In each of delineator streetlights of a low-altitude, low-power installable smart streetlight system, a lighting unit is formed on a roadside, and a reflection panel is formed on an opposite-side of a direction of traffic. A low-power Bluetooth antenna relays control signals between nearby the delineator streetlights, and an alert panel is equipped on the reflection panel. A first sensor detects vehicles on roads and outputs a detection signal, and second sensors detect a wild animal and output a detection signal. A control unit controls the lighting unit to turn on when a car detection signal is inputted from the sensor unit, successively transmits the control signal to nearby the delineator streetlights, controls the alert panel to flash when a wild animal detection signal is inputted from the sensor unit, and transmits a control signal of flashing the alert panel to nearby the delineator streetlights.

An apparatus connectable to a streetlight luminaire includes a housing, an electrical connector, power conversion circuitry, and an output power interface. The housing has a top surface, a bottom surface, and at least one sidewall interconnecting the top and bottom surfaces. The electrical connector is integrated with the bottom surface of the housing and electromechanically connectable to a top-side electrical connector of the streetlight luminaire. The power conversion circuitry is operable to receive an input alternating current (AC) signal from the electrical connector and produce at least one output AC signal, wherein an average voltage of each output AC signal is less than an average voltage of the input AC signal. The output power interface is electrically coupled to the power conversion circuitry and integrated with the sidewall(s) of the housing. The output power interface is arranged to provide the output AC signal(s) for use external to the housing.

An adsorption bed utilizing Metal Organic Framework canisters to process flue gasses exiting from power generation plants. High temperature flue gas from a power generation is cooled and enters MOF containers where CO.sub.2 is adsorbed. CO.sub.2 is then de-adsorbed with additional high temperature flue gas. CO.sub.2 is collected and removed from flue gas. Electricity is generated using the heat differential and collected to power the device. Electronic control system uses sensors and controls valves, pumps, cooling system and MOF gates.

An Illumination device includes light emitting devices and an optical system for collimating light emitted by the light emitting devices. A first group of the light emitting devices are arranged in a first array having first gaps, and a first optical system is arranged near the first group of light emitting devices. At least one second group of the light emitting devices are arranged in a second array, and the second array has second gaps. The second optical system is arranged near the second group of light emitting devices. The first and second optical systems are arranged so that, in a distance from the illumination device, light emitted by the first group of light emitting devices, collimated by the first optical system, and light emitted by the second group of light emitting devices, collimated by the second optical system, are superimposed to form a gap-free illumination field.

Systems and devices for providing an illuminated flagpole assembly are disclosed. The assembly can include a hoist end member configured to be attached to a flagpole, a fly end member aligned in parallel with and opposite the hoist end member, an upper cross member, and a lower cross member. The upper cross member and lower cross member may each be formed of a respective plurality of links. Each plurality of links may be connected to one or more adjacent links and aligned along a plane. A first link of each of the plurality of links may be connected to the hoist end member and a second link of each of the plurality of links may be connected to the fly end member. Each link of the each of the plurality of links can be configured to swivel with respect to one or more adjacent links.

A lighting fixture is provided. The lighting fixture includes a lamp body, a light source component and an optical element; the lamp body and the optical element form a closed cavity, the light source component is accommodated in the closed cavity; the light source component includes a light source substrate and a light emitting unit located on a front surface of the light source substrate, and the optical element is located in a light emission direction of the light emitting unit; the light source substrate includes a back surface facing away from the front surface, the lamp body is formed with a heat dissipation structure, and the heat dissipation structure is in contact with the back surface of the light source substrate. The lighting fixture provided by the present disclosure has good heat dissipation performance.

Solar powered lamp posts are described. One post includes one or more solar panel assemblies located in an inverted pyramid cavity. The solar panel assemblies are configured to generate energy, for example, by collecting sun light. One or more drone charging stations are also provided which can charge a drone using the energy generated. The post also feature one or more light emitters powered by the energy generated. The post may also include a pyramid structure which supports the solar panel assemblies and the drone charging stations. The pyramid structure can include the solar panel assemblies on outward facing sides and open up to expose the drone charging stations. The solar panel assemblies may include a broom panel array. The array has a multiple power generating panels and a socket which secures each of the power generating panels in a radial direction from a central focal point.

An elongated lighting module having an asymmetric illumination source formed from at least two rows of light emitting diodes (LEDs) that extend along the long axis of the module and are independently controllable. The lighting modules are powered via a wiring harness that extends down a support pole to a power converter stack having LED drivers to control the modules. The power supply for lighting module includes a power enclosure having individual light emitting drivers for powering the rows of light emitting diodes that can adjust the power level to compensate for the loss of power from another of the light emitting drivers. The power supply may also include a backup that can be switched over to power the rows of light emitting diodes in the event of a failure.

Example embodiments relate to tiltable luminaire joints. One example tiltable joint for a luminaire includes a first joint portion that includes a joint member provided with an outer cylindrical surface section having an axis and opposing bearings aligned with said axis. The outer cylindrical surface section being provided with a first plurality of interengaging surfaces. The tiltable joint also includes a second joint portion that includes a joint housing provided with a pair of axially-aligned receiving surfaces, and an inner cylindrical surface provided with a second plurality of interengaging surfaces configured to interengage the first plurality of interengaging surface. The joint member of the first joint portion is configured for being housed within the joint housing of the second joint portion. Further, the tiltable joint includes first and second shaft portions that extend in alignment with the pair of axially-aligned bearings. Additionally, the tiltable joint includes a fixation means.

A method for controlling the light distribution of a traffic route luminaire in a network of luminaires, which is preferably also organized as a mesh network. The luminaire has a luminaire head having a settable light module and a controller while the light distribution of the luminaire is variable. The luminaire communicates luminaire data to at least one server, the luminaire data being luminaire-specific and related to the installation location of the luminaire. The data for a light distribution are automatically allocated to the luminaire and a setting of the light module is automatically effected on the basis of the data.