The intelligent lighting control system is a relatively advanced lighting control method, which adopts a fully digital, modular, and distributed system structure. Through five types of control lines, various control function modules and components in the system are connected to form an lighting control network, which can control landscape lighting. It can be used as the entire building automation management system (BA system), and a subsystem can be connected to the BA system through network software or run as an independent system, In terms of lighting control implementation methods, it is more professional and flexible, and can achieve dimming control or switch control of various lighting lights. It is an effective means to achieve comfortable lighting and also an effective measure for energy conservation.
The intelligent lighting control system is usually composed of dimming module, switch module, control panel, LCD touch screen, intelligent sensor, programming socket clock manager, handheld programmer, monitoring software (network bridge) and other components. The above control modules or components with independent functions are connected by five types of data communication cables (four pairs of twisted pairs) in a daisy chain manner, forming a Dyne control network.

The use of an intelligent lighting control system can achieve the following advantages and functions
1. Multi scene preset control, the night lighting effect of Wuxi International Business Center is preset to different lighting scenes such as "usual" and "holiday". Only the top lighting of the building is turned on in "normal" to create a distant view of the building in the city. From a distance, the night scene looks like "the scenery comes from the sky." During the "holiday" period, all the lights of the building are turned on to emphasize the building's momentum and highlight the perfect lighting effect of the building in the night scene.

2. Diverse control methods

The intelligent lighting control system has strong control functions, multiple methods, wide range, and high degree of automation. By implementing pre setting and storage of scenes, when operating, only one key on the control panel can be pressed to start a lighting scene mode, and each lighting circuit can automatically switch to the corresponding state. It can also be controlled through other interfaces such as remote control, on-site control, scene control, timing control, telephone control, and mobile SMS control Infrared detection and wireless remote control, on-site control, central monitoring, group combination control, linkage with other systems, wide area control, etc.

3. Air switch and power failure protection

All output circuits of intelligent control modules have circuit protection functions, which can protect and regulate four components (relays or SCR). When a circuit failure occurs, the controller also allows you to set the lighting mode for power outage recovery, which can be the on-site mode before the power outage, or any of the 170 prefabricated scenes in the controller. In addition, each controller has a startup delay (soft start), which can protect the lifespan of the lamp and prevent the occurrence of surge current causing the circuit breaker to trip incorrectly when the lamp is started.

4. Graphical User Interface

The graphical user interface is a more visual and intuitive user interface, through which users can set or modify lighting scenes for any controlled area of a building as needed, and can freely switch lighting scenes and other operations. Allow users to customize lighting scene control sequences. Event calendar can be set and has functions such as recording, reporting, and viewing.

5. Unique current detection function

The unique current detection function of the intelligent lighting control system can help managers to have a more comprehensive understanding of the working status of each circuit. This detection device can check the current and voltage situation of the lighting circuit in real time; It can accumulate the on time of each lamp and compare it with the lifespan of the lamp. The system automatically prompts the management personnel through software whether to replace the light source; At the same time, the system also has a bad light detection function. Once a damaged light is found, the software will automatically alarm.

6. Large scale control network

The scale of the distributed lighting control system network can flexibly change with the size of the lighting system. Each subnet can be connected to the backbone network through a network bridge, with a total capacity of 64 backbone networks. Each backbone network can connect 64 subnets, and each subnet can connect 64 modules. Therefore, the Dyne network can connect 262144 modules. Dy η The ET network has a strong TCP/P protocol interface, and the transmission rate of the backbone network can be adjusted through bridge settings according to the size of the network, up to 57600 baud. Due to the bridge programming settings, the Dy Net network enables information flow between various subnets and the backbone network, signal shaping, signal enhancement, adjusting transmission rate, and performing various specific logical functions to become a reality, greatly improving the reliability of cave lighting control network operation.

7. Improve management level and reduce maintenance costs

The intelligent lighting control system converts the manual opening and closing of ordinary lighting into intelligent management, which not only enables building managers to apply their high-quality management awareness to the lighting control system, but also greatly reduces the operation and maintenance costs of the building, bringing great investment returns. Generally speaking, using intelligent lighting control systems can recoup investment within 2-3 years.