secondary coil transforming a magnitude of the voltage applied to the primary coil and outputting the transformed voltage, the plurality of voltage input terminals determining a number of turns of the primary coil differently from each other, one of the plurality of voltage input terminals receiving the AC voltage converted in the PCS; and wherein the number of turns of the primary coil is determined so that the transformed voltage output through the secondary coil before and after switching of the voltage input to the voltage input terminal is constantly maintained.
|