Smart LED Street Light
In our modern day environment, lighting is responsible for a staggering 19% of global electricity usage. In particular, different research shows that powering streetlights account for 30% – 50% of a typical city’s energy bill. Sinoco’s smart LED street light is designed to save more energy as well as help effectively cut CO2 emissions, limit light pollution and also lower operations and maintenance costs for a given city or area, all the while keeping citizens feeling illuminated, safe and satisfied. Sinoco has made an effort throughout the years to design and manufacture smart LED street light item that are not only energy efficient but also help keep the environment clean and sustainable.
Intelligent LED Street Light
In line with our philosophy, our Intelligent LED street light offers practical answers to many of the above questions and challenges. Our cleverly-designed intelligent LED street light with lighting controller II, has built-in features of ultra-long range, low power consumption and high stability in communication. Through the lighting controller, users can efficiently observe and maintain the lights in a short order.
Our smart LED street light product is based on the LoRaWAN gateway. Our YZS-GW01-470M is a connection between the LoRa module and the Internet, which is applicable for installation and use. The frequency band differs for separate regions while the frequency band of YZS-GW01-470M is 470MHz. The gateway uses the SX1301 as its main chip, which can provide 8 channels of parallel uplink and 1 channel of downlink communication.
Also, it adopts the low-power, high-reliability core processor – Cortex, so the main control chip can provide an efficient and reliable operating environment for gateway communications. The gateway also supports the star topology. The terminal device can upload the data to the gateway through RF and then the gateway can upload all this information to the server through 4G or Ethernet. This will effectively make the communication range more extensive and the deployment of repeaters in the solution can be greatly reduced. Thus, the solution cost will be lower and the deployment will be much easier or ideal for an array of environments.
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FAQ
1.Why do people pick the Smart LED street light over old-schooled non-LED street light?
•Lower power consumption. Smart LED street light can be dimmed when there are no people around, saving half or a greater amount of the power consumption.
•Failure detection. Lights failure can be instantaneously detected and a repair team can be dispatched to the right location before dark.
•Automatic control. With remote control, dimming can be adjusted to occasions, sunlight, and climate conditions, saving power and extending light lifetime.
•Manual control. Light can be lit up for example to improve lighting conditions of public events or to assist in emergency operations.
•Fault warning. Remote acquisition of lighting stat information, the ability of fault location and alarm can be realised.
•Report statistics. Intelligent led street light can do statistics on lighting power consumption, lighting rate, etc by year month and day.
•Strategy management. Year, month, day statistics of lighting energy consumption data, report download.
•Map Monitoring. Map can display position and status information of illuminating lamps intuitively.
2. Why is LoRaWAN the Best option for city’s intelligent LED street light ?
The LoRaWAN viable IoT correspondence system was chosen for intelligent LED street light because of its ability to dependably associate sensors and actuators over significant distance, using low-bitrate public radio frequencies. With its extraordinary infiltration capacity, a gateway deployed on a building or tower can connect to thousands of devices over distances up to 15 kilometers. The innovation likewise offers advantages in terms of bi-directionality, security, portability and precise localization. The extremely fast arrangement, the possibility to pick either a private or public organization and the low activity costs supported the reception of this cutting edge correspondence arrangement.
The framework can utilize at least one IoT communication into a similar execution, with extended flexibility features in terms of geographic deployment and third-party integrations. Because of its light level control, Sinoco additionally goes about as a savvy city facilitator, keeping the intelligent LED street light network fueled up during the day, offering persistent stock for different sensors and applications.
Additionally, the Sinoco intelligent LED street light Streetlight Control programming accompanies local API networks and provides integration experience with smart city management software suites, making it accessible for Smart City communications.
3.How does the ZigBee network be wireless communication technology for communication among smart LED street lights?
ZigBee Network is remote technology for correspondence among various gadgets in a WPAN. Zigbee is used in devices where a low information rate, long battery life, and secure networking are required. The maximum data transfer rate of Zigbee devices is 250 Kbps with a 2.4 GHz oscillator. The approximate power consumption is 60mW. Zigbee devices utilize the strategy of Direct Sequence Spread Spectrum (DSSS), which guarantees the reliability quality of signal transmission, staying away from obstruction from different signs and thus extending the maximum operating range of up to 100m. Zigbee network can have up to 65336 devices, and every node can cooperate with each and every other node, which at last results in a massive smart LED street light networking.
4.How ZigBee-based wireless devices allow more efficient intelligent LED street light system management?
Zigbee-based street light control is proposed so we can aim at lessening the human error in the operation of intelligent LED street lights. An absence of automation in the current system leads to large amounts of human error in the street lighting system. The data is transferred point-by-point using ZigBee transmitters and receivers which are then shipped off a control terminal used to actually take a look at the condition of the streetlights and to take proper measures in case of failure. The framework allows energy savings with increased execution and practicality. Here we are making an Intelligent LED Street lights post which is managed by a wireless controlled system that uses LED based lightweight stockpiles and its power is given by environmentally friendly power. It is then executed through an organization of sensors to assemble the relevant data related with the management and maintenance of the system. Information is transferred in remote mode utilizing the ZigBee convention.
