Auxiliary resonant commutated pole three-point or multipoint converter
First Claim
1. A multipoint converter, comprising:
- at least four main switches per converter phase disposed in series defining a first series circuit, said main switches to be connected electrically in parallel between DC voltage rails formed of a positive DC voltage rail and a negative DC voltage rail;
snubber capacitances, one of said snubber capacitances disposed in parallel with each of said main switches and said snubber capacitances defining junction points between adjacent pairs of said snubber capacitances;
at least two converter levels having voltage neutral points disposed between the DC voltage rails, a junction point formed between each adjacent pair of said converter levels and said voltage neutral points of said converter levels being accessible;
a second series circuit formed of at least one resonant inductance and independently controllable bidirectional auxiliary switches;
an output of said converter phase connected to said voltage neutral points of said converter levels via said second series circuit, said output further connected to one of said junction points formed by said snubber capacitances; and
charge control switches connected between said junction points of said snubber capacitances which are not connected to said output and said junction point formed between each adjacent pair of said converter levels.
1 Assignment
0 Petitions
Accused Products
Abstract
A three-point or multipoint converter is described. The converter has a series circuit formed of at least four main switches per converter phase, which are connected electrically in parallel between a positive and a negative DC voltage rail. An individual snubber capacitance is disposed in parallel with each individual main switch. At least two converter levels are formed between the DC voltage rails, a junction point or junction points and voltage neutral points of the converter levels are accessible. An output of the converter phase is connected to the voltage neutral points of the converter levels, via a series circuit formed of at least one resonant inductance and independently controllable bidirectional auxiliary switches. Junction points of the snubber capacitances that do not at the same time form the output of the converter phase are connected via charge control switches to the junction point or the junction points of the converter levels.
20 Citations
6 Claims
-
1. A multipoint converter, comprising:
-
at least four main switches per converter phase disposed in series defining a first series circuit, said main switches to be connected electrically in parallel between DC voltage rails formed of a positive DC voltage rail and a negative DC voltage rail;
snubber capacitances, one of said snubber capacitances disposed in parallel with each of said main switches and said snubber capacitances defining junction points between adjacent pairs of said snubber capacitances;
at least two converter levels having voltage neutral points disposed between the DC voltage rails, a junction point formed between each adjacent pair of said converter levels and said voltage neutral points of said converter levels being accessible;
a second series circuit formed of at least one resonant inductance and independently controllable bidirectional auxiliary switches;
an output of said converter phase connected to said voltage neutral points of said converter levels via said second series circuit, said output further connected to one of said junction points formed by said snubber capacitances; and
charge control switches connected between said junction points of said snubber capacitances which are not connected to said output and said junction point formed between each adjacent pair of said converter levels. - View Dependent Claims (2, 3, 4)
-
-
5. A multipoint converter, comprising:
-
at least four main switches per converter phase disposed in series defining a series circuit, said main switches to be connected electrically in parallel between DC voltage rails formed of a positive DC voltage rail and a negative DC voltage rail;
snubber capacitances, one of said snubber capacitances disposed in parallel with each of said main switches and said snubber capacitances defining junction points between adjacent pairs of said snubber capacitances;
at least two converter levels having voltage neutral points disposed between the DC voltage rails, a junction point formed between adjacent pairs of said converter levels and said voltage neutral points of said converter levels being accessible;
an output of said converter phase connected to one of said junction points of said snubber capacitances;
further series circuits each formed of a resonant inductance and independently controllable bidirectional auxiliary switches, said junction points of said snubber capacitances which are not connected to said output are connected to said voltage neutral points of said converter levels via said further series circuits; and
charge control switches connected between said junction points of said snubber capacitances which are not connected to said output of said converter phase and said junction point formed between adjacent pairs of said converter levels. - View Dependent Claims (6)
-
Specification