A power control circuit for a projector for controlling a light source of the projector. The power control circuit includes: a detector for detecting an AC input voltage is a first value or a second value; a switch coupled to the detector, conducting or disconnecting of the switch being based on the detector detecting whether the AC input voltage is the first value or the second value, the switch further outputting a first control signal; and a laser driver coupled to the switch and the light source, in response the first control signal from the switch to change power consumption of the light source. When the AC input voltage is the first value, power consumption of the light source is a default value. When the AC input voltage is the second value, power consumption of the light source decreased from the default value.

A power control circuit for a projector for controlling a light source of the projector. The power control circuit includes: a detector for detecting an AC input voltage is a first value or a second value; a switch coupled to the detector, conducting or disconnecting of the switch being based on the detector detecting whether the AC input voltage is the first value or the second value, the switch further outputting a first control signal; and a laser driver coupled to the switch and the light source, in response the first control signal from the switch to change power consumption of the light source. When the AC input voltage is the first value, power consumption of the light source is a default value. When the AC input voltage is the second value, power consumption of the light source decreased from the default value.

A power control circuit for a projector for controlling a light source of the projector. The power control circuit includes: a detector for detecting an AC input voltage is a first value or a second value; a switch coupled to the detector, conducting or disconnecting of the switch being based on the detector detecting whether the AC input voltage is the first value or the second value, the switch further outputting a first control signal; and a laser driver coupled to the switch and the light source, in response the first control signal from the switch to change power consumption of the light source. When the AC input voltage is the first value, power consumption of the light source is a default value. When the AC input voltage is the second value, power consumption of the light source decreased from the default value.

The present disclosure provides lighting control system multi-switch apparatuses and methods. The apparatus includes a lighting control module including at least three electrical terminals. The lighting control module configured to cause a transmission of a quantity of electrical energy to a lighting circuit of a light fixture electrically connected to the lighting control module. The apparatus includes a detector circuit positioned in the lighting control module. The apparatus includes a controller in electrical communication with the detector circuit, the controller specially programmed to cause a call signal to be transmitted to a switch connected to the traveler terminal, the call signal configured to request the switch connected to the traveler terminal transmit a response signal to the controller to identify the switch connected to the traveler terminal.

The present disclosure provides lighting control system multi-switch apparatuses and methods. The apparatus includes a lighting control module including at least three electrical terminals. The lighting control module configured to cause a transmission of a quantity of electrical energy to a lighting circuit of a light fixture electrically connected to the lighting control module. The apparatus includes a detector circuit positioned in the lighting control module. The apparatus includes a controller in electrical communication with the detector circuit, the controller specially programmed to cause a call signal to be transmitted to a switch connected to the traveler terminal, the call signal configured to request the switch connected to the traveler terminal transmit a response signal to the controller to identify the switch connected to the traveler terminal.

A lighting device that can prevent the progress of minute cracks generated in a flexible substrate or the occurrence of minute cracks themselves, and the flexible substrate. A flexible substrate, that electrically connect a light emitting portion movable relative to a main body portion of the lighting device, has a soldering portion that is soldered to the light emitting portion at one end, a connection portion that is connected to the light emission control portion at another end, a communication portion that connects the soldering portion and the connection portion, and two xenon wires and two trigger wires that are arranged in the communication portion in a longitudinal direction. In the communication portion, of the four wires, the two xenon wires are arranged between the two trigger wires.

A lighting energy saving method of the present invention, comprises a plurality of brightness adjustable illuminants, and a plurality of photoreceptors for detecting brightness of lighting environment, the brightness of lighting environment is brightness of the environment formed by illumination light emitted from all the illuminants, natural light and illumination light emitted from other lighting systems, wherein comprising: A. setting basic illumination brightness of the lighting environment, i.e. setting basic photosensitivity value of each of the photoreceptors; B. adjusting illumination brightness of each illuminant to a corresponding brightness value to obtain a real-time brightness environment of the lighting environment, and then detecting the real-time brightness environment by the photoreceptors to obtain the photosensitivity values detected by the photoreceptors, the photosensitivity values reflecting the real-time illumination brightness of the real-time brightness environment; C. comparing the detected photosensitivity values actually detected by all the photoreceptors to their own basic photosensitivity values, determining whether their own basic photosensitivity values are satisfied, if not, repeating B, if so, entering D; D. all the illuminants lighting according to the brightness that they should have at the real-time brightness environment.

A lighting energy saving method of the present invention, comprises a plurality of brightness adjustable illuminants, and a plurality of photoreceptors for detecting brightness of lighting environment, the brightness of lighting environment is brightness of the environment formed by illumination light emitted from all the illuminants, natural light and illumination light emitted from other lighting systems, wherein comprising: A. setting basic illumination brightness of the lighting environment, i.e. setting basic photosensitivity value of each of the photoreceptors; B. adjusting illumination brightness of each illuminant to a corresponding brightness value to obtain a real-time brightness environment of the lighting environment, and then detecting the real-time brightness environment by the photoreceptors to obtain the photosensitivity values detected by the photoreceptors, the photosensitivity values reflecting the real-time illumination brightness of the real-time brightness environment; C. comparing the detected photosensitivity values actually detected by all the photoreceptors to their own basic photosensitivity values, determining whether their own basic photosensitivity values are satisfied, if not, repeating B, if so, entering D; D. all the illuminants lighting according to the brightness that they should have at the real-time brightness environment.

The present disclosure provides apparatuses and methods for bulb detection for a lighting control system. The apparatus includes a lighting control module configured to cause a transmission of a quantity of electrical energy to a lighting circuit of a light fixture electrically connected to the lighting control module. The apparatus includes a detector circuit positioned in the lighting control module. The detector circuit is configured to measure a response of the lighting circuit to the transmission of the quantity of electrical energy. The apparatus also includes a controller in electrical communication with the detector circuit. The controller is specially programmed to correlate the quantity of electrical energy transmitted to the lighting circuit to the response of the lighting circuit. The controller is further programmed to determine the bulb type of a bulb electrically coupled to the lighting circuit of the light fixture.

The present disclosure provides lighting control system multi-switch apparatuses and methods. The apparatus includes a lighting control module including at least three electrical terminals. The lighting control module configured to cause a transmission of a quantity of electrical energy to a lighting circuit of a light fixture electrically connected to the lighting control module. The apparatus includes a detector circuit positioned in the lighting control module. The apparatus includes a controller in electrical communication with the detector circuit, the controller specially programmed to cause a call signal to be transmitted to a switch connected to the traveler terminal, the call signal configured to request the switch connected to the traveler terminal transmit a response signal to the controller to identify the switch connected to the traveler terminal.