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.

An electronic 2-way communication module suitable (1, 2, 3) for 2-way communication with a luminaire (6) is disclosed. This is adapted to be installed in series into the power supply (7, 8) to the luminaire, and it has (i) a housing assembly; (ii) live and neutral power input terminals; (iii) live and neutral power output terminals; (iv) a power supply unit; (v) a dimmer unit controller; (vi) a wireless communication interface adapted to receive data/operating instructions and to relay data to a remote repository; and (vii) a wired connection between said electronic 2-way communication module and said luminaire adapted for the 2-way transmission of data between the module (1,2, 3) and the luminaire (6) and vice versa. This electronic 2-way communication module provides for the first time the ability not only to control a luminaire remotely but also to transmit data wirelessly from a luminaire to a remote repository, using a module that is simply wired in series with a cable supplying power to said luminaire.

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.

The invention relates to an emergency light unit for a lighting system, in particular an emergency light unit designed according to the DALI standard, having the following features: The emergency light unit is connected to a bus (2) of the lighting system, to a rechargeable store (17) of electrical energy, and to emergency lighting means (16).

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.

Systems and methods for delivering energy on a bus used for communication between devices are provided. Systems and methods dynamically provide a predetermined recovery time between communication messages calculated from forward and response message types and/or length, and a model of the energy reserve in the network devices to allow time for energy storage circuits in the devices to charge. In addition or alternatively, systems and methods provide an extra recovery time between messages to allow the bus voltage to recover from a fold-back mode and/or include an extra current limit circuit to increase a power supply current when the combined energy required by the network devices is greater than a current limit on a power supply.

Systems and methods for controlling a light emitting diode (LED) system having a plurality of LED arrays are provided. The lighting system can include a dimmable LED driver circuit configured to provide a driver output suitable for providing a driver current to the LED arrays. A current splitter circuit can be provided between the LED driver circuit and the plurality of LED arrays to control the ratio of current from the driver output provided to each of the plurality of LED arrays. The current splitter circuit can be configured to control the current ratio provided to the plurality of LED arrays independently of the driver output according to a current ratio control curve based at least in part on a variable reference signal provided at the current splitter circuit.

Embodiments of the present disclosure provide a centralized light supply apparatus, including: a controller, at least one light source pool, and a plurality of CPO switches. The controller is connected with the light source pool and the plurality of CPO switches through a two-way communication channel, and the light source pool is connected with the plurality of CPO switches through a photoelectric hybrid connector. The controller is configured to control the light source pool and the plurality of CPO switches. The light source pool is configured to output a light source to the plurality of CPO switches under control of the controller. The plurality of CPO switches are configured to modulate the received light source into an optical signal under control of the controller and output the optical signal. The light source pool may be cascaded and expanded through one controller. The problems that in the related art, an ELS panel pluggable light source occupies a front panel of a device and occupies a large space can be solved. Through the photoelectric hybrid connector, more light sources can be connected and occupy small space on the panel, and the space occupied by the panel is greatly reduced.

A method for controlling a lamp, which has a plurality of controllable sub-units is disclosed. First control information concerning the light output of only some of the controllable sub-units is fed to a control unit of the lamp on the input side, wherein the control unit determines a second control information concerning the light output of all sub-units on the basis of the first control information and transmits the second control information to the sub-units connected on the output side.

A light emitting diode (LED) driving apparatus includes: a first circuit connected to a primary winding of a transformer, and configured to receive input power and transfer the input power to the primary winding of the transformer; a second circuit connected to a secondary winding of the transformer to generate output power for driving a plurality of LEDs; and a controller including a control circuit configured to control the second circuit, and a power detection circuit configured to compare a magnitude of the input power with a predetermined reference power magnitude range, and transmit a control command to the control circuit in response to determining that the magnitude of the input power is outside the predetermined reference power magnitude range.