A rear liftgate window assembly for a vehicle includes a glass window panel configured to be pivotally mounted at a rear portion of a vehicle so as to be pivotable between a closed position and an opened position. A lighting device is disposed at an inner surface of the glass window panel and includes (i) at least one light source adhesively attached at the inner surface of the glass window panel, (ii) electrical connectors disposed at the inner surface of the glass window panel, and (iii) electrically conductive traces established at the inner surface of the glass window panel between the light sources and the electrical connectors. The electrical connectors are configured to electrically connect to a power source of the vehicle when the rear liftgate window assembly is mounted at the vehicle.

A LED Light device having built-in camera unit is powered by AC or-and DC power source for a lamp-holder, LED bulb, flashlight, garden, entrance door light or other LED light device connected to power source by (1) prongs or (2) male-base has conductive wires can be inserted into a female-socket which connect with power source or (3) wired. The device has built-in camera unit has plurality functions to make different products and functions. The LED light device has at least one of (a) camera or DV to take minimum MP4 format image, (b) digital data memory kits or cloud storage station, (c) wireless kits, Bluetooth or USB set for download function, (d) motion/moving/other sensor, (e) assembly for contact Wifi, 3G/4G/5G network or even settle-lite channel, (f) system to transmit or-and receiving wireless signal, (g) APP or other platform software to operation related device, (h) LED lighting, (h) other electric or mechanical parts & accessories to get desired function(s) for the said LED light device. The said motion/moving sensor unit has desired part or all of digital data related module or circuit(s) or backup power and unit may in separated housing with light source assembly so people can upgrade the non-camera device to has built-in camera and digital device for their old non-camera security light.

A portable lighting product with a lock out mode of operation in which the portable lighting product cannot be turned on solely by a single actuation of a user-actuated switch until a sequence of operations is performed to unlock the user-actuated switch and turn off the lock out mode. Entry into the lock out mode of operation can be signaled by visual, audio or tactile signals. The sequence of operations can be activation of the user-actuated switch along with a designated movement of the principal axis of projection from a light source or activation of the user-actuated switch a plurality of times within a preselected interval.

A headlamp with a light source, a power module to generate power for the light source from control information or a control signal, a control module for adjusting the power generated by the light source. The control module has a light sensor for sensing light from the environment of the lamp holder. The control module generates control information according to the information generated by the light sensor.

The control module has an accelerometer to provide at regular intervals data representative of an acceleration of the headlamp along at least one horizontal axis and one vertical axis.

The control module stores and processes accelerometry data.

The control module includes a LUT lookup table stored in memory.

The parameter read from the LUT lookup table is used in conjunction with information generated by the light sensor to determine the light output control information or signal.

A control system including: a base including a central axis; a knob rotatably connected to the base, the knob rotatable about the central axis; a plurality of individually indexed light emitting elements distributed along the base perimeter and arranged to direct light radially outward of the central axis; a diffuser arranged radially outward of the light emitting elements; a wireless communication module enclosed between the knob and base; and a processor enclosed between the knob and base, the processor connected to the wireless communication mechanism and plurality of light emitting elements, the processor configured to individually control each light emitting element based on a control signal received from the wireless communication mechanism.

Pellet grills and associated methods of operation are disclosed. An example pellet grill includes an end cap, a liner coupled to the end cap, and a compartment formed between the end cap and the liner. The example pellet grill further includes a lighting module having a light source. The light source is positioned within the compartment. The light source is configured to project light through an opening formed in the liner and into an interior of a cooking chamber of the pellet grill.

The present invention provides a light-emitting module. The light-emitting module comprises a motion actuated switch, a counter, a controller, and a plural of light-emitting devices. The motion actuated switch is for generating an actuating signal in response to a motion of an object. The counter is for recording how many times the actuating signal is generated for generating a counting signal, and determining whether the times are larger than a pre-determined threshold. The controller drives a plurality of light-emitting devices for lighting according to the actuating signal, and changes a lighting pattern according to the counting signal. Compared to the prior art, the present creation provides more kinds of lighting/shining patterns for providing eye-catching and sufficient illumination in night activities.

A lighting device is provided, a plurality of light sources are located within a housing of the lighting device. A sensor is also provided to determine an indication of the point of lowest potential energy and/or the point of highest kinetic energy. This sensor output is input to a controller that is configured to determine a change in the position or a movement of the point of lowest potential energy and/or the point of highest kinetic energy as the position of the lighting device changes based on the sensor output and to change a property of the light emitted by the plurality of light sources based on the change of position or a movement of the point of lowest potential energy and/or the point of highest kinetic energy.

A lighting device (1) is provided. The light device (1) comprises a first part (2) and a second part (2) which is flexibly connected to the first part (2) so that the lighting device (1) can be in at least two configurations. There is a sensor (7) which detects the configuration of the lighting device (1) and a controller for receiving the sensor signal from the sensor (7) and for providing an output to first light sources and second light sources.

A lighting device is disclosed in the present disclosure. The lighting device includes a support assembly, an illuminant assembly, and a switch assembly. The illuminant assembly is connected to the support assembly and capable of being rotated to the support assembly. When the illuminant assembly is rotated to a position at which an angle between the illuminant assembly and the support assembly is less than or equal to a first angle threshold, the switch assembly turns to an on-state. In this way, the lighting device has a function of a switch.