A smart vanity mirror speaker system may include a surface-mounted mirror that includes a mirror on one side and a screen display opposite the mirror, and a module capable of capturing, broadcasting, and recording still photos, audio, and video of a user, wherein the mirror is capable of being adjusted in height and angle. The system may include at least one light ring, a companion device/control panel, and/or an external microphone. The system includes an acoustic chamber connected to a bottom portion of the mirror, the acoustic chamber having a speaker integrated within the acoustic chamber. The acoustic chamber may include a downward-facing full-range driver on a lower end of the acoustic chamber; and a passive base isolator on an upper end of the acoustic chamber. The smart vanity mirror speaker system may pair with at least one Bluetooth-enabled device or MP3 player.

An illuminated mirror includes a mirror defining a front surface and a rear surface, the mirror includes a reflective mirror portion and a translucent portion through which light can pass. A first light support surface is positioned on a rear surface side of the mirror, a second light support surface is positioned on the rear surface side of the mirror, and a gap extends between the first light support surface and the second light support surface. A light source extends from the first light support surface to the second light support surface across the gap. The light source is supported by the first light support surface and the second light support surface, and is unsupported along the gap.

A mirror assembly can include a housing, a mirror, and a light source. In certain embodiments, the mirror is rotatable within a support portion of the mirror assembly. In some embodiments, the mirror assembly includes a light pipe configured to emit a substantially constant amount of light along a periphery of the mirror. In some embodiments, the mirror assembly includes a sensor assembly. The sensor assembly can be configured to adjust the amount of emitted light based on the position of a user in relation to the mirror.

A mirror includes a glass substrate, a pattern layer, a circuit board and a light source. The pattern layer is formed on the glass substrate. The pattern layer includes a plurality of polygonal patterns. Each of the polygonal patterns includes a plated region and a non-plated region. One of the plated region and the non-plated region surrounds another one of the plated region and the non-plated region. The circuit board is disposed corresponding to the pattern layer. The light source is disposed on the circuit board. A light emitted by the light source passes through the non-plated region to be projected out of the glass substrate.

An illuminated vanity mirror includes a housing and a front mirror panel connected to the housing. A frame is connected to the housing and positioned behind the front mirror panel. A light emitter is connected to frame. The light emitter includes a plurality of LEDs facing away from the front mirror panel. The LEDs are positioned to direct emitted light toward the housing and the emitted light is redirected through the front mirror panel.

A selfie mirror speaker may include a surface-mounted mirror that includes a module capable of capturing, broadcasting, and recording still photos, audio, and video of a user; and at least one mirror light, wherein the mirror is capable of being adjusted in height and angle for viewing, demonstrating, documenting, and sharing use and application of cosmetics, grooming techniques, skincare products, and related tools and accessories. The selfie mirror speaker includes an acoustic chamber connected to a bottom portion of the mirror, the acoustic chamber having a speaker integrated within the acoustic chamber. The acoustic chamber may include a downward-facing full-range driver on a lower end of the acoustic chamber; and a passive base isolator on an upper end of the acoustic chamber. The selfie mirror speaker may pair with at least one Bluetooth-enabled device or MP3 player.

A ring-shaped light includes a ring-shaped frame, the ring-shaped frame having a void portion in the middle of the ring-shaped frame, such that when the ring-shaped frame is located on a mirror, a face of a user looking into the mirror through the void is viewable to the user. The ring-shaped light further includes a plurality of light sources mounted around the ring-shaped frame in a circular fashion. The ring-shaped light further includes a bridge, the bridge located in a bottom section of the void, the bridge including a slot for receiving a smartphone. The ring-shaped light further includes a sensor for activating the plurality of light sources. The ring-shaped light further includes a mounting system integrated with the frame, the mounting system including a plurality of discs, mountable via adhesive to the mirror, and a plurality of recesses each interfacing with the plurality of discs, the plurality of discs being made of magnetic material and each of the plurality of recesses including a magnet to hold the plurality of discs, the plurality recesses sized and shaped in a complementary fashion to the plurality of discs.

According to an aspect, there is provided an apparatus (100) comprising a display surface (102) for presenting an image of a user; a light emitting portion (104) for using light to convey semantic information to the user; a sensor (108) for measuring the position of the user relative to the light emitting portion (104); and a control unit (106) configured to control the light emitting portion (104) based on the measured position of the user relative to the light emitting portion (104) so as to minimise the effect of the light conveying the semantic information provided by the light emitting portion (104) on the presented image of the user.

A desk top alarm or time related or LED lighting device with backup battery for power fail time keep time functions always work, and device has USB-port(s) has built-in or external AC-to-DC circuit to get 1.sup.st voltage DC, and 1.sup.st DC go through at least one of DC-to-DC (including just conductive-piece) to 2.sup.nd or more voltage DC(s). At least one of 1.sup.st or 2.sup.nd or more voltage DC to supply to at least one of (i) USB-charging port(s), (ii) 8 light source(s), or optional (iii) IC, (iv) speaker, (v) audio device, (vi) radio, (vii) outlet(s), (viii) surge or other safety protection circuit, (ix) colorful LEDs or LED-bulb for accent light, wake-up light, sleep night light, (x) colorful LEDs for charging status or power on/off or am/pm or, other indicator purpose, (xi). Same AC-to-DC circuit and DC-to-DC circuit also apply to desk top LED light which has built-in plurality of LED(s) inside the LED(s) compartment or replaceable/detachable CFL or LED bulbs for desk top LED lighting device. Further, the device has built-in optional outlets to supply AC power to be-supplied products. The device has export power from USB-port is one of (a) min. 1 A or (b) 3.1 to 10 Amp or (c) 12 Watt to 60 Watt to make regular or quickly charging functions.

An illumination system comprising a light source including a linear array of color variable light emitting elements; a power supply coupled to the array; and a power regulating circuit, coupled between the power supply and the array, effective to activate the light emitting elements to emit light in accordance with a color profile that varies as a function of location on at least a portion of the array. In a specific implementation, the invention includes a camera or other sensor for detecting ambient lighting conditions. This enables the system to adjust the array to achieve ambient lighting conditions in accordance with user preferences or profile. In yet another embodiment, lighting conditions at a remote location at a specific time are sensed by a smartphone camera or other device and coupled to the power regulating circuit for use in adjusting the array to achieve a match of ambient lighting to that or a remote location and time, subject to user adjustments, profile and/or preferences. In the best mode, user commands are entered via a smartphone or via voice using a virtual assistant.