A kitchen appliance, including at least one kitchen appliance base and at least one preparation module is provided. The kitchen appliance base includes at least one electrical interface and at least one receiving region. The preparation module includes at least one electrical counter-interface for electrical contacting with the electrical interface. The electrical interface includes at least two power contacts and at least one auxiliary contact. The electrical counter-interface includes at least two power counter-contacts and at least one auxiliary counter-contact. In the kitchen appliance, the insertion forces for the electrical contacting for the user are reduced, are realized by the power contacts and the power counter-contacts, as well as the auxiliary contact and the auxiliary counter-contact being designed and configured such that the power contacts are electrically contacted with the power counter-contacts at a different point in time than is the auxiliary contact with the auxiliary counter-contact.

A mounting assembly for an electrical fixture can include an upper unit and a lower unit that be releaseably retained together and including respective contacts that touch when the upper and lower units are retained together to create an electric pathway. The units can further include respective contacts for a neutral or ground connection. The assembly can also include a device in electrical contact with both of the contacts of the lower unit to draw power. The lower unit can also include a third contact and a power distribution circuit to deliver a level of electrical power to the third contact that is different than power available through the other contact of the lower unit. In a system of the mounting assemblies, each mounting assembly can include also include a transceiver to communicate with one another.

Embodiments of the present disclosure are directed towards techniques and configurations to provide solder contacts for electrical connection in socket assemblies. In one embodiment, a solder contact may be disposed on the bottom surface of a die package such that the solder contact is conductively coupled to electrical contacts of the die package. The solder contacts may be disposed to be coupled to pins of a socket assembly, to provide conductive coupling of the electrical contacts of the die package and the pins of the socket assembly. The solder may be selected to be sufficiently soft to provide for better electrical conduction. The pins may also be configured to penetrate the solder contact to provide for better electrical conduction. Other embodiments may be described and/or claimed.

A mounting assembly for an electrical fixture has an upper unit and a lower unit. The upper unit includes a first portion of a detent mechanism and an upper contact for connection to a power source. The lower unit is configured for connection to an electrical fixture and includes a second portion of a detent mechanism and a lower contact for connection to the electrical fixture. When the lower unit engages the upper unit, the first portion and the second portion of the detent mechanism cooperate to releasably retain the upper unit and lower unit together and the upper contact and lower contact touch to create an electric pathway between the power source and the electrical fixture.

Embodiments of the present disclosure are directed towards techniques and configurations to provide solder contacts for electrical connection in socket assemblies. In one embodiment, a solder contact may be disposed on the bottom surface of a die package such that the solder contact is conductively coupled to electrical contacts of the die package. The solder contacts may be disposed to be coupled to pins of a socket assembly, to provide conductive coupling of the electrical contacts of the die package and the pins of the socket assembly. The solder may be selected to be sufficiently soft to provide for better electrical conduction. The pins may also be configured to penetrate the solder contact to provide for better electrical conduction. Other embodiments may be described and/or claimed.

There are provided an adapter and a method for use with a luminaire. For example, there is provided an adapter for use with a lighting controller of a luminaire. The adapter includes a calibration and maintenance port connected to a metering circuit disposed in the lighting controller. Furthermore, the adapter includes an interface connected to: the lighting controller, at least one lead of a lighting controller receptacle of the luminaire, and to at least one port of a computing device.

Embodiments of the present disclosure are directed towards techniques and configurations to provide solder contacts for electrical connection in socket assemblies. In one embodiment, a solder contact may be disposed on the bottom surface of a die package such that the solder contact is conductively coupled to electrical contacts of the die package. The solder contacts may be disposed to be coupled to pins of a socket assembly, to provide conductive coupling of the electrical contacts of the die package and the pins of the socket assembly. The solder may be selected to be sufficiently soft to provide for better electrical conduction. The pins may also be configured to penetrate the solder contact to provide for better electrical conduction. Other embodiments may be described and/or claimed.

There are provided an adapter and a method for use with a luminaire. For example, there is provided an adapter for use with a lighting controller of a luminaire. The adapter includes a calibration and maintenance port connected to a metering circuit disposed in the lighting controller. Furthermore, the adapter includes an interface connected to: the lighting controller, at least one lead of a lighting controller receptacle of the luminaire, and to at least one port of a computing device.

The present invention discloses a weight-bearing socket and plug for a pendent lamp, and the pendent lamp can be installed and disassembled only by inserting or unscrewing the plug. The key point of the technical solution is: The linear transverse beam 8 is installed to the ceiling, and an earth wire can be connected to the screw 801; a wiring button is pressed for connecting a power line; the socket is installed to the transverse beam by using the bolt 9; the pendent lamp and the plug are assembled; the conducting wire is connected to the wiring terminal 10e; the plug positioning groove 12b1 is aligned with the positioning mark 101 of the socket and is inserted: the weight-bearing pin 3 is inserted into the pin clamping groove 12a1 and the lock tongue 6 is inserted into the lock tongue clamping groove; the binding post slider 5i is contracted inwards; the binding post 5a is pushed to move downwards and come into contact with the wiring vertical column 10d of the plug for realizing installation and electrical connection of the pendent lamp: the lock core 13b is pressed to push the lock tongue into the socket; the plug is rotated; the weight-bearing pin slides along the ramp 12a2; and when the positioning frustum 12b4 moves to the destination of the arc-shaped rotating positioning groove 115, the weight-bearing pin is contracted into the socket so the lamp can be disassembled.

A lamp with hybrid connector is provided, which includes a lamp tube and two lamp caps. The lamp caps are disposed at the two ends of the lamp tube respectively. Each of the lamp caps includes an end surface, two first connection structures and two second connection structure. The end surface has a central point. The first connection structures are disposed on the end surface and are arranged to be symmetrical, about the central point, to each other. The second connection structures are corresponding to the first connection structures. The second connection structures are disposed on the end surface and are arranged to be symmetrical, about the central point, to each other. Since each of the lamp caps has a symmetrical connection structure, any one of the two ends of the lamp tube can be connected to another lamp tube in series.