The invention relates to an LED operating circuit in which a second module (2), preferably a light management module, with an additional sub-module (C), preferably a constant flow source, supplies an LED module (F) which has one or more LED sections (8). A control unit (E) of the second module (2) is embodied such that it can access a memory (4) of the second module (2) in order to read an identification of the LED-module (F) or to read the contents stored in the memory (4).

An apparatus includes a transmitting circuit and a power supply connected to a digital lighting interface bus, and a protection circuit configured to provide a first signal operable to disconnect the power supply and a second signal operable to disable the transmitting circuit when a voltage on the digital lighting interface bus exceeds a predetermined threshold. A method includes sensing a voltage on a digital lighting interface bus, and upon detecting that the voltage exceeds a predetermined threshold, providing a first signal operable to disconnect a power supply connected to the digital lighting interface bus and providing a second signal operable to disable a transmitting circuit supply connected to the digital lighting interface bus.

A system and method for discovering at least one dimming control protocol installed in a plurality of lighting devices and for controlling a plurality of dimming levels of the plurality of lighting devices are disclosed. The system may include at least one gateway that connects to at least one plurality of luminaires and/or LED's, at least one sensor subsystem and at least one power meter. The system and method may exchange information between a plurality of light devices and a self-organized, self-discovering gateway device. The gateway may use one or more known control protocols as an input and is able to handle multiple light devices that support different control protocols. This ability makes the gateway a universal lighting control gateway.

A lighting device may include a light irradiation portion, a light control portion, a sensing portion and a main control module. The light irradiation portion to generate and irradiate light. The light control portion to control a power applied to the light irradiation portion. The sensing portion to sense an environment of a space to which the light irradiation portion irradiates light. The main control module communicate with an external device by a wireless communication and control the light control portion according to a control signal from the external device. The main control module may include a first connector that connects the main control module and the sensing portion by a wired communication. The second connector may connects the light control portion and the main control module by the wired communication. The lighting device may be capable of being installed in an environment desired by the user.

A power supply includes a first component arrangement providing a first current output for initializing control circuitry, and a second component arrangement providing a second current output to the control circuitry when the control circuitry initialization is complete, and a method of operating a power supply includes connecting a first component arrangement of the power supply to provide control circuitry with a first current for initializing operations within a predetermined time period, and connecting a second component arrangement of the supply to provide the control circuitry with a second current when initializing operations are complete.

An LED based illumination device includes a receiver and a transmitter for communications adhering to a lighting control communications protocol and a high speed communications protocol. The LED based illumination device may be part of a lighting control network, wherein the data transmission rate of the high speed communications protocol is more than twice that of the lighting control communications protocol. The lighting control network may be coupled to a digital communications gateway, including a digital communications interface configured to be coupled to a network operating in accordance with an internet protocol and a lighting control network interface coupled to the lighting control network. A processor determines a summary status value of the LED based illumination device based on information stored in memory of the digital communications gateway. The digital communications gateway may periodically transmit the time of day to the LED based illumination device over the lighting control network.

A method of configuring and managing a DALI network includes displaying rows of cells on a display of a mobile device. The cells are associated with addresses on DALI networks. The method further includes selecting, by the mobile device, a DALI controller, where DALI controller is connected to a DALI network. The method also includes detecting, by the DALI controller, DALI devices that are on the DALI network, where the DALI devices are controlled by the DALI controller. The DALI controller is configured to detect the DALI devices in response to a request from the mobile device. The method further includes displaying, within some or all cells in the row of cells displayed on the display of the mobile device, icons representing the DALI devices, where each cell having an icon displayed therein is associated with an address of a respective DALI device on the DALI network.

Embodiments are generally directed to an emergency driver (10) and an intelligent module (20) for the emergency driver (10). An embodiment of the emergency driver (10) may include a digital communication interface (12), a DC power supply (14) and a controller (16). The digital communication interface (12) may be configured to receive an input signal (41) via a control bus (18). The DC power supply (14) may be configured to provide a DC output (45) to the control bus (18). The controller (16) may be coupled to the digital communication interface (12) and the DC power supply (14) and may be configured to control the emergency driver (10) to operate in a first operation mode. The input signal (41) received at the digital communication interface (12) may be a digital input signal when the emergency driver is operating in a first operation mode.

Provided is a controller for use with a luminaire. The controller that includes a processor connected to at least one lead of a receptacle included in the luminaire. The processor can be programmed to multiplex at least one lead of the receptacle to achieve at least one of a plurality functions.

A modular wireless lighting control device includes a wireless interface device that includes a wireless transceiver, a first controller, and a power supply. The wireless transceiver is in electrical communication with the first controller. The wireless interface device receives lighting control instructions wirelessly via the wireless transceiver. The modular wireless lighting control device further includes a lighting control device in electrical communication with the wireless communication device. The lighting control device includes a second controller and control interface circuitry. The control interface circuitry is compatible with a light fixture.