A method for controlling a pitch control system of a wind turbine includes providing a charged backup battery configured to supply no energy to a DC link when full AC input power is available, wherein the DC link includes a DC link capacitor. The method further includes using energy stored in the DC
A method for controlling a pitch control system of a wind turbine includes providing a charged backup battery configured to supply no energy to a DC link when full AC input power is available, wherein the DC link includes a DC link capacitor. The method further includes using energy stored in the DC link capacitor to operate a pitch control system during a loss or dip of AC input power, and maintaining charge on the DC link capacitor using the charged backup battery as voltage across the DC link capacitor drops during the operation of the pitch control system.
대표청구항▼
What is claimed is: 1. A method for controlling a pitch control system of a wind turbine, said method comprising: coupling an AC power source to a DC link including a DC capacitor, the AC power source configured to provide AC input power to the DC link; providing a charged backup battery configured
What is claimed is: 1. A method for controlling a pitch control system of a wind turbine, said method comprising: coupling an AC power source to a DC link including a DC capacitor, the AC power source configured to provide AC input power to the DC link; providing a charged backup battery configured to supply no energy to the DC link when full AC input power is available; using energy stored in the DC link capacitor to operate a pitch control system during a loss or dip of AC input power; and maintaining charge on the DC link capacitor using the charged backup battery as voltage across the DC link capacitor drops during operation of the pitch control system, wherein the AC power source remains coupled to the DC link when maintaining charge on the DC link capacitor. 2. A method in accordance with claim 1 wherein said providing a charged backup battery further comprises reverse biasing a diode in series with the backup battery so that, when full AC input power is available, the backup battery does not supply power to the DC link. 3. A method in accordance with claim 1 wherein said maintaining charge on the DC link capacitor further comprises discharging the backup battery through a forward biased diode and a fuse. 4. A method in accordance with claim 1 for controlling a plurality of pitch control systems of a wind turbine, further comprising supplying AC power from a non-regenerative source, and wherein the DC link is common to the plurality of pitch control systems, and further wherein maintaining charge on the DC link capacitor using the charged backup battery further comprises supplying current from the backup battery to the common DC link. 5. A method in accordance with claim 4 further comprising swapping real power between the plurality of the pitch control systems during operation with full AC input power. 6. A method in accordance with claim 1 further comprising supplying AC input power from a fully regenerative IGBT or MOSFET controlled source. 7. A method in accordance with claim 6 for controlling a plurality of pitch control systems of a wind turbine, wherein said supplying power from the regenerative source comprises supplying the power off a DC link common to the plurality of pitch control systems; and further wherein maintaining charge on the DC link capacitor using the charged backup battery further comprises supplying current from the backup battery to the common DC link. 8. A method in accordance with claim 7 further comprising swapping real power between the plurality of pitch motor drives during operation with full AC input power. 9. An apparatus for controlling pitch of a blade of a wind turbine, said apparatus comprising: a pitch control system; a DC link having a DC link capacitor and configured to provide power to said pitch control system; a source of AC input power to provide power to said DC link; and a backup battery configured to supply no energy to the DC link when full AC input power is available, said apparatus configured to: use energy stored in said DC link capacitor to operate said pitch control system during a loss or dip of AC input power; and maintain charge on said DC link capacitor using said backup battery as voltage across said DC link capacitor drops during operation of said pitch control system, said source of AC input power remains coupled to said DC link when said backup battery maintains charge on said DC link capacitor. 10. An apparatus in accordance with claim 9 further comprising a diode, wherein said diode is reverse biased and in series with said backup battery so that, when full AC input power is available, said backup battery does not supply power to said DC link. 11. An apparatus in accordance with claim 9 further comprising a forward biased diode and a fuse, wherein to maintain charge on said DC link capacitor, said apparatus further configured to discharge said backup battery through said forward biased diode and said fuse. 12. An apparatus in accordance with claim 9 comprising a plurality of pitch control systems, said AC source being a non-regenerative source, and said DC link is common to a plurality of pitch motor systems; and further wherein said maintaining charge on the DC link capacitor using the charged backup battery further comprises supplying current from the backup battery to the common DC link. 13. An apparatus in accordance with claim 12 further configured to swap real power between said plurality of pitch control systems during operation with full AC input power. 14. An apparatus in accordance with claim 9 wherein said source of AC input power comprises a fully regenerative IGBT or MOSFET controlled source. 15. An apparatus in accordance with claim 14 for controlling a multi-drive pitch control system of a wind turbine, wherein said apparatus comprises a plurality of pitch control systems, said DC link is common to said plurality of pitch control systems, and further wherein to maintain charge on said DC link capacitor using said charged backup battery, said apparatus further configured to supply current from said backup battery to said common DC link. 16. An apparatus in accordance with claim 15 further configured to swap real power between said plurality of pitch control systems during operation with full AC input power. 17. A wind turbine comprising: at least one blade and a generator coupled to said at least one blade and configured to generate AC power; a pitch control system configured to control a pitch of said at least one blade about an axis; a DC link having a DC link capacitor and configured to provide power to said pitch control system; a source of AC input power to provide power to said DC link, said source of AC power not necessarily comprising said generator; and a backup battery configured to supply no energy to said DC link when full AC input power is available, said wind turbine configured to: use energy stored in said DC link capacitor to operate said pitch control system during a loss or dip of AC input power; and maintain charge on said DC link capacitor using said backup battery as voltage across said DC link capacitor drops during operation of said pitch control system, said source of AC input power remains coupled to said DC link when said backup battery maintains charge on said DC link capacitor. 18. A wind turbine in accordance with claim 17 further comprising a diode, wherein said diode is reverse biased and in series with said backup battery when said backup battery is charged and full AC input power is available, so that, when said full AC input power is available, said backup battery does not supply power to said DC link, and further comprising a fuse, wherein to maintain charge on said DC link capacitor, said wind turbine further configured to forward bias said diode and to discharge said backup battery through said forward biased diode and said fuse. 19. A wind turbine in accordance with claim 17 comprising a plurality of pitch control systems, and wherein said DC link is common to said plurality of pitch motor systems; and to maintain charge on said DC link capacitor using the backup battery, said wind turbine further configured to supply current from the backup battery to the common DC link. 20. A wind turbine in accordance with claim 19 further configured to swap real power between the plurality of pitch control systems during operation of said wind turbine with full AC input power.
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