Lighting control module for urban and industrial infrastructure
Control light output by schedule, sensors or manually via cloud platform. Reduce energy costs by up to 50% and improve outdoor lighting reliability.
Description
Control is implemented in automatic mode (according to a schedule/sensor) or manually at the command of a dispatcher, and it is also possible to monitor the state of the luminaires for any accidents via feedback.
The system allows the use of any types of luminaires equipped with drivers with control protocols 0/1-10 or DALI.
Features
- For luminaires with 0/1-10 or DALI control protocols
- Support for GSM (3G) / LoRa / NB-IoT / XNB communication channels
- GPS/GLONASS, humidity, temperature, and light sensors
- IP65 housing protection, all-weather design
How the lamp control module works
Construction
 |  |  | |
| Module "NEMA" | Module “BOX” | Module “SR” | |
| Overall dimensions, mm | 85х85х115 | 140х107х55 | 80х80х40 |
| Supply voltage, V | 220 | 220 | 12-24 |
| Luminaire control protocols | DALI и 0/1-10 | DALI и 0/1-10 | DALI |
| Degree of protection of the shell | IP65 | IP65 | IP65 |
| Connection type with the lamp | NEMA socket | Wired connection using plug-in terminals | SR (Zhaga) |
| Control channels | 2G, 3G, NB-IoT, LoRaWAN | 2G, 3G, NB-IoT, LoRaWAN | 2G, 3G, NB-IoT, LoRaWAN |
| Geolocation | GPS/GLONASS | GPS/GLONASS | GPS/GLONASS |
| Server communication protocol | MQTT | MQTT | MQTT |
CONTROL MODULE LoRa + GSM
- Supports 2 independent communication channels simultaneously, which ensures reliability in the event of possible interruptions in the operation of one of the types of connections: it reserves data transmission using the second communication channel.
- Support for up to 16 independently controlled lamp drivers.
- The ability to transfer information to two completely independent servers.
- All-weather housing with built-in protection against pressure fluctuations caused by temperature changes.
- The ability to use any combination of communication types: LoRaWAN + 2G/3G/NB-IoT.
- Automatic geolocation using GPS and GLONASS systems.
- Built-in sensors: humidity, temperature, and light.
 |  |  | |
| 3G GSM | LoRa | NB-Iot | |
| Data transmission technology | GSM, GPRS, EDGE, UMTS, HSPA+ | LoRa WAN | Cat. NB, EDGE, GPRS |
| Frequency range, MHz | 850 / 900 / 1800 / 1900 / 2100 | 864-869 | 900 / 1800 |
| Use of additional equipment | not required | installing LoRa base stations | not required |
| Availability of a SIM card | available | unavailable | available |
| Maximum data transfer rate | 236 kbps | 37.5 kbps | 34 kbps |
| Connection type with the lamp | 14,4 Mbps | 5 kbps | 66 kbps |
| Degree of protection | IP66 | IP66 | IP66 |
Key benefits and economic impact
Invisible Losses: How “Blind” Lighting Reduces Energy Efficiency and Reliability
The lights are on longer, brighter, or at the wrong time — there is no precise control.
Crashes without notifications
The light fixture fails, but the crew doesn't find out about it for weeks.
Disparate systems → no unified platform, no transparent analytics.
It is impossible to predict loads, make a repair plan, and reduce costs.
One channel “drops” → the network stops transmitting data.
Manually managing a large number of lights is time-consuming.
Application areas
Automation of lanterns and transition to adaptive night lighting.
Parks and public areas:Smooth brightness control and event scenarios.
Industrial facilities:Lighting control in hangars, warehouses, and production sites.
Transportation hubs and parking lots:Illumination based on motion detection, reducing energy consumption.
Shopping and office centers:Centralized management and analytics for large complexes.
Many companies trust us
Major DigiCity Projects
- Ivanovo - clothing collection containers
- Moscow - garbage containers for major developers
- Moscow Region - monitoring of municipal solid waste collection for regional operators
- St. Petersburg - containers for collecting glisters
Any other questions?
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