IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0544639
(1983-10-24)
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우선권정보 |
CH-198206387 (1982-11-03); EP-0109993 (1983-10-06) |
발명자
/ 주소 |
|
출원인 / 주소 |
- BBC Brown, Boveri & Company, Limited
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인용정보 |
피인용 횟수 :
11 인용 특허 :
12 |
초록
▼
A power converter typically used for operating electrical machines and provided with protective measures to protect against overvoltages which can otherwise occur in the process of switching off the inductive loads represented by the electrical machines. To that end, the converter includes plural br
A power converter typically used for operating electrical machines and provided with protective measures to protect against overvoltages which can otherwise occur in the process of switching off the inductive loads represented by the electrical machines. To that end, the converter includes plural bridge circuits having a.c. voltage terminals and d.c. voltage terminals, wherein the a.c. voltage terminals are phasewise parallel-connected and coupled to each other via at least one capacitor and wherein the d.c. voltage terminals are coupled to each other via at least one intermediate circuit reactor. The bridge circuits include bridge arms having GTO thyristors that can be switched off, and the plural bridges are driven out of phase with respect to one another. In this way, the converter supplies an alternating current which is relatively near-sinusoidal and exhibits a low harmonics content to the electrical machine. Following turning off of the thyristors in the bridge circuits of the converter, energy stored in the machine is temporarily stored in the capacitors coupling the A.C. terminals of the bridge circuits, so that no impermissible overvoltages occur.
대표청구항
▼
1. A converter having fast-acting overvoltage protection, comprising: plural bridge circuits each having a.c. voltage terminals and d.c. voltage terminals, wherein each a.c. voltage terminal of each bridge circuit is coupled with every other a.c. voltage terminal of the plural bridge circuits by
1. A converter having fast-acting overvoltage protection, comprising: plural bridge circuits each having a.c. voltage terminals and d.c. voltage terminals, wherein each a.c. voltage terminal of each bridge circuit is coupled with every other a.c. voltage terminal of the plural bridge circuits by means at least one capacitor; said plural bridge circuits each having an a.c. side and a d.c. side and said plural bridge circuits being phasewise parallel-connected on the a.c. side thereof; said plural bridge circuits connected in pairs in which the d.c. sides of each pair are parallel-connected to each other by means of at least one intermediate circuit reactor; and said plural bridge circuits, comprising bridge arms having GTO thyristors that can be switched off, being driven out of phase with respect to one another. 2. A converter according to claim 1, comprising: pulse-width modulator means for pulse-triggering the GTO thyristors of each bridge arm in a chopper mode by means of pulses which are width-modulated in accordance with a predetermined variation as a function of time of an input voltage, comprising, a saw-tooth generator originating a delta function, a phase shifter having an input connected to an a.c. input terminal of said bridge circuits and an output, and a pulse-width modulator for triggering the GTO thyristors, said pulse-width modulator connected to the output of said phase shifter and connected to said saw-tooth generator to receive a delta-shaped voltage therefrom, said pulse-width modulator including means for generating width-modulated pulses based on the delta function from the saw-tooth generator and the phase-shifted a.c. voltage from said phase shifter, said saw-tooth generator generating a signal defining a chopping frequency which is considerably higher than that of the a.c. voltage applied to said pulse width modulator from said phase shifter. 3. A converter having fast-acting overvoltage protection, comprising: plural intermediate circuit converters each including a first bridge circuit connected to a second bridge circuit by means of at least one intermediate circuit reactor, said first bridge circuit of each intermediate circuit converter having a.c. voltage terminals which are connected to the a.c. voltage terminals of every other first bridge circuit by at least one capacitor; at least the second bridge circuits of the intermediate-circuit converters having a.c. voltage terminals which are phasewise parallel-connected on an a.c. side of the said second bridge circuits; and said first and second bridge circuits of said intermediate circuit converters having bridge arms including GTO thyristors that can be switched off, said intermediate circuit converters being driven out of phase with respect to one another. 4. A converter according to claim 3, comprising: pulse-width modulator means for pulse-triggering the GTO thyristors of each bridge arm in a chopper mode by means of pulses which are width-modulated in accordance with a predetermined variation as a function of time of an input voltage, comprising, a saw-tooth generator originating a delta function, a phase shifter having an input connected to an a.c. input terminal of said bridge circuits and an output, and a pulse-width modulator for triggering the GTO thyristors, said pulse-width modulator connected to the output of said phase shifter and connected to said saw-tooth generator to receive a delta-shaped voltage therefrom, said pulse-width modulator including means for generating width-modulated pulses based on the delta function from the saw-tooth generator and the phase-shifted a.c. voltage from said phase shifter, said saw-tooth generator generating a signal defining a chopping frequency which is considerably higher than that of the a.c. voltage applied to said pulse width modulator from said phase shifter. 5. A converter according to claim 3, further comprising: said first bridge circuits of the intermediate circuit converters being phasewise parallel-connected to each other on an a.c. side of said first bridge circuits. 6. A converter according to claim 5, comprising: pulse-width modulator means for pulse-triggering the GTO thyristors of each bridge arm in a chopper mode by means of pulses which are width-modulated in accordance with a predetermined variation as a function of time of an output voltage, comprising, a saw-tooth generator originating a delta function, a phase shifter having an input connected to an a.c. input terminal of said bridge circuits and an output, and a pulse-width modulator for triggering the GTO thyristors, said pulse-width modulator connected to the output of said phase shifter and connected to said saw-tooth generator to receive a delta-shaped voltage therefrom, said pulse-width modulator including means for generating width-modulated pulses based on the delta function from the saw-tooth generator and the phase-shifted a.c. voltage from said phase shifter, said saw-tooth generator generating a signal defining a chopping frequency which is considerably higher than that of the a.c. voltage applied to said pulse width modulator from said phase shifter.
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