Electric power conversion systems – Current conversion – With voltage division by storage type impedance
Patent
1996-07-23
1997-09-16
Wong, Peter S.
Electric power conversion systems
Current conversion
With voltage division by storage type impedance
307110, H02M 306, H02M 318
Patent
active
056687117
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The present invention relates to electronic circuits for converting electrical energy of the type described in French application FR 2 679 715 A1, and to a power supply installation making use thereof.
The converter described in that patent application is shown, by way of example, in accompanying FIG. 1. It essentially comprises, between a voltage source SE and a current source C, a succession of controllable switching cells CL1, CL2, . . . , CLn, each having two switches T1, T'1; T2, T'2; . . . ; Tn, T'n, with one pole of each of the two switches forming part of a pair of upstream poles and the other pole of each of the switches forming part of a pair of downstream poles, the pair of downstream poles of an upstream cell being connected to the pair of upstream poles of a downstream cell, and the pair of upstream poles of a first cell CL1 being connected to said current source C, while the pair of downstream poles of a last cell CLn is connected to said voltage source SE, the converter also comprising a respective capacitor C1, C2, . . . , Cn for each cell, except that the capacitor of the last cell may be omitted when said voltage source SE is suitable for performing the same role, each capacitor is connected between the two poles constituting the pair of downstream poles of its cell, the converter further having control means (not shown) governing the nominal operation of the converter and acting on the switches of the successive cells in such a manner that the two switches of any one cell are always in respective opposite conduction states (represented by control links such as lc1), such that in response to a cell control signal delivered by said control means, one of the two switches in a given cell is successively in a first conduction state and then in a second conduction state during a cyclically repeated converter period, and such that in response to cell control signals that are identical but offset in time by a fraction of said converter period, the switches of successive cells function respectively in the same manner but offset in time by said fraction of a period.
Preferably, said fraction of a period is equal to the reciprocal of the number n of cells, i.e. 2.pi.n, which is optimal with respect to harmonics generated on the output and which enables the voltages charged on the capacitors of the converter to be balanced naturally. Some other offset is nevertheless conceivable.
In such a converter, the successive capacitors C1, C2, . . . , Cn have respective increasing mean charge voltages, the mean charge voltage of the capacitor associated with each of said cells being equal to the product of a voltage VE delivered by said voltage source SE multiplied by the reciprocal of the number of cells in the converter and by the rank of the cell, i.e. VEB 3, 2VE/3, VE when n=3, i.e. when the converter has only three cells.
The term "multilevel converter" is used below to designate a converter that satisfies the above description.
The advantage of such a converter is that in normal operation each of said switches is subjected only to a fraction of the maximum voltage to which the converter is subjected, i.e. to the fraction which corresponds to the difference between the charge voltages of the two capacitors of two adjacent cells. It is thus possible for said interrupters to be embodied by components that are cheaper and/or faster; if they are faster, then it is possible to make a converter whose operating frequency is higher, and that is most advantageous in practice.
OBJECTS AND SUMMARY OF THE INVENTION
The object of the present invention is to ensure that said capacitors acquire their respective said nominal charge voltages quickly, as soon as said voltage source powers the converter.
The way in which the converter operates is such that if the nominal charge voltage of a capacitor is higher than it ought to be, then it delivers extra current to the current source, thereby tending to bring its charge voltage back to the nominal value. Nevertheless, the process is relativel
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patent: 5029282 (1991-07-01), Ito
patent: 5095223 (1992-03-01), Thomas
patent: 5345376 (1994-09-01), Nourbakhsh
patent: 5491623 (1996-02-01), Jansen
patent: 5532916 (1996-07-01), Tamagawa
patent: 5568035 (1996-10-01), Kato et al.
Carrere Philippe
Lavieville Jean-Paul
Meynard Thierry
GEC Alsthom Transport SA
Vu Bao Q.
Wong Peter S.
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