LED lighting

• Led street light with camera and motion sensing

  Sep 11, 2025

  LED street lights integrated with cameras and motion sensors combine road lighting, security monitoring, and intelligent energy-saving functions.   They are widely used in urban roads, residential communities, industrial parks, rural areas, and other scenarios.   Below is a detailed breakdown of their core advantages, key technical features, typical application scenarios, and considerations for selection:     1. Core Advantages: Beyond Basic Lighting The integration of cameras and motion sensors addresses the limitations of traditional street lights, delivering multi-dimensional value:   Dual Security: Lighting + Real-Time SurveillanceThe built-in camera (usually 1080P/4K resolution, with low-light or infrared night vision) enables 24/7 video monitoring. It can deter vandalism, theft, or illegal activities, and support remote viewing/recording via a mobile app or platform—critical for public safety and property management. Intelligent Energy SavingsMotion sensors (PIR or microwave sensors) detect human/vehicle movement within a set range (typically 10–30 meters). When no activity is detected, the light automatically dims (e.g., to 30% brightness) to save energy; when movement is sensed, it instantly brightens to 100% brightness. This reduces energy consumption by 40–60% compared to constant-brightness street lights, extending the lifespan of LEDs and batteries (for solar-powered models). Reduced Installation & Maintenance CostsCombining three functions (lighting, camera, sensor) in one unit eliminates the need to install separate surveillance cameras, sensors, and wiring. This simplifies on-site installation (especially for solar-powered versions, which are wire-free) and reduces long-term maintenance efforts (fewer devices to inspect or repair). Smart Management CapabilitiesMany advanced models support IoT connectivity (Wi-Fi, LoRa, or 4G). This allows remote control (e.g., adjusting brightness, setting sensor sensitivity), real-time fault alerts (e.g., LED failure, camera offline), and data analysis (e.g., traffic flow statistics, energy usage reports)—ideal for smart city or community management.     2. Key Technical Specifications to Focus On When selecting or evaluating these street lights, pay attention to the following critical parameters:   Category Key Specifications LED Lighting - Brightness: 500–5000 lumens (match the road width; e.g., 1000–2000 lumens for sidewalks).- Color Temperature: 3000K (warm white, for residential areas) to 6500K (cool white, for main roads).- Lifespan: ≥50,000 hours (high-quality LEDs).- Protection Rating: ≥IP65 (dustproof and waterproof, essential for outdoor use). Camera - Resolution: 1080P (Full HD) or 4K (Ultra HD) for clear details.- Night Vision: Infrared (IR) range ≥10 meters (for 24/7 monitoring in dark environments).- Storage: Supports local microSD card (e.g., up to 128GB) or cloud storage.- Angle: 90°–120° viewing angle (covers wider areas).- Weather Resistance: Same as the light body (≥IP65) to avoid water damage. Motion Sensor - Type: PIR (passive infrared, low cost, good for human detection) or Microwave (detects vehicles/humans, works in harsh weather like rain/fog).- Detection Range: 10–30 meters (adjustable).- Response Time: ≤1 second (instant brightness adjustment). Power Supply - Solar-Powered: Equipped with monocrystalline silicon solar panel (high conversion rate, ≥22%) and lithium-ion battery (long cycle life, ≥2000 cycles). Supports 3–7 rainy days of backup power.- AC-Powered: 100–240V universal voltage (for areas with stable grid access). Smart Features - Connectivity: Wi-Fi, LoRa, or 4G (for remote control/monitoring).- Alerts: Motion detection alerts (push notifications to phones), fault alarms.- Compatibility: Supports third-party smart platforms (e.g., for smart cities) or mobile apps.   3. Typical Application Scenarios These integrated street lights are highly versatile and suitable for:   Urban & Suburban Roads: Main roads, secondary roads, and sidewalks—provide bright lighting and traffic monitoring. Residential Communities: Deter security risks (e.g., theft in parking lots) and save energy with motion sensing. Industrial Parks & Factories: Monitor perimeter security and light up loading/unloading areas only when needed. Rural Areas & Country Roads: Solar-powered models are ideal (no grid access) to improve safety and reduce energy costs. Parks & Public Squares: Provide lighting for night activities and monitor public order.     4. Selection & Purchase Considerations Match Scenario Requirements: For example, choose 4K cameras and microwave sensors for busy main roads; opt for PIR sensors and warm white light for quiet residential areas. Prioritize Durability: Select products with IP65/IP66 protection, corrosion-resistant aluminum alloy housings (to withstand rain, wind, and extreme temperatures), and high-quality batteries (for solar models). Check After-Sales Service: Ensure the manufacturer offers warranty support (e.g., 2–5 years for the light body, 1–2 years for the camera/battery) and technical assistance for installation/debugging. Compliance with Standards: Choose products that meet national or international standards (e.g., CE, RoHS, FCC) to ensure safety and performance.   Example Manufacturers (for Reference) Shenzhen Bbier Lighting Co., Ltd: Offers IP65 LED street lights with 1080P cameras, PIR/microwave sensors, and solar/AC power options. Guangzhou Leimove Lighting Technology Co., Ltd: Specializes in smart IoT integrated street lights, supporting 4G connectivity, 4K cameras, and remote management. Dear Zone Lighting Company: Provides solar-powered models with IP67 protection, infrared cameras, and adjustable motion sensor sensitivity.   When purchasing, it’s recommended to communicate with manufacturers to customize parameters (e.g., brightness, camera resolution) based on specific project needs.    

  hot Tags : LED street lights integrated Street lights lamp manufacturer IP65 LED street lights with 1080P cameras Manufacturers to customize solar street light LED lighting PIR sensors solar street light Integrated street lights 6500k ip65 outdoor solar street light factory Solar power street lamp

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• Why is time control on street lamps one of the lighting modes used in integrated solar street lamps

  Dec 16, 2022

  Time control system of solar street lamp 1.Smart energy management, adjust the output power according to the battery capacity to prolong the lighting hours; For example: Time Control Total Time: 12h The lamp will stay on according to above metioned hours and lighting percentage (12H). It will shift and turn on/off automactically.       The default of our Leadray Integrated solar street light is “1227”. “1227” means we set up the light to be lit in 1 hour at 30% light on+2 hours at 100% light on+ 2 hours at 50% light on+7 hours at 20%. That is to say the integrated solar street light start working from 6pm, and from 6pm to 7pm the street light has only 30% light on; then from 7pm to 9pm, the light will be full brightness(100% light on);   From 9pm to 11pm, 50% light on; From 11am to 6am(the next day) 20% light on. The integrated street light will shift from one setting to another automatically(including on and off), we take this way (1hour+2hours+2hours+7hours) as a default because we think this meets the people's movement.   But you can request another way like “2226”, just need to consider the power consumption. Remark: Light mode and brightness can be customized. Shenzhen Leadray Optoelectronic Co., Ltd.   Welcome to visit our site: szleadray.com. Inquiry us for More!      

  hot Tags : Integrated Outdoor Powered Lamp Solar Street LED Light IP65 Waterproof Solar street light system Integrated solar street light System of solar street lamp Integrated solar lights LED lighting Led Solar Street Light Solar Street LED Lights

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• How to connect the solar panel to the LED light to make it light

  Feb 16, 2023

  Controlled by solar controller, it supplies power to solar light source LED energy-saving lamp Use a diode string between the battery and the battery board to prevent reverse charging. The solar panel in the sky receives solar radiation and generates electric energy in the form of chemical energy, which is stored in the battery pack.   2. At night, it is controlled by the solar controller to supply power to the solar lamp light source LED energy-saving lamp to make it glow.   3. When the brightness is higher than the set value during the day, the solar controller will control the output off, the solar energy lamp will stop emitting light, and the battery will continue to charge automatically.     4. The main role of solar cells is to generate electricity. 5. The mainstream of the power generation market is crystalline silicon solar cells and thin film solar cells, both of which have advantages and disadvantages.   6. Crystalline silicon solar cells have relatively low equipment costs, but high consumption and cell costs, but also high photoelectric conversion efficiency. It is suitable for generating electricity in outdoor sunlight.   Connecting a solar panel to an LED light to make it work requires a complete solar power system (not just direct connection between the two), as solar panels produce unstable DC power that needs regulation, storage, and control to match the LED’s power requirements. Below is a step-by-step guide to the system composition, connection principles, and specific wiring methods, suitable for both small-scale (e.g., home garden lights) and medium-scale (e.g., street lamps) applications.   1. Core Components Required (Must-Have) Solar panels generate electricity, but they cannot directly power LEDs—you need 4 key components to form a functional loop. Missing any part will cause the LED to fail (e.g., flickering, burnout, or no light).   Component Function Key Selection Criterion Solar Panel Converts sunlight into DC electricity (usually 12V/24V). Match the system voltage (e.g., 12V panel for 12V LEDs) and power (≥ LED + battery loss). Rechargeable Battery Stores solar electricity for nighttime or cloudy-day use. Use deep-cycle lead-acid batteries (low cost) or lithium-ion batteries (long life); voltage matches the system (12V/24V). Solar Charge Controller (SCC) Protects the battery from overcharging/over-discharging; regulates power to LEDs. Must match system voltage (12V/24V) and current (≥ solar panel’s maximum current). LED Light The load (lighting part). Choose DC LED lights (most common for solar systems); voltage matches the system (12V/24V to avoid burnout).   2. Why Direct Connection (Solar Panel → LED) Fails Many beginners try to connect the solar panel directly to the LED, but this leads to problems:   Unstable voltage/current: Solar panel output depends on sunlight (e.g., 18V open-circuit voltage in strong light, near 0V at dusk). LEDs need stable voltage (e.g., 12V), so direct connection causes flickering or burnout. No energy storage: The LED will only light when the sun is shining (no light at night). Battery damage risk: Without a charge controller, the battery will overcharge (swell/explode) or over-discharge (permanent damage).   3. Step-by-Step Connection Method (12V System as Example) We take a common 12V system (e.g., 10W solar panel + 12V 7Ah battery + 12V 5W LED) as an example. The wiring order follows the "Solar Panel → Charge Controller → Battery → LED" loop (current flows in one direction, do not reverse polarities).  

  hot Tags : Solar Street Light Solar LED energy-saving lamp Street light controlled by solar Street lighting LED lighting LED Street energy-saving lamp LED intelligent street lighting DC LED lights Solar led light

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