Power converter with direct voltage and alternating voltage buses
First Claim
1. A converter appliance having a plurality of power semiconductors and a DC and AC voltage busbar arrangement for making electrical contact with DC and AC voltage connections of the power semiconductors, whereinthe busbar arrangement is of two part design, so that the AC voltage busbar arrangement and the DC voltage busbar arrangement have no physical connection with one another;
- the positive and the negative DC voltage busbar arrangement is designed as a three layer sandwich system with an insulation layer placed in between; and
the AC voltage busbar arrangement and/or the DC voltage busbar arrangement is provided with end insulation layers at perforations necessitated by AC voltage connections or DC voltage connections.
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Accused Products
Abstract
The invention relates to a power converter comprising several semiconductors (1) and direct voltage and alternating voltage buses (8/9, 4) for electric contact between the direct and alternating voltage connections (3, 2) of the power semiconductors (1). The buses are divided into two parts so that the alternating voltage bus (4) and the direct voltage bus (8/9) do not come into physical contact with each other. One advantage of the invention is that no creepage paths between the direct voltage and alternating voltage buses need to be taken into consideration.
12 Citations
9 Claims
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1. A converter appliance having a plurality of power semiconductors and a DC and AC voltage busbar arrangement for making electrical contact with DC and AC voltage connections of the power semiconductors, wherein
the busbar arrangement is of two part design, so that the AC voltage busbar arrangement and the DC voltage busbar arrangement have no physical connection with one another; -
the positive and the negative DC voltage busbar arrangement is designed as a three layer sandwich system with an insulation layer placed in between; and
the AC voltage busbar arrangement and/or the DC voltage busbar arrangement is provided with end insulation layers at perforations necessitated by AC voltage connections or DC voltage connections.
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2. A converter appliance having a plurality of power semiconductors and a DC and AC voltage busbar arrangement for making electrical contact with DC and AC voltage connections of the power semiconductors, wherein
the busbar arrangement is of two part design, so that the AC voltage busbar arrangement and the DC voltage busbar arrangement have no physical connection with one another; -
the positive and the negative DC voltage busbar arrangement is designed as a three layer sandwich system with an insulation layer placed in between; and
the busbar arrangement is provided with pressed-in bushes of desired length for the purpose of making electrical contact with connections of the power semiconductors. - View Dependent Claims (3)
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4. A converter appliance comprising:
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at least one power semiconductor comprising a DC voltage connection and an AC voltage connection, each of the voltage connections comprising a busbar mounting arrangement;
a DC voltage busbar arrangement electrically connected to the DC voltage connection, the DC voltage busbar arrangement comprising a positive DC voltage busbar and a negative DC voltage busbar, and at least one of the DC voltage busbars being positioned by the DC busbar mounting arrangement; and
an AC voltage busbar electrically connected to the AC voltage connection, the AC voltage busbar being positioned by the AC busbar mounting arrangement, wherein the at least one DC voltage busbar and the AC voltage busbar are positioned by the respective busbar mounting arrangements to produce an airgap of a predetermined size between the AC voltage busbar and the nearest DC voltage busbar, and wherein at least one of the busbar mounting arrangements comprises a sleeve of predetermined length for locating one of the busbars in a position to provide the airgap of predetermined size between the AC voltage busbar and from the nearest DC voltage busbar. - View Dependent Claims (5, 6, 7, 8, 9)
the DC busbar mounting arrangement comprises a first sleeve of predetermined length for locating at least one of the DC voltage busbars, the AC busbar mounting arrangement comprises a second sleeve of predetermined length for locating the AC voltage busbar, and the airgap between the AC voltage busbar and from the nearest DC voltage busbar is determined by the difference in length between the first and second sleeves. -
8. The converter appliance as claimed in claim 7, wherein the DC voltage busbar arrangement comprises a three layer sandwich structure having an insulation layer disposed between the positive DC voltage busbar and the negative DC voltage busbar.
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9. The converter appliance as claimed in claim 8, wherein the AC voltage busbar and/or the DC voltage busbar arrangement is provided with at least one end insulation layer disposed adjacent to the AC voltage connections or DC voltage connections.
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Specification