The invention puts forward a bidirectional DC-DC converter for high voltages that is as simple as possible and that entails as few losses as possible. The bidirectional DC-DC converter (1) converter comprises an input stage (2) to convert a DC input voltage into first AC voltage, a transformer (3) t
The invention puts forward a bidirectional DC-DC converter for high voltages that is as simple as possible and that entails as few losses as possible. The bidirectional DC-DC converter (1) converter comprises an input stage (2) to convert a DC input voltage into first AC voltage, a transformer (3) to transform the first AC voltage into a second AC voltage, and an output stage (4) to convert the second AC voltage into a DC output voltage, whereby, in order to provide the first and/or second AC voltage, at least one of the input stages (2) and/or output stages (4) comprises a branch of a multi-level converter (5) with a first number of active first semiconductor switches (61).
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1. A bidirectional DC-DC converter having an input stage to convert a DC input voltage into first AC voltage, having a transformer to transform the first AC voltage into a second AC voltage, and having an output stage to convert the second AC voltage into a DC output voltage, whereby, in order to pr
1. A bidirectional DC-DC converter having an input stage to convert a DC input voltage into first AC voltage, having a transformer to transform the first AC voltage into a second AC voltage, and having an output stage to convert the second AC voltage into a DC output voltage, whereby, in order to provide the first and/or second AC voltage, at least one of the input stages and/or output stages comprises a branch of a multi-level converter with a first number of active first semiconductor switches, wherein the multi-level converter comprises an additional voltage level to provide another degree of freedom for modulation of the bidirectional DC-DC converter to minimize total losses of the converter for a given load range, and wherein the transformer provides a leakage inductance to control a power flow via the AC voltages to achieve a targeted voltage drop in response to the leakage inductance. 2. The bidirectional DC-DC converter according to claim 1, wherein the multi-level converter is a 3-level converter or a 5-level converter. 3. The bidirectional DC-DC converter according to claim 1, wherein the multi-level converter is a 3-level NPC converter with two clamping diodes. 4. The bidirectional DC-DC converter according to claim 1, wherein the multi-level converter is a 3-level NPC converter with two IGBTs or capacitors. 5. The bidirectional DC-DC converter according to claim 3, wherein, in the case of a large transformation ratio, the 3-level NPC converter is arranged on the side of the input or output stage where the higher voltage is present. 6. The bidirectional DC-DC converter according to claim 1, wherein, for rectifying the second AC voltage, the output stage has an H bridge or a half-bridge with a second number of active second semiconductor switches. 7. The bidirectional DC-DC converter according to claim 6, wherein the H bridge is a 2-level H bridge. 8. The bidirectional DC-DC converter according to claim 6, wherein the number of first and second semiconductor switches is the same. 9. The bidirectional DC-DC converter according to claim 6, wherein the number of second semiconductor switches is four, the second semiconductor switches can be switched independently of each other, and the first and second of the second semiconductor switches are connected to a positive DC-link busbar. 10. The bidirectional DC-DC converter according to claim 6, wherein the number of second semiconductor switches is four, the second semiconductor switches can be switched independently of each other, and the third and fourth of the second semiconductor switches are connected to a negative DC-link busbar. 11. The bidirectional DC-DC converter according to claim 1, wherein, for rectifying the second AC voltage, the output stage comprises a branch of a second multi-level converter. 12. The bidirectional DC-DC converter according to claim 11, wherein the second multi-level converter is a 3-level converter or a 5-level converter. 13. The bidirectional DC-DC converter according to claim 12, wherein the second multi-level converter is a 3-level NPC converter with two clamping diodes. 14. The bidirectional DC-DC converter according to claim 1, wherein the DC-input voltage is variable and the voltage amplitude of the input voltage is adapted to the amplitude of the output voltage. 15. The bidirectional DC-DC converter according to claim 1, wherein the topology of the bidirectional DC-DC converter is expanded to three or more phases. 16. A method to operate a bidirectional DC-DC converter having an input stage to convert a DC input voltage into first AC voltage, having a transformer to transform the first AC voltage into a second AC voltage, and having an output stage to convert the second AC voltage into a DC output voltage, whereby, in order to provide the first and/or second AC voltage, at least one of the input stages and/or output stages comprises a branch of a multi-level converter with a first number of active first semiconductor switches, and the transformer provides a leakage inductance, the method comprising the steps of: Providing an additional voltage level by the multi-level converter to provide additional degree of freedom for modulation of the bidirectional DC-DC converter;Minimizing total losses of the converter by the additional degree of freedom for a given load range; andControlling power flow by the AC voltages at the transformer via a targeted voltage drop based on a leakage inductance of the transformer.
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이 특허에 인용된 특허 (5)
Perisic, Milun; Ransom, Ray M.; Kajouke, Lateef A., Compensation for electrical converter nonlinearities.
Yamato Ikuo (Hitachi JPX) Tokunaga Norikazu (Hitachi JPX), Power conversion system, method for controlling the same, and uninterruptible power supply using the same.
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