Power converter with improved control of its main switches, and application to a power converter having three or more voltage levels
First Claim
1. A power converter comprising at least one arm including, between a positive rail and a negative rail:
- two main switches enabling an outlet leading to a load to be connected either to the positive rail or the negative rail;
two free-wheel diodes enabling the current through the load to be maintained by coupling the outlet respectively to the positive rail or to the negative rail;
two snubber capacitors between the outlet and, respectively, the positive rail, and the negative rail; and
an auxiliary circuit comprising, in particular, an auxiliary inductor in series with two oppositely-directed one-way auxiliary switches coupled between the outlet and a midpoint of a capacitive voltage divider itself comprising two voltage-dividing capacitors connected in series between the positive rail and the negative rail, and delivering at said midpoint, a voltage that is nominally a midpoint voltage compared with the voltages of the positive rail and of the negative rail;
the converter further comprising a detector for detecting current oscillation between said auxiliary inductor and said snubber capacitors in a switchover process intended for causing a corresponding main switch to be switched on, said detector detecting an interruption of said oscillation current after said auxiliary circuit is switched on, and causing said corresponding main switch to be rendered conductive in response to said interruption.
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Accused Products
Abstract
A power converter having two main switches connecting an outlet either to a positive rail or to a negative rail, two free-wheel diodes enabling the current through the load to be maintained, two snubber capacitors, and an auxiliary circuit. The auxiliary circuit includes an auxiliary inductor in series with two auxiliary switches coupled between the outlet and a midpoint of a capacitive voltage divider that provides a midpoint voltage. A detector detects current oscillation between the auxiliary inductor and the snubber capacitors, and then switches off the oscillation current and allows the intended main switch to conduct in response to the interruption.
60 Citations
4 Claims
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1. A power converter comprising at least one arm including, between a positive rail and a negative rail:
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two main switches enabling an outlet leading to a load to be connected either to the positive rail or the negative rail; two free-wheel diodes enabling the current through the load to be maintained by coupling the outlet respectively to the positive rail or to the negative rail; two snubber capacitors between the outlet and, respectively, the positive rail, and the negative rail; and an auxiliary circuit comprising, in particular, an auxiliary inductor in series with two oppositely-directed one-way auxiliary switches coupled between the outlet and a midpoint of a capacitive voltage divider itself comprising two voltage-dividing capacitors connected in series between the positive rail and the negative rail, and delivering at said midpoint, a voltage that is nominally a midpoint voltage compared with the voltages of the positive rail and of the negative rail; the converter further comprising a detector for detecting current oscillation between said auxiliary inductor and said snubber capacitors in a switchover process intended for causing a corresponding main switch to be switched on, said detector detecting an interruption of said oscillation current after said auxiliary circuit is switched on, and causing said corresponding main switch to be rendered conductive in response to said interruption. - View Dependent Claims (2, 3)
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4. A power converter having three or more voltage levels, comprising:
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a plurality of control circuits, each having a main switch and a free-wheel diode, enabling an outlet leading to a load to be connected one of said voltage levels and enabling the current through the load to be maintained; a plurality of snubber capacitors between the outlet and voltage terminals; and auxiliary circuits comprising pairs of oppositely-directed one-way auxiliary switches coupled in series with at least one auxiliary inductor between the outlet and respective intermediate points of a capacitive voltage divider comprising voltage-dividing capacitors connected in series between voltage levels, and delivering at said intermediate points, a voltage that is nominally a midpoint voltage compared with the voltages of said voltage levels; the converter further comprising detectors for detecting current oscillation between said at least one auxiliary inductor and said snubber capacitors in a switchover process intended to cause a corresponding main switch to be switched on, said detector detecting an interruption of said oscillation current after one of said auxiliary circuits is switched on, and causing said corresponding main switch to be rendered conductive in response to said interruption.
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Specification