Among the intelligent lighting control systems, electronic induction technology occupies a very important position. Through the combination of electromagnetic voltage regulation and electronic induction technology, the corresponding unified system is used as the basic platform for operation. The actual power supply, power consumption, current, voltage is tracked, controlled, and regulated to ensure that the residents are provided with safer and more convenient power supply and service. Through the analysis of the current intelligent lighting system used in my country’s construction industry, it can be divided into two categories: the first category, a grid of two-line intelligent lighting control system; the second category, line lighting control system. The first type of system can realize the automatic control of the lighting conditions through the cooperation of various systems. It can create a more comfortable lighting environment for the residents according to the actual needs of the residents. It can also protect the lamps and extend the lamps by controlling the voltage and current.
The main operation mode of the building automation system is integrated control by the central computer, and the various control subsystems cooperate together. It is an automation system with high requirements for comprehensiveness and integrity. In the current building automation system, the main use is sensor technology, and modern communication technology will be used in many control systems. It also adopts a networked control method, and the basic data of the front-end equipment is comprehensively managed by each subsystem. The scientific and perfect building automation system can reasonably allocate heating, ventilation, air conditioning, drainage, power distribution, safety, fire control, and other systems. The main effects of building automation systems on the lives of residents are:
First, the subsystem collects and accesses the actual data to provide a basis for the overall control of the building; second, the integrated processing of the central computer is conducive to the formulation of control strategies for ventilation, air conditioning, power distribution, and security; Thirdly, the information data collected by the automation system can be printed to facilitate the later maintenance and repair work; finally, by analyzing the collected data, the operation trends of each system can be analyzed to ensure the safety of the entire automation system.
Combining the building automation system with the intelligent lighting system can give full play to the value of electric energy, optimize the allocation of electric power resources, save electricity consumption for users, and save electric power resources. The current social integration theory and intelligent control technology are becoming more and more perfect, and the theoretical basis and practical experience are already available, which provides a good foundation for the combination of building automation systems and intelligent lighting control systems.
Building automation systems and intelligent lighting control technology integration methods are diverse, these methods have their own characteristics and have their own unique scope of application. Therefore, which integration method to choose depends on the actual situation of the building and the actual needs of the residents. Scientifically choosing a reasonable integration method can maximize the role of the integrated system. When choosing an integrated system, or when determining whether the integrated system meets our needs, we can consider the following aspects:
First, whether the degree of integration of building an automatic control system and intelligent lighting control technology meets the needs of residents. Different integration methods will show different integration effects in different building structures. If this integration effect can meet the needs of residents and can provide personalized and intelligent services for residents, then this integration method is effective. At the most basic level, there is a cooperative relationship between the building automatic control system and the intelligent lighting control system. Once the system affects the operation of each, then this integration method is not suitable.
Second, whether the building automation system and intelligent lighting control technology integration system are simple. The building’s automatic control system and the intelligent lighting control system are two independent systems during operation. After integration, the local network transmission of each system is smooth, and it will not hinder the wiring work in the design. It is a good integration method. That is to say, when we choose the integration of building automation systems and intelligent lighting control technology, in addition to considering whether the independent operation of each system is smooth, we must also consider the basic wiring work, which is the basis of system control.
Third, the integrated system of building an automatic control system and intelligent lighting control technology has reliability. To achieve integrated control of these systems, it is necessary to ensure that each system uses the same IP address so that comprehensive control of these systems can be achieved, system stability is increased, and errors that may occur are reduced.
Fourth, whether the building automatic control system is compatible with the intelligent lighting control technology integration system. Due to the large number of hardware devices used in the integrated system, it is necessary to consider whether these devices are compatible before selecting devices to prevent system failures due to compatibility issues during actual operation.
Fifth, whether the building automation system and intelligent lighting control technology integration system are operable. The operation method of the integrated system should be as simple as possible to facilitate the operation of the residents and improve the operability of the system. At the same time, the quality of each system must be guaranteed to prevent the value of the system from being reduced due to quality problems.