船用LED灯智能控制设计研究
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摘要
针对传统LED灯存在控制效果差的问题,提出基于RFID技术的控制设计方案。以MSP430为核心、AD/DA为外围电路设计LED控制器结构,通过CC2430微处理器终端控制模块可与路灯设备相连接。根据LED中央控制模块,设计RFID智能终端控制基本结构,通过智能终端进行数据读写与控制。依据智能控制电路,保证电流电压具有可调性。采用模块化理念,研究RFID智能控制终端核心工作流程,并计算平均电流大小,根据该电流大小,设计LED灯智能控制具体实施方案,由此实现船用LED灯智能控制。通过实验对比结果可知,该方法控制效果较好,为船舶夜晚航行提供可靠灯源。
Aiming at the problem of poor control effect of traditional LED lamp, a control design scheme based on RFID technology is proposed. The structure of LED controller is designed with MSP430 as the core and AD/DA as the peripheral circuit. The terminal control module of CC2430 microprocessor can be connected with street lamp equipment. According to the central control module of LED, the basic structure of RFID intelligent terminal control is designed, and data reading,writing and control are carried out through the intelligent terminal. According to the intelligent control circuit, the current and voltage can be adjusted. Based on the modularization concept, the core workflow of the intelligent control terminal of RFID is studied, and the average current is calculated. According to the current, the specific implementation scheme of intelligent control of the LED lamp is designed, thus realizing the intelligent control of the marine LED lamp. The experimental results show that the control effect of this method is better and reliable light source is provided for night navigation of ships.
Aiming at the problem of poor control effect of traditional LED lamp, a control design scheme based on RFID technology is proposed. The structure of LED controller is designed with MSP430 as the core and AD/DA as the peripheral circuit. The terminal control module of CC2430 microprocessor can be connected with street lamp equipment. According to the central control module of LED, the basic structure of RFID intelligent terminal control is designed, and data reading,writing and control are carried out through the intelligent terminal. According to the intelligent control circuit, the current and voltage can be adjusted. Based on the modularization concept, the core workflow of the intelligent control terminal of RFID is studied, and the average current is calculated. According to the current, the specific implementation scheme of intelligent control of the LED lamp is designed, thus realizing the intelligent control of the marine LED lamp. The experimental results show that the control effect of this method is better and reliable light source is provided for night navigation of ships.
引文
[1]林结庆,严飞飞.港口高杆灯的无线智能控制系统设计[J].水运工程, 2018, 25(7):125–128.
[2]廖慧,阳序仁.基于CC2530的LED智能照明系统的设计与实现[J].电力电子技术, 2018, 52(11):33–35.
[3]陈志飞,秦会斌,刘天昊,等.大功率智能RGB-LED照明系统的设计[J].测控技术, 2018, 37(5):132–136.
[4]曹晓燕,谢仁富,张彦敏.基于LED的水下目标高速摄像照明系统设计[J].舰船科学技术, 2014, 36(8):118–122+136.
[2]廖慧,阳序仁.基于CC2530的LED智能照明系统的设计与实现[J].电力电子技术, 2018, 52(11):33–35.
[3]陈志飞,秦会斌,刘天昊,等.大功率智能RGB-LED照明系统的设计[J].测控技术, 2018, 37(5):132–136.
[4]曹晓燕,谢仁富,张彦敏.基于LED的水下目标高速摄像照明系统设计[J].舰船科学技术, 2014, 36(8):118–122+136.