A method for connecting an external power wire and a thermostat of a motor. The method includes: electrically connecting a first pin of the thermostat to the external power wire; electrically connecting a second pin of the thermostat to the enameled wire of the stator windings of the motor; intertwining and soldering the first exposed core end of the first pin and the second exposed core end of the external power wire to form a soldered common joint; pulling the first pin of the thermostat and the external power wire towards opposite directions, and bending a relatively longer core end of the first exposed core end and the second exposed core end to form a bent part; and arranging side by side the bent part and the soldered common join, and sheathing the bent part and the soldered common joint with an insulating sleeve.

A method for connecting an external power wire and a thermostat of a motor. The method includes: electrically connecting a first pin of the thermostat to the external power wire; electrically connecting a second pin of the thermostat to the enameled wire of the stator windings of the motor; intertwining and soldering the first exposed core end of the first pin and the second exposed core end of the external power wire to form a soldered common joint; pulling the first pin of the thermostat and the external power wire towards opposite directions, and bending a relatively longer core end of the first exposed core end and the second exposed core end to form a bent part; and arranging side by side the bent part and the soldered common join, and sheathing the bent part and the soldered common joint with an insulating sleeve.

A battery bridge for an electronic device, preferably for an electronic implant, has an electrically conductive first contact element, an electrically conductive second contact element and an insulator. The first contact element and the second contact element comprise a weldable material. In a first state of the battery bridge, the first contact element is distanced from the second contact element via a predefined air gap and the first contact element is electrically insulated from the second contact element by the air gap and the insulator. The battery bridge is formed in such a way that it can be transferred, by welding the first contact element and the second contact element together, into a second state, in which the air gap between the first contact element and the second contact element is closed electrically conductively, at least in part. A method for activating such an electronic device is also disclosed.

A battery bridge for an electronic device, preferably for an electronic implant, has an electrically conductive first contact element, an electrically conductive second contact element and an insulator. The first contact element and the second contact element comprise a weldable material. In a first state of the battery bridge, the first contact element is distanced from the second contact element via a predefined air gap and the first contact element is electrically insulated from the second contact element by the air gap and the insulator. The battery bridge is formed in such a way that it can be transferred, by welding the first contact element and the second contact element together, into a second state, in which the air gap between the first contact element and the second contact element is closed electrically conductively, at least in part. A method for activating such an electronic device is also disclosed.

An interconnection device for providing an electrical connection between a motor and an inverter is disclosed. The interconnection device comprises a base member having a first receiving aperture arranged relative to a second receiving aperture, and a mounting interface that provides for direct coupling of the base member to the motor. A substrate is coupled to the base member and comprises a first connector assembly, a second connector assembly, and integrated electronic circuitry arranged thereon. The first connector assembly is coaxially aligned with the first receiving aperture of the base member and arranged to receive a plurality of motor pin connections. The second connector assembly comprises a plurality of connection elements arranged to transmit and receive power and signal connections for powering and controlling the motor.

An interconnection device for providing an electrical connection between a motor and an inverter is disclosed. The interconnection device comprises a base member having a first receiving aperture arranged relative to a second receiving aperture, and a mounting interface that provides for direct coupling of the base member to the motor. A substrate is coupled to the base member and comprises a first connector assembly, a second connector assembly, and integrated electronic circuitry arranged thereon. The first connector assembly is coaxially aligned with the first receiving aperture of the base member and arranged to receive a plurality of motor pin connections. The second connector assembly comprises a plurality of connection elements arranged to transmit and receive power and signal connections for powering and controlling the motor.

The present relates to a washable interconnection patch, a connection assembly, and an intelligent washable garment equipped therewith. The patch receives and interconnects wires to a cable. The patch comprises two matching pieces interlocking together so as to define there between two opposite apertures. One of the apertures is adapted to receive and hold the wires, and the other aperture is adapted to receive and hold the cable. One of the two matching pieces defines on an interior face a channel to interconnect the wires to the cables. The connection assembly comprises a male connector and a female connector. The male connector defines a series of independent connection points along a length thereof. The female connector is adapted to receive the male connector, and defines along a length of an inner surface thereof a series of contact points. When the male connector is inserted within the female connector, the connection points and the contact points are aligned and in contact together.

The present relates to a washable interconnection patch, a connection assembly, and an intelligent washable garment equipped therewith. The patch receives and interconnects wires to a cable. The patch comprises two matching pieces interlocking together so as to define there between two opposite apertures. One of the apertures is adapted to receive and hold the wires, and the other aperture is adapted to receive and hold the cable. One of the two matching pieces defines on an interior face a channel to interconnect the wires to the cables. The connection assembly comprises a male connector and a female connector. The male connector defines a series of independent connection points along a length thereof. The female connector is adapted to receive the male connector, and defines along a length of an inner surface thereof a series of contact points. When the male connector is inserted within the female connector, the connection points and the contact points are aligned and in contact together.

A power distributor including a first conductive coupling device electrically coupled to a bare-wire non-terminating section of a first conduit. A second conductive coupling device is electrically coupled to a terminating end of a second conduit. The first conduit is a larger gauge than the second conduit. A fuse electrically connects the first conductive coupling device and the second conductive coupling device. A housing encases the first and second conductive coupling devices and the fuse.

A power distributor including a first conductive coupling device electrically coupled to a bare-wire non-terminating section of a first conduit. A second conductive coupling device is electrically coupled to a terminating end of a second conduit. The first conduit is a larger gauge than the second conduit. A fuse electrically connects the first conductive coupling device and the second conductive coupling device. A housing encases the first and second conductive coupling devices and the fuse.