The Multiple functions LED nigh light not only offer LED illumination under predetermined colors, functions, effects including at least one of color-changing, color selection, functions selection with preferred switch, sensor, PIR sensor, radar sensor, rechargeable battery, power fail light, USB charging or be-charged system, outlets, audio device, surge/over heat/over charge/short-circuit protection, function selection between motion or non-motion or dust-to-dawn, or other preferred additional-functions list inside text below. The said multiple functions not only offer LED illumination but also offer at least one of additional-functions such As LED motion sensor night light have color-changing, color-selection, functions selection and the said additional-functions including power fail light and/or USB-charger or other preferred additional-functions such as outlets, or camera with wifi incorporate with download APP for wireless or remote control, adjustment, setting to offer people safety and multiple functions.

A light-emitting diode (LED) luminaire control system comprising a rechargeable battery and a control and test circuit is adopted to provide an emergency power to operate a luminaire that works only in alternate-current (AC) mains. The luminaire comprises LED arrays and a power supply. The LED luminaire control system further comprises a current-fed converter circuit, a control and test unit, a relay switch, a local controller, a remote controller, and a receiver circuit. When a battery discharging test is initiated by the remote controller with a band-pass signal transmitted, the receiver circuit can detect such a signal and subsequently send a decoded command to the LED luminaire control system to execute such a test by operating the luminaire without uncertainty.

Technologies are described for emergency lighting, provided is a stand-alone emergency high bay light having an array of LEDs disposed symmetrically about a central axis of the emergency high bay light. A rechargeable battery is configured to illuminate the array of LEDs. The emergency high bay light is configured to charge the rechargeable battery with a power supply between about 100V AC and 480V AC.

The present disclosure provides an LED straight light including a light tube with two pins at both ends, an LED installed in the light tube and a driving circuit. The driving circuit includes a mains branch and a signal branch. The mains branch is coupled to the pins at one end of the light tube for transmitting power to the LED for power supply. The signal branch is coupled to the pins at the other end of the light tube for transmitting external driving signals to control the on/off of the mains branch. The LED straight light of the present disclosure is powered by two ends, one of the two ends supplies power to the LED through the mains branch, and the other end receives driving signals to control the on/off of the mains branch.

The present disclosure provides an LED straight light including a light tube with two pins at both ends, an LED installed in the light tube and a driving circuit. The driving circuit includes a mains branch and a signal branch. The mains branch is coupled to the pins at one end of the light tube for transmitting power to the LED for power supply. The signal branch is coupled to the pins at the other end of the light tube for transmitting external driving signals to control the on/off of the mains branch. The LED straight light of the present disclosure is powered by two ends, one of the two ends supplies power to the LED through the mains branch, and the other end receives driving signals to control the on/off of the mains branch.

An improved LED lighting system is provided for overhead ceiling lighting, as well as for other uses. The LED lighting system comprises elongated linear lamps having an LED luminary as a source of illumination and configured to operate as a node of an automated networked lighting system. The linear LED lamps include an interface connector operable to connect to a data network to receive control data and power signals from an external device connected to the network for use in powering LED emitters and controlling one or more operational characteristics of the linear LED lamps. The system includes support connector assemblies for securing the linear LED lamps to a channel member of an overhead dropped ceiling grid.

LED lighting systems, mounting configurations, and light fixtures are disclosed for original and retrofit configurations. Some configurations mount the light fixture with a mounting bracket that allows for the removal and replacement of the light fixture in about the same time as a traditional light bulb change. Some configurations provide for fuse removal and replacement without the need to dismount the light fixture from its mounting bracket or without the need to open the housing of the light fixture to access the fuses. Some configurations use a battery backup system and self-check methods with LED light fixtures configured for public transportation applications.

A lighting device includes a housing and a light emitter coupled to the housing. A mounting plate is coupled to the housing and includes a front surface facing the housing and a rear surface opposite the front surface. The rear surface includes a snap-fit mounting feature and a rear connector portion. A first connector is coupled to the rear connector portion and operatively coupled to the light emitter.

A battery assembly for a lighting fixture is provided. The battery assembly includes a battery unit comprising a battery unit housing and a first set of conductive pins. The battery unit housing is configured to accommodate one or more batteries configured to power one or more light sources of the lighting fixture. The first set of conductive pins are in electrical communication with the batteries. The battery assembly includes a battery interface comprising a battery interface housing and a second set of conductive pins. The battery interface housing is configured to accommodate the battery unit housing. The second set of conductive pins are coupled to the light source(s) so that the batteries power the light source(s) when the first set of conductive pins contact the second set of conductive pins. In some implementations, the battery unit can be inserted into the battery interface while the lighting fixture is energized.

An LED lighting apparatus comprises a housing having at least one sidewall, an LED board, a lens having a back side facing the LED board and a front side opposite to the back side, and a driver module cover. The lens is disposed with respect to the LED board such that the plurality of the LEDs illuminate the back side of the lens. An adapter bracket is employed to couple the LED lighting apparatus to a junction box installed and positioned above the ceiling such that when the apparatus is snapped into the junction box, the driver module cover is at least partially disposed in the junction box.