An improved LED lighting system is provided for overhead ceiling lighting, as well as for other uses. The LED lighting system comprises elongated linear lamps having an LED luminary as a source of illumination and configured to operate as a node of an automated networked lighting system. The linear
An improved LED lighting system is provided for overhead ceiling lighting, as well as for other uses. The LED lighting system comprises elongated linear lamps having an LED luminary as a source of illumination and configured to operate as a node of an automated networked lighting system. The linear LED lamps have internal modular network connectors and control components so that they can receive control data and power signals over a single network cable according to a standardized power and data network communications architecture such as Ethernet. The system includes connector assemblies designed to securely mount the networkable linear LED lamps to conventional tube lamp lighting fixtures or to another support housing and to provide integrated power and data connectivity to internal components of the lamps. In one form, the disclosed system includes a network enabled snap-fit connector assembly mounted to a lighting fixture and configured to provide Ethernet power and data connectivity to the lamp. The LED lamps have first and second mechanical connectors at opposite ends of the lamp body, and the snap-fit connectors are configured to secure the lamps to an overhead lighting fixture or other support structure as an incident of the lamp ends moving relative to the mounting connectors in a substantially straight path that is transverse to the length of the body into an engaged position. The snap-fit connectors are also configured to form a network connection with an internal modular network connector associated with the lamp with the lamp mounted in its operative state on a support. In another form, a clipping mechanism is provided for mounting linear networkable LED lamps to an overhead grid ceiling system.
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1. A support connector for coupling an end of an elongate tubular LED lamp in an operative state to a lighting fixture, the elongate tubular LED lamp having a body with a length between spaced first and second ends, a source of illumination comprising at least one LED emitter board on or within the
1. A support connector for coupling an end of an elongate tubular LED lamp in an operative state to a lighting fixture, the elongate tubular LED lamp having a body with a length between spaced first and second ends, a source of illumination comprising at least one LED emitter board on or within the lamp body, and a first end connector at the first end of the body having a first surface, the support connector comprising: a base portion comprising a housing and having a proximal end portion and a distal end portion, the proximal end portion configured to be coupled to a support of the lighting fixture,a leading end portion extending from the distal end portion of the base portion and configured to engage the first end connector of the tubular LED lamp;the base portion and the leading end portion defining an internal raceway sized to receive a network cable terminated with a communications plug, with a first opening at the distal end portion of the base portion and a second opening at a distal tip of the leading end portion so that the communications plug can be translated along the internal raceway between the first and second openings;the leading end portion further comprising a second surface configured to engage the first surface of the first end connector;the leading end portion configured so that the first and second surfaces are placed in confronting relationship to prevent separation of the first end connector and the support connector with the lamp body in the operative state as an incident of the first end connector moving relative to the support connector from a position fully separated from the support connector in a substantially straight path that is transverse to the length of the body into an engaged position;wherein the first end connector comprises a jack which includes a housing defining an internal port for receiving the communications plug extending through the second opening, the jack providing an interface operable to transmit signals between the communications plug and the elongate tubular LED lamp according to a standardized power and data network protocol. 2. The support connector according to claim 1, wherein the communications plug includes a spring-loaded tab adapted to engage a groove of the jack to releasably couple the plug to the jack, and the leading end portion of the support connector defines a cut-out on a surface thereof, the cut-out aligned with at least a portion of the tab and the groove with the end of the lamp coupled in an operative state to the lighting fixture and the plug inserted in the jack, the cut-out allowing the tab to seat within the groove to couple the plug to the jack. 3. The support connector according to claim 1, in combination with an elongate tubular LED lamp having a body with a length between spaced first and second ends, a source of illumination comprising at least one LED emitter board on or within the lamp body, and a first end connector at the first end of the body for coupling an end of the elongate tubular LED lamp to the support connector in an operative state to a lighting fixture. 4. The support connector according to claim 1, wherein the plug conforms to a standardized power and data network protocol. 5. The support connector according to claim 4, wherein the plug is an Ethernet plug. 6. The support connector according to claim 4, wherein the plug is a USB plug. 7. The support connector according to claim 1, wherein the leading end portion is configured so that the first end connector moves against the leading end portion as the first end connector moves toward the engaged position thereby causing a part of at least one of the leading end portion and the first end connector to reconfigure to allow the first and second surfaces to be placed in confronting relationship. 8. The support connector according to claim 7, wherein the first end connector has an opening bounded by an edge and the leading end portion of the support connector has a first deployable part on which the second surface is defined, the leading end portion configured so that the first deployable part: a) is engaged by the edge of the opening and progressively cammed from a holding position, in which the first deployable part resides with the first end connector in the fully separated position, towards an assembly position as the first end connector is moved towards the engaged position; and b) moves from the assembly position back towards the holding position with the first end connector in the engaged position. 9. The support connector according to claim 8, wherein the first deployable part is joined to another part of the support connector part through a live hinge. 10. The support connector according to claim 8, wherein the first end connector has a wall through which the opening is formed, the first surface defined by the wall inner surface, the wall having a third surface of its opposite side, and a fourth surface on the leading end portion of the support connector, the wall residing captively between the second and fourth surfaces with the first end connector in the engaged position. 11. The support connector according to claim 8, further comprising an actuator, the support connector configured so that with the first end connector part in the engaged position the actuator can be repositioned to thereby move the first deployable part towards its assembly position to allow the first end connector to be separated from the support connector. 12. The support connector according to claim 8, wherein the leading end portion is configured to cooperate with the edge of the opening to consistently align the leading portion with the opening as the leading end portion is directed into the opening as the first end connector is moved between the fully separated position and the engaged position. 13. The support connector according to claim 8, wherein the leading end portion has a second deployable part that is configured substantially the same as the first deployable part and cooperates with the edge in the same way that the first deployable part cooperates with the edge in moving between corresponding holding and assembly positions and the first and second deployable parts are movable towards each other in changing from the holding positions into the assembly positions. 14. The support connector according to claim 1, wherein the lighting fixture is a linear tube lamp lighting fixture and the base portion is adapted for press fit engagement with the lighting fixture support. 15. The support connector according to claim 14, wherein the base portion includes a flange at its proximal end, a lower facing surface of the flange engaging an upper facing surface of the lighting fixture support with the support connector coupled to the lighting fixture. 16. The support connector according to claim 14, wherein the base portion comprises first and second oppositely facing sidewalls, the first and second sidewalls each defining an externally facing slot adapted to engage an edge portion of an opening in the lighting fixture support.
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