1.Automated Controls: Automated controls in pedestrian lighting systems leverage sophisticated algorithms to respond to changing daylight conditions. These controls can adjust the brightness of the lights gradually as daylight diminishes, ensuring a smooth transition from natural to artificial lighting. They also have the capability to detect sudden changes in ambient light, such as cloud cover or passing shadows, and adjust the lighting levels accordingly to maintain consistent illumination.
2.Dimming Functionality: Dimming functionality allows pedestrian lighting systems to modulate light output based on the available natural light. During periods of high daylight, such as sunny afternoons, the system can dim the lights to reduce energy consumption while still providing adequate visibility for pedestrians. Dimming also helps mitigate glare, enhancing visual comfort and safety for pedestrians and drivers alike.
3.Programmable Schedules: Pedestrian lighting systems with programmable schedules can be tailored to specific geographic locations and seasonal variations in daylight hours. For example, in regions with significant seasonal changes, the lighting schedule can be adjusted to account for earlier sunsets during the winter months and longer daylight hours in the summer. This flexibility ensures that lighting levels remain optimal year-round, promoting safety and security for pedestrians.
4.Adaptive Lighting Technologies: Adaptive lighting technologies, such as dynamic LED luminaires, offer precise control over light output and color temperature. These systems can adjust lighting levels in real time based on factors like pedestrian activity, traffic flow, and weather conditions. By dynamically adapting to changing environmental variables, adaptive lighting technologies optimize energy efficiency and minimize light pollution, creating a more sustainable and comfortable urban environment.
5.Remote Monitoring and Management: Remote monitoring and management capabilities enable operators to remotely monitor the performance of pedestrian lighting systems and make adjustments as needed. Real-time data analytics provide insights into energy consumption, system health, and user behavior, allowing operators to optimize lighting settings and identify potential issues before they escalate. Remote management also streamlines maintenance processes, reducing downtime and ensuring continuous operation of the lighting infrastructure.
6.Seasonal Adjustments: Seasonal adjustments in pedestrian lighting systems involve pre-programmed settings that anticipate changes in daylight patterns throughout the year. For instance, lighting schedules can be adjusted to align with daylight-saving time transitions or variations in sunrise and sunset times based on geographical location. By automatically adapting to seasonal changes, pedestrian lighting systems maintain consistent visibility and safety for pedestrians during all times of the year.
7.Integration with Weather Data: Integration with weather data sources enhances the adaptive capabilities of pedestrian lighting systems by incorporating real-time weather forecasts and conditions. By monitoring factors such as cloud cover, precipitation, and atmospheric brightness, the lighting system can dynamically adjust its operation to optimize visibility and energy efficiency. Integration with weather data also enables proactive responses to adverse weather conditions, such as automatically increasing lighting levels during periods of reduced visibility due to fog or rain.
8.User-Initiated Controls: User-initiated controls empower pedestrians and facility managers to customize lighting settings based on specific preferences or requirements. Intuitive interfaces, such as smartphone apps or touchscreen panels, allow users to adjust brightness levels, set timers, and activate special lighting modes as needed. User-initiated controls enhance user experience and promote a sense of ownership and engagement with the pedestrian lighting system, fostering a safer and more inclusive urban environment.
RESIDENTIAL LIGHTING / T-102
RESIDENTIAL LIGHTING / T-102
Die-casting aluminium top cover, extruded aluminaium column pole, the height according to the client required, PC transparent diffuser.
There with frosted glass and middle SMD light source with diffusion cover and anti glare rouvre.
High quality LED chips, Driver with 0-10V/DALI/programmed options, and with surge protection up to 20KV.
LED module is used inside, Integrated electrical components which is easy to install and replace.
Surface anti-ultravilet pure polyester powder painting, Corrosion resistance can be more than 1000 hours.
No photo-biological risk, (no risk linked to infrared, blue light and UV radiation) in accordance with EN 62471:2008.
Street lighting control used with smart control technology. It can be compatible with remote management system.
All external screws are made of 304 stainless steel.