Remote control devices may control electrical loads and/or load control devices of a load control system without accessing electrical wiring. The remote control device may be mounted over a mechanical switch that is installed in a multi-gang wallbox adjacent to a second electrical device, such as another mechanical switch or an electrical receptacle. The second electrical device may be recessed with respect to the remote control device and may be brought forward towards a front surface of the adapter by loosening a first set of screws that attach a yoke of the second electrical device to the multi-gang wallbox, and tightening a second set of screws that attach the adapter to the yoke of the second electrical device. The remote control device may comprise one or more configurable attachment members for attaching the adapter to the yoke of the mechanical switch and/or to the yoke of the second electrical device.

Remote control devices may control electrical loads and/or load control devices of a load control system without accessing electrical wiring. The remote control device may be mounted over a mechanical switch that is installed in a multi-gang wallbox adjacent to a second electrical device, such as another mechanical switch or an electrical receptacle. The second electrical device may be recessed with respect to the remote control device and may be brought forward towards a front surface of the adapter by loosening a first set of screws that attach a yoke of the second electrical device to the multi-gang wallbox, and tightening a second set of screws that attach the adapter to the yoke of the second electrical device. The remote control device may comprise one or more configurable attachment members for attaching the adapter to the yoke of the mechanical switch and/or to the yoke of the second electrical device.

Various embodiments include apparatuses and methods enabling a wireless control apparatus for an LED array. In one example, a control apparatus includes a wireless module to receive a signal from a wireless control-device. The wireless signal may include signals related. to a desired CCT value and a D.sub.uv value. A control unit is coupled to the wireless module to translate signals received. from the wireless module. The control unit is also coupled to the LED array and to an LED driver. The control unit receive powers for the LED array from the LED driver and provides the power to the LED array in a manner based on the translated signals. A dimmer emulator is coupled to the control unit to provide one or more control signals to the LED driver. Other apparatuses and methods are described.

Various embodiments include apparatuses and methods enabling a wireless control apparatus for an LED array. In one example, a control apparatus includes a wireless module to receive a signal from a wireless control-device. The wireless signal may include signals related. to a desired CCT value and a D.sub.uv value. A control unit is coupled to the wireless module to translate signals received. from the wireless module. The control unit is also coupled to the LED array and to an LED driver. The control unit receive powers for the LED array from the LED driver and provides the power to the LED array in a manner based on the translated signals. A dimmer emulator is coupled to the control unit to provide one or more control signals to the LED driver. Other apparatuses and methods are described.

A surface with various layers that provide wireless charging may include at least one of a top surface layer, a second layer, comprising a plurality of lights and a power grid, disposed under the top surface layer, a charging pad disposed on a portion of the power grid, and a third layer, comprising a power supply which provides power to the plurality of lights and the power grid, disposed under the second layer.

An electronic cigarette including an atomization assembly and a battery assembly. The atomization assembly is disposed on the battery assembly. The battery assembly includes a battery indicating circuit module. The battery indicating circuit module includes a LED light and a control panel. The control panel includes a battery indicating circuit configured to control the LED light to display a color to indicate a battery level of the battery assembly.

To indicate a lighting means for a machine vision application where the resulting irradiance (P′) in an illuminated area (5) at a working distance (d) can be precisely adjusted, an optical covering (2) of the lighting means (1) is provided, which is configured such that a transmitted part (t2) of the incident light (L) passes through (1) the optical covering (2), and a reflected component (r2) of the incident light (L) is reflected in the optical covering (2), wherein a light sensor (3) is provided that detects the intensity (Ir2) of the reflected component (r2) in the optical covering (2). Furthermore, a method is indicated, according to which the intensity (Ir2) of the reflected component (r2) is detected and the radiant power (P) of the light source (1) is regulated on the basis of the intensity (Ir2) in order to adjust the irradiance (P′) of the transmitted component (t2).

A wearable light assembly includes an opaque housing that is open towards the ground and is configured to reflect light emitted from a first light source downward onto a first location that is close to the wearer and reflect light from a second light source downward onto a second location on the ground that is farther away from the wearer than the first location. In an embodiment, the wearable light assembly senses motion of the wearer and switches between the first light source and the second light source depending on whether the wearer is moving slowly (in which case it activates the first light source) or moving quickly (in which case it activates the second light source).

A system and method to promote biological responses within incubated eggs using lighting devices within an incubation chamber. A light supporting device is installed within the incubation chamber in spaced relation to an incubation device housing a plurality of eggs. The light supporting device is positioned to direct light at pre-determined wavelengths into the interior cavity of the incubation device to irradiate the plurality of eggs to promote a biological response within the eggs.

A system and method to promote biological responses within incubated eggs using lighting devices within an incubation chamber. A light supporting device is installed within the incubation chamber in spaced relation to an incubation device housing a plurality of eggs. The light supporting device is positioned to direct light at pre-determined wavelengths into the interior cavity of the incubation device to irradiate the plurality of eggs to promote a biological response within the eggs.