An electric vehicle includes at least one tractive element, a battery pack including a plurality of battery cells, an in-wheel hub motor coupled to the at least one tractive element and electrically coupled to the battery pack, and a busbar assembly configured to electrically couple the motor to the battery pack. The busbar assembly can include a busbar, a cable electrically coupled to the busbar, and an inverter electrically coupled to the cable and configured to convert power supplied from the battery pack to the motor. The busbar assembly further includes a bracket configured to mount the cable to a knuckle of the electric vehicle and position the cable at a fixed or variable angle.

An electric vehicle includes at least one tractive element, a battery pack including a plurality of battery cells, an in-wheel hub motor coupled to the at least one tractive element and electrically coupled to the battery pack, and a busbar assembly configured to electrically couple the motor to the battery pack. The busbar assembly can include a busbar, a cable electrically coupled to the busbar, and an inverter electrically coupled to the cable and configured to convert power supplied from the battery pack to the motor. The busbar assembly further includes a bracket configured to mount the cable to a knuckle of the electric vehicle and position the cable at a fixed or variable angle.

The invention relates to a method for producing a power module (1) and a power module (1), in particular for a medium or high voltage converter (2), comprising at least one power semiconductor module (3), at least one energy storage module (5), at least one cooling device (7), at least two busbars (10), wherein the cooling device (7) is configured to be electrically conductive and is connected to a protective housing (19) shielding at least the power semiconductor module (3) from the environment, which protective housing (19) has at least one insertion opening (20) for inserting and fastening a connecting element (15), and an electrically conductive connecting element (15) is arranged at a predefinable connection position (16) between at least the cooling device (7) and one of the busbars (10) for forming a defined charge-reversal path (17).

The invention relates to a method for producing a power module (1) and a power module (1), in particular for a medium or high voltage converter (2), comprising at least one power semiconductor module (3), at least one energy storage module (5), at least one cooling device (7), at least two busbars (10), wherein the cooling device (7) is configured to be electrically conductive and is connected to a protective housing (19) shielding at least the power semiconductor module (3) from the environment, which protective housing (19) has at least one insertion opening (20) for inserting and fastening a connecting element (15), and an electrically conductive connecting element (15) is arranged at a predefinable connection position (16) between at least the cooling device (7) and one of the busbars (10) for forming a defined charge-reversal path (17).

An apparatus with (a) a conformable contact member with a base and a contact layer; and (b) a magnet integral with or attached to the base, wherein, when the apparatus is placed on a target surface, the magnet and the target surface attract each other such that the contact layer is secured against the target surface.

The invention relates to a medium or high voltage converter (2), preferably a modular multilevel converter, as well as to a power module (1), which comprises at least one power semiconductor module (4), at least one energy storage module (5), at least one cooling device (6), and wherein the cooling device (6) is formed as a cooling plate (7) which can be run through by a coolant, in particular flown through by a cooling liquid, and which has a smaller cooling plate thickness (10) as compared to a cooling plate length (8) and a cooling plate height (9) and the cooling plate (7) has at least one support region (12) defined by the cooling plate length (8) and the cooling plate thickness (10) and/or a part of the cooling plate height (9) of the cooling plate (7), for load transfer of the power module (1) onto a rack (3) of the medium or high voltage converter (2).

The invention relates to a medium or high voltage converter (2), preferably a modular multilevel converter, as well as to a power module (1), which comprises at least one power semiconductor module (4), at least one energy storage module (5), at least one cooling device (6), and wherein the cooling device (6) is formed as a cooling plate (7) which can be run through by a coolant, in particular flown through by a cooling liquid, and which has a smaller cooling plate thickness (10) as compared to a cooling plate length (8) and a cooling plate height (9) and the cooling plate (7) has at least one support region (12) defined by the cooling plate length (8) and the cooling plate thickness (10) and/or a part of the cooling plate height (9) of the cooling plate (7), for load transfer of the power module (1) onto a rack (3) of the medium or high voltage converter (2).

A telescopic power supply track has a strip-shaped power supply base and a power taking module, the power taking module has a rod-shaped housing, a second external terminal, and two electrical contacts provided on the rod-shaped housing away from the second external terminal and are respectively set against the two conductive strips to position and electrically connect the power taking module; and two strip-shaped conductive members, arranged in the hollow structure of the rod-shaped housing, and the two ends of the strip-shaped conductive member are respectively electrically connected to the second external terminal and the two electrical contacts. The invention solves the problem of the long lead in the shelf in the prior art and the need to reserve the lead, reduces the time of the short line, increases beauty and improves safety.

A telescopic power supply track has a strip-shaped power supply base and a power taking module, the power taking module has a rod-shaped housing, a second external terminal, and two electrical contacts provided on the rod-shaped housing away from the second external terminal and are respectively set against the two conductive strips to position and electrically connect the power taking module; and two strip-shaped conductive members, arranged in the hollow structure of the rod-shaped housing, and the two ends of the strip-shaped conductive member are respectively electrically connected to the second external terminal and the two electrical contacts. The invention solves the problem of the long lead in the shelf in the prior art and the need to reserve the lead, reduces the time of the short line, increases beauty and improves safety.

A filter component includes a housing body. A first and at least one second busbar each have a first end section, and a second end section, between which in each case a center section is arranged. The end sections of the busbars each have connections for connecting electrical conductors to the filter component. The first and second end section and the center section of the first busbar are arranged in a first plane and the first and second end section and the center section of the at least one second busbar are arranged in a second plane, which is different from the first plane.