The future of street lighting
IoT-based street lighting integrates sensors, communication networks, and management software to monitor and adjust street lamps in real time. Lamps become “smart,” adapting brightness automatically to environmental conditions, vehicles or pedestrians, and daylight—optimizing safety and energy efficiency.
“A lighting system that adapts to the city’s real needs, cutting energy consumption and improving urban quality of life.”
In case of faults, the system detects issues for timely maintenance and reduced downtime. Predictive maintenance lowers operating costs and ensures more reliable lighting for citizens.
Innovative hybrid power
A distinctive point is hybrid operation leveraging energy storage: the lamp uses stored battery energy first, then falls back to the grid. This works in any urban context, regardless of grid accessibility, delivering major savings—cutting grid draw by 40%+ for public entities adopting the technology.
Energy benefits
- • Energy consumption reduced up to 40%
- • Priority use of stored solar energy
- • Less grid stress during peak hours
- • Partial or full energy independence
- • Lower CO₂ emissions
Smart functions
- • Automatic brightness control
- • Vehicle and pedestrian detection
- • Remote diagnostics and predictive maintenance
- • Integration with other urban IoT systems
- • Centralized control dashboard
Centralized management and IoT integration
Centralized management lets you collect data for predictive analytics, boosting overall efficiency and integrating with other urban infrastructure such as air-quality monitoring. With motion and light sensors, lamps adjust illumination in line with local regulations, further optimizing energy consumption.
Multiple mounting options and adjustable tilt make deployment easy across urban settings—from main roads to parks, residential zones to industrial areas—supporting any smart-city project.
Available models
Our smart streetlamp range offers several models to fit every public-lighting need, from small paths to large roads:
| Reference | Power (W) | Battery capacity | Color temp. (xx00K) | PCB LED number | Luminous flux (lm) | Working temperature | Dimensions AxBxC (mm) | Weight (Kg) |
|---|---|---|---|---|---|---|---|---|
| Solar street lamp IOTSOL030 | 30W | 230.4Wh-18Ah | 30-40-50 | 108 | 6000 | 0 to 50°C | 703x301x250 | 7.3±0.3 |
| Solar street lamp IOTSOL040 | 40W | 307.2Wh-24Ah | 30-40-50 | 216 | 8000 | 0 to 50°C | 910x429x291 | 13.9±0.3 |
| Solar street lamp IOTSOL050 | 50W | 384W-30Ah | 30-40-50 | 216 | 10000 | 0 to 50°C | 910x429x291 | 14.4±0.3 |
| Solar street lamp IOTSOL060 | 60W | 460.8Wh-36Ah | 30-40-50 | 216 | 12000 | 0 to 50°C | 910x429x291 | 15.0±0.3 |
Applications and use cases
Urban roads
Efficient lighting that adapts automatically to traffic intensity and weather.
Parks and green areas
Ambient lighting that boosts safety and usability of green spaces at night.
Residential zones
Visual comfort and safety for pedestrians and vehicles with reduced consumption.
Industrial areas
Reliable lighting for production and logistics areas with remote monitoring.
Parking and campuses
Intelligent management of parking lots and campuses with presence sensors.
Bike lanes
Optimized lighting for cycling routes with activation on presence.