A method and an arrangement in connection with a wind power plant, an electric drive of the wind power plant comprising two or more partial converters in parallel, which constitute a frequency converter of the electric drive, and each partial converter comprising a mains converter part, of which the
A method and an arrangement in connection with a wind power plant, an electric drive of the wind power plant comprising two or more partial converters in parallel, which constitute a frequency converter of the electric drive, and each partial converter comprising a mains converter part, of which the nominal power of at least one differs from the nominal power of other mains converter parts, and in the method there is selected for use the smallest possible, individual mains converter part required by an operating point of the wind power plant, or a combination of mains converter parts.
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1. An arrangement in connection with a wind power plant, an electric drive of the wind power plant comprising two or more partial converters in parallel, which constitute a frequency converter of the electric drive, wherein each partial converter includes an individual mains converter part, of which
1. An arrangement in connection with a wind power plant, an electric drive of the wind power plant comprising two or more partial converters in parallel, which constitute a frequency converter of the electric drive, wherein each partial converter includes an individual mains converter part, of which the nominal power of at least one mains converter part differs from the nominal power of other mains converter parts, wherein one or more mains converter parts are arranged for being selected for use according to an operating point of the wind power plant, andwherein each mains converter part comprises a mains filter, whose design is in accordance with each corresponding mains converter. 2. The arrangement of claim 1, wherein each partial converter includes an inverter part, the nominal powers thereof being mutually equal. 3. The arrangement of claim 1, wherein the arrangement comprises a generator including a plurality of windings in parallel. 4. The arrangement of claim 2, wherein the arrangement comprises a generator including a plurality of windings in parallel. 5. The arrangement of claim 3, wherein each mains converter part comprises a mains filter, whose design is in accordance with each corresponding mains converter. 6. A method in connection with a wind power plant, an electric drive of the wind power plant comprising two or more partial converters in parallel, which constitute a frequency converter of the electric drive, wherein each partial converter includes an individual mains converter part, of which the nominal power of at least one mains converter part differs from the nominal power of other mains converter parts, the method comprising: determining an operating point of the wind power plants; andselecting at least one mains converter part based on the operating point of the wind power plant to optimize frequency conversion,wherein each mains converter part includes a mains filter, whose design is in accordance with each corresponding mains converter. 7. An electric drive arrangement for a wind power plant, the electric drive arrangement comprising: a plurality of partial converters configured in parallel, to function as a frequency converter of the electric drive, each partial converter including an individual mains converter part,wherein the nominal power of at least one mains converter part differs from the nominal power of other mains converter parts for selection for use according to an operating point of the wind power plant, andwherein each mains converter part comprises a mains filter, whose design is in accordance with each corresponding mains converter.
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