IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0526048
(2012-06-18)
|
등록번호 |
US-8687397
(2014-04-01)
|
우선권정보 |
EP-09179643 (2009-12-17) |
발명자
/ 주소 |
- Winkelnkemper, Manfred
- Korn, Arthur
|
출원인 / 주소 |
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
3 |
초록
▼
A method and device for operating a direct converter circuit are provided. A control signal controls power semiconductor switches of switching cells of the associated phase module. The control signal is formed, for each phase module, from the difference between a reference signal relating to the vol
A method and device for operating a direct converter circuit are provided. A control signal controls power semiconductor switches of switching cells of the associated phase module. The control signal is formed, for each phase module, from the difference between a reference signal relating to the voltage over the phase module and a voltage signal over the inductor. The voltage signal over the inductor is formed from a reference signal relating to the current through the corresponding phase module. The reference signal relating to the current through the phase module is formed from a respective mean value or instantaneous value of a phase power of a phase of the first and second current or voltage systems connected to the phase module and from respective sums of the instantaneous values or the mean values of the phase powers of the phases of the first and second current or voltage systems, respectively.
대표청구항
▼
1. A method for operating a direct converter circuit, wherein the direct converter circuit includes at least two phase modules and is configured to connect phases of a first current system or voltage system with phases of a second current system or voltage system, each phase module respectively incl
1. A method for operating a direct converter circuit, wherein the direct converter circuit includes at least two phase modules and is configured to connect phases of a first current system or voltage system with phases of a second current system or voltage system, each phase module respectively including a plurality of two-pole switching cells connected in series with one another, each phase module including an inductor respectively in series with the series circuit of the corresponding switching cells, and each switching cell including controllable two-way power semiconductor switches with a controlled one-way current-carrying direction and a capacitive energy store, the method comprising: controlling the power semiconductor switches of the switching cells of the associated phase module by means of a control signal;for each phase module, forming the control signal from the difference between a reference signal in relation to a voltage over the phase module and a voltage signal over the inductor, respectively;forming the voltage signal over the inductor from a reference signal in relation to the current through the corresponding phase module, respectively; andforming the reference signal in relation to the current through the corresponding phase module from a mean value or instantaneous value of a phase power of a phase of the first current system or voltage system connected to the phase module, from a mean value or instantaneous value of a phase power of a phase of the second current system or voltage system connected to the corresponding phase module, from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the first current system or voltage system, and from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the second current system or voltage system, respectively. 2. The method as claimed in claim 1, wherein, for each phase module, the reference signal in relation to the current through the phase module is additionally formed from a phase current of the phase of the first current system or voltage system connected to the phase module and from a phase current of the phase of the second current system or voltage system connected to the phase module, respectively. 3. The method as claimed in claim 2, wherein, for each phase module, the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module is formed from a reference signal in relation to the phase current of the phase of the first current system or voltage system connected to the phase module and from a reference signal in relation to a phase voltage of the phase of the first current system or voltage system connected to the phase module, respectively, and the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the phase module is formed from a reference signal in relation to the phase current of the phase of the second current system or voltage system connected to the phase module, and from a reference signal in relation to a phase voltage of the phase of the second current system or voltage system connected to the phase module, respectively. 4. The method as claimed in claim 2, wherein, for each phase module, the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module is formed from a phase current of the phase of the first current system or voltage system connected to the corresponding phase module and from a phase voltage of the phase of the first current system or voltage system connected to the phase module, respectively, and the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the corresponding phase module is formed from a phase current of the phase of the second current system or voltage system connected to the corresponding phase module and from a phase voltage of the phase of the second current system or voltage system connected to the phase module. 5. A device for operating a direct converter circuit, wherein the direct converter circuit includes at least two phase modules and is configured to connect phases of a first current system or voltage system with phases of a second current system or voltage system, each phase module respectively including a plurality of two-pole switching cells connected in series with one another, each phase module respectively including an inductor in series with the series circuit of the switching cells, and each switching cell including controllable two-way power semiconductor switches with a controlled one-way current-carrying direction and a capacitive energy store, the device comprising: a control circuit for each phase module configured to generate a control signal, the control circuit being connected to the power semiconductor switches of the switching cells of the corresponding phase module, respectively, wherein, in relation to each phase module, the difference between a reference signal in relation to the voltage over the corresponding phase module and a voltage signal over the inductor is fed to the control circuit to form the control signal, respectively;a common first calculation unit configured to, for each phase module, form the voltage signal over the inductor from a reference signal in relation to the current through the corresponding phase module, respectively; anda common second calculation unit configured to, for each phase module, form the reference signal in relation to the current through the corresponding phase module from a mean value or instantaneous value of a phase power of a phase of the first current system or voltage system connected to the corresponding phase module, from a mean value or instantaneous value of a phase power of a phase of the second current system or voltage system connected to the corresponding phase module, from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the first current system or voltage system, and from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the second current system or voltage system, respectively. 6. The device as claimed in claim 5, wherein the common second calculation unit is configured to form the reference signal in relation to the current through the corresponding phase module, from a phase current of the phase of the first current system or voltage system connected to the corresponding phase module, and from a phase current of the phase of the second current system or voltage system connected to the corresponding phase module, respectively. 7. The device as claimed in claim 6, wherein, for all phase modules, the device comprises a common third calculation unit configured to form the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module from a reference signal in relation to the phase current of the phase of the first current system or voltage system connected to the corresponding phase module and from a reference signal in relation to a phase voltage of the phase of the first current system or voltage system connected to the corresponding phase module, respectively, andform the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the corresponding phase module from a reference signal in relation to the phase current of the phase of the second current system or voltage system connected to the corresponding phase module and from a reference signal in relation to a phase voltage of the phase of the second current system or voltage system connected to the corresponding phase module, respectively. 8. The device as claimed in claim 6, wherein, for all phase modules, the device comprises a common third calculation unit configured to form the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module from a phase current of the phase of the first current system or voltage system and from a phase voltage of the phase of the first current system or voltage system connected to the corresponding phase module, respectively, andform the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the corresponding phase module from a phase current of the phase of the second current system or voltage system connected to the corresponding phase module and from a phase voltage of the phase of the second current system or voltage system connected to the corresponding phase module, respectively. 9. A device for operating a direct converter circuit, wherein the direct converter circuit includes at least two phase modules and is configured to connect phases of a first current system or voltage system with phases of a second current system or voltage system, each phase module respectively including a plurality of two-pole switching cells connected in series with one another, each phase module respectively including an inductor in series with the series circuit of the switching cells, and each switching cell including controllable two-way power semiconductor switches with a controlled one-way current-carrying direction and a capacitive energy store, the device comprising: control means for generating a control signal for each phase module, the control means being connected to the power semiconductor switches of the switching cells of the corresponding phase module, respectively, wherein, in relation to each phase module, the difference between a reference signal in relation to the voltage over the corresponding phase module and a voltage signal over the inductor is fed to the control means to form the control signal, respectively;first calculation means for commonly forming, for each phase module, the voltage signal over the inductor from a reference signal in relation to the current through the corresponding phase module, respectively; andsecond calculation means for commonly forming, for each phase module, the reference signal in relation to the current through the corresponding phase module from a mean value or instantaneous value of a phase power of a phase of the first current system or voltage system connected to the corresponding phase module, from a mean value or instantaneous value of a phase power of a phase of the second current system or voltage system connected to the corresponding phase module, from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the first current system or voltage system, and from the sum of the instantaneous values or of the mean values of the phase powers of the phases of the second current system or voltage system, respectively. 10. The device as claimed in claim 9, wherein the second calculation means forms the reference signal in relation to the current through the corresponding phase module, from a phase current of the phase of the first current system or voltage system connected to the corresponding phase module, and from a phase current of the phase of the second current system or voltage system connected to the corresponding phase module, respectively. 11. The device as claimed in claim 10, wherein, for each phase module, the device comprises a third calculation means for, commonly for each phase module, forming the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module from a reference signal in relation to the phase current of the phase of the first current system or voltage system connected to the corresponding phase module and from a reference signal in relation to a phase voltage of the phase of the first current system or voltage system connected to the corresponding phase module, respectively, andforming the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the corresponding phase module from a reference signal in relation to the phase current of the phase of the second current system or voltage system connected to the corresponding phase module and from a reference signal in relation to a phase voltage of the phase of the second current system or voltage system connected to the corresponding phase module, respectively. 12. The device as claimed in claim 10, wherein, for each phase module, the device comprises a third calculation means for, commonly for each for each phase module, forming the instantaneous value of the phase power of the phase of the first current system or voltage system connected to the corresponding phase module from a phase current of the phase of the first current system or voltage system and from a phase voltage of the phase of the first current system or voltage system connected to the corresponding phase module, respectively, andforming the instantaneous value of the phase power of the phase of the second current system or voltage system connected to the corresponding phase module from a phase current of the phase of the second current system or voltage system connected to the corresponding phase module and from a phase voltage of the phase of the second current system or voltage system connected to the corresponding phase module, respectively.
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