Excitation control circuit and electrically excited wind power system having the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02M-007/53
H02J-003/38
H02P-009/30
출원번호
US-0612857
(2012-09-13)
등록번호
US-9007788
(2015-04-14)
우선권정보
CN-2012 1 0012818 (2012-01-16)
발명자
/ 주소
Lu, Yan-Song
Wang, Chang-Yong
Chen, Jun
Luo, Xue-Xiao
Mu, Jun-Sheng
출원인 / 주소
Delta Electronics (Shanghai) Co., Ltd.
대리인 / 주소
CKC & Partners Co., Ltd.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
The present invention provides an excitation control circuit and the electrically excited wind power system having the same. The excitation control circuit includes a plurality of full-power converters, each of which has a generator-side converter and a grid-side converter; a DC excitation module in
The present invention provides an excitation control circuit and the electrically excited wind power system having the same. The excitation control circuit includes a plurality of full-power converters, each of which has a generator-side converter and a grid-side converter; a DC excitation module including a plurality of DC-DC converters; and a control module, controlling or switching any DC-DC converter working normally, and controlling excitation switch turning ON or turning OFF.
대표청구항▼
1. An excitation control circuit used in an electrically excited wind power system, the excitation control circuit comprising: a plurality of full-power converters, each of the full-power converters comprising: a generator-side converter having an AC side and a DC side, wherein the AC side of the ge
1. An excitation control circuit used in an electrically excited wind power system, the excitation control circuit comprising: a plurality of full-power converters, each of the full-power converters comprising: a generator-side converter having an AC side and a DC side, wherein the AC side of the generator-side converter is electrically connected to a wind power generator, and the DC side of the generator-side converter is connected to a bus capacitance in parallel; anda grid-side converter having an AC side and a DC side, wherein the AC side of the grid-side converter is electrically connected to an AC power grid, and the DC side of the grid-side converter is connected to the bus capacitance in parallel;a DC excitation module comprising a plurality of DC-DC converters, wherein an input interface of each of the DC-DC converters electrically connected to the bus capacitance of a corresponding full-power converter, an output interface of each of the DC-DC converters is connected in parallel and is electrically connected to an excitation device, and an excitation current required by the wind power generator during excitation is provided by the excitation device; anda control module used for controlling or switching any one of the DC-DC converters to work normally. 2. The excitation control circuit of claim 1, further comprising an AC excitation module having an excitation switch and a phase-controlled rectifier bridge which are connected in series, wherein the excitation switch is connected to the AC power grid, and an output terminal of the phase-controlled rectifier bridge is connected with an output terminal of the DC excitation module in parallel, and the control module controls the excitation switch to be turned on or off. 3. The excitation control circuit of claim 2, wherein when the AC power grid has voltage drop or power down, the excitation control circuit supplies power to the excitation device through the DC excitation module. 4. The excitation control circuit of claim 1, wherein when one of the DC-DC converters is out of order, the control module outputs a switching control signal, such that the other of the DC-DC converters supplies power to the excitation device. 5. The excitation control circuit of claim 2, wherein when one of the DC-DC converters is out of order, the control module outputs a switching control signal, such that the other of the DC-DC converters supplies power to the excitation device. 6. The excitation control circuit of claim 2, wherein when one of the DC-DC converters is out of order, the control module outputs a switch control signal so as to turn on the excitation switch, such that the AC excitation module is used to supply power to the excitation device. 7. The excitation control circuit of claim 1, wherein an input terminal of each of the DC-DC converters has a filter unit for filtering out voltage disturbance on a cable connected between the bus capacitance and the input terminal. 8. The excitation control circuit of claim 1, wherein a first common-mode rejection unit is further arranged between the AC side of the grid-side converter and the AC power grid, so as to reject a common-mode current. 9. The excitation control circuit of claim 1, wherein a second common-mode rejection unit is further arranged between the AC side of the generator-side converter and the wind power generator, so as to reject a common-mode current. 10. The excitation control circuit of claim 1, wherein a dv/dt rejection unit is further arranged between the AC side of the generator-side converter and the wind power generator, so as to reject a dv/dt voltage. 11. An electrically excited wind power system, comprising a wind power generator and an excitation device, wherein the excitation device is used for providing an excitation current required by the wind power generator during excitation, and the electrically excited wind power system further comprises: an excitation control circuit of claim 1. 12. The excitation control circuit of claim 11, further comprising an AC excitation module having an excitation switch and a phase-controlled rectifier bridge which are connected in series, wherein the excitation switch is connected to the AC power grid, and an output terminal of the phase-controlled rectifier bridge is connected with an output terminal of the DC excitation module in parallel, and the control module controls the excitation switch to be turned on or off. 13. The excitation control circuit of claim 12, wherein when the AC power grid has voltage drop or power down, the excitation control circuit supplies power to the excitation device through the DC excitation module. 14. The excitation control circuit of claim 11, wherein when one of the DC-DC converters is out of order, the control module outputs a switching control signal, such that the other of the DC-DC converters supplies power to the excitation device. 15. The excitation control circuit of claim 12, wherein when one of the DC-DC converters is out of order, the control module outputs a switching control signal, such that the other of the DC-DC converters supplies power to the excitation device. 16. The excitation control circuit of claim 12, wherein when one of the DC-DC converters is out of order, the control module outputs a switch control signal so as to turn on the excitation switch, such that the AC excitation module is used to supply power to the excitation device. 17. The excitation control circuit of claim 11, wherein an input terminal of each of the DC-DC converters has a filter unit for filtering out voltage disturbance on a cable connected between the bus capacitance and the input terminal. 18. The excitation control circuit of claim 11, wherein a first common-mode rejection unit is further arranged between the AC side of the grid-side converter and the AC power grid, so as to reject a common-mode current. 19. The excitation control circuit of claim 11, wherein a second common-mode rejection unit is further arranged between the AC side of the generator-side converter and the wind power generator, so as to reject a common-mode current. 20. The excitation control circuit of claim 11, wherein a dv/dt rejection unit is further arranged between the AC side of the generator-side converter and the wind power generator, so as to reject a dv/dt voltage.
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