A light-emitting element may include at least one coding element. The coding element may have at least two switching states and an operating mode of the light-emitting element may be set on the basis of a switching state of the coding element.

Embodiments are generally directed to a snap button fastener providing electrical connection. An embodiment of a fastener includes a first mechanical part, the first mechanical part including at least a stud portion, the first mechanical part including a first electrical connector; a second mechanical part, the second mechanical part including at least a socket portion with a spring element and the socket portion, the second mechanical part including a second electrical connector. The stud portion of the first mechanical part and the socket portion of second mechanical part, if separated, are to interlock upon the application of a first force towards each other, and, if interlocked, to separate upon the application of a second force away from each other. The first electrical connector and the second electrical connector are to be electrically connected when the first mechanical part and the mechanical part are interlocked, and first electrical connector and the second electrical connector are to be disconnected when the first mechanical part and second mechanical part are separated.

Embodiments are generally directed to a snap button fastener providing electrical connection. An embodiment of a fastener includes a first mechanical part, the first mechanical part including at least a stud portion, the first mechanical part including a first electrical connector; a second mechanical part, the second mechanical part including at least a socket portion with a spring element and the socket portion, the second mechanical part including a second electrical connector. The stud portion of the first mechanical part and the socket portion of second mechanical part, if separated, are to interlock upon the application of a first force towards each other, and, if interlocked, to separate upon the application of a second force away from each other. The first electrical connector and the second electrical connector are to be electrically connected when the first mechanical part and the mechanical part are interlocked, and first electrical connector and the second electrical connector are to be disconnected when the first mechanical part and second mechanical part are separated.

Apparatuses, methods, and computer program products are described herein. An example embodiment may include a cradle including a cradle body configured to support a printing device, the cradle body defining an extended battery cavity, first and second printer capture flanges extending from the cradle body and disposed proximate a first side of the extended battery cavity, first and second biased latches extending from the cradle body and disposed proximate a second side of the extended battery cavity, each of the first and second biased latches defining a printer drive surface and a lock surface, and a communication port extending from the cradle body proximate the second side of the extended battery cavity between the first and second biased latches.

Apparatuses, methods, and computer program products are described herein. An example embodiment may include a cradle including a cradle body configured to support a printing device, the cradle body defining an extended battery cavity, first and second printer capture flanges extending from the cradle body and disposed proximate a first side of the extended battery cavity, first and second biased latches extending from the cradle body and disposed proximate a second side of the extended battery cavity, each of the first and second biased latches defining a printer drive surface and a lock surface, and a communication port extending from the cradle body proximate the second side of the extended battery cavity between the first and second biased latches.

The track lighting assembly includes a rail that may be positioned proximate the ceiling light fixture. A socket is coupled to the rail. The socket is selectively operationally coupled to the ceiling light fixture. The rail is retained on the ceiling light fixture. A rail contact is coupled to the rail. The rail contact is operationally coupled to the socket. A light support is operationally coupled to the rail. The light support is selectively movable along the rail. The light support is operationally coupled to the contact. The light support is in communication with the socket. A fixture is operationally coupled to the light support. The fixture is in communication with the contact. A light emitter is operationally coupled to the fixture. The light emitter selectively emits light.

An electrical connector assembly includes an electrical receptacle connector and an electrical plug connector. The electrical receptacle connector includes a first insulation housing, upper-row plate terminals, and lower-row plate terminals. The first insulation housing includes a first base portion and a tongue portion extending from one side of the base portion. The upper-row plate terminals and the lower-row plate terminals are at an upper surface and a lower surface of the tongue portion, respectively. The electrical plug connector includes a second insulation housing, upper-row elastic terminals, and lower-row elastic terminals. The second insulation housing includes a second base portion, an upper member, a lower member, and a mating room between the upper member and the lower member for receiving the tongue portion. The upper-row elastic terminals and the lower-row elastic terminals are respectively above and below the mating room.

A surgical instrument support arm of a teleoperated patient side cart may include a first arm portion including a first connector end and a second a second arm portion including a second connector end. The second arm portion may be removably connectable to the first arm portion via mating engagement of the first and second connector ends. The first and second connector ends may each include complementary mechanical connections and complementary electrical connections. At least one of the electrical connections of the first and second connector ends may include electrical shielding to protect against electrical interference in a position in which the electrical connections are matingly engaged. The electrical shielding may be configured to axially compress when the electrical connections of the first and second connector ends are matingly engaged.

A surgical instrument support arm of a teleoperated patient side cart may include a first arm portion including a first connector end and a second a second arm portion including a second connector end. The second arm portion may be removably connectable to the first arm portion via mating engagement of the first and second connector ends. The first and second connector ends may each include complementary mechanical connections and complementary electrical connections. At least one of the electrical connections of the first and second connector ends may include electrical shielding to protect against electrical interference in a position in which the electrical connections are matingly engaged. The electrical shielding may be configured to axially compress when the electrical connections of the first and second connector ends are matingly engaged.

The present invention relates to a buckle system including a male subassembly and female subassembly that are designed to mate with one another. The male subassembly also includes a printed circuit board (PCB) that may mate with an electrical connector within the female subassembly, thus completing a circuit for providing power to an electronic device when the subassemblies are mated. The male subassembly is connected to a cable portion that, when pulled with sufficient force, causes the male subassembly and its PCB to disengage the female subassembly and its electrical connector. The PCB and electrical connector may also be connected within standard side-release male and female subassemblies, respectively, for use in standard side-release buckles.