项目编号:mcuclub-jj-030
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51实物链接:点击跳转
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总字数:12000+
摘 要
伴随社会发展,现代工程对温度控制要求很高。传统温度控制系统一般采用模拟电路控制技术,结果是温度控制达不到相应的要求。因此,设计一种较高级别的温度控制系统将会具有很重要的意义。洗浴行业遍布全国各地,合理的进行水温控制无疑是具有很大的社会利益。本文模拟浴室水温控制箱对水温进行控制,使其能更好的为大众服务。
本系统设计以浴室温度控制为出发点,采用模块化设计,以使用最为广泛的单片机 STM32作为系统核心;通过DS18B20检测环境温度,通过另一个DS18B20检测镜子温度,当开启防雾模式时,自动加热或制冷浴室镜;通过触发型光敏检测模块检测是否光照过暗;通过D203S人体热释电检测是否有人,如果有人,且光照过暗,则自动打开氛围灯(继电器);通过按键手动开关氛围灯、切换防雾模式。本系统基本完成系统的功能,期望满足未来大家对洗浴生活的体验感。
关键词: STM32;防雾镜;DS18B20;继电器
Abstract
With the development of society, modern engineering requires high temperature control. The traditional temperature control system generally adopts analog circuit control technology, and the result is that the temperature control cannot meet the corresponding requirements. Therefore, it is of great significance to design a higher level temperature control system. Bathing industry is spread all over the country, so reasonable water temperature control is undoubtedly of great social interest. This paper simulates the bathroom water temperature control box to control the water temperature, so that it can better serve the public.
This system design takes the bathroom temperature control as the starting point, adopts the modular design, and takes the most widely used microcontroller STM32 as the system core; The ambient temperature is detected through DS18B20, and the mirror temperature is detected through another DS18B20. When the anti fog mode is turned on, the bathroom mirror is automatically heated or cooled; The touch sensitive detection module detects whether the light is too dark; Detect whether there is someone through D203S human body pyroelectricity. If there is someone and the light is too dark, the atmosphere lamp (relay) will be turned on automatically; Press the key to manually switch the atmosphere lamp and switch the anti fog mode. This system basically completes the function of the system, hoping to satisfy everyone’s sense of experience of bath life in the future.
Key words: STM32; Anti fog mirror; DS18B20; relay目录
摘 要
Abstract
绪论
2 防雾镜系统的重要设计方案
3 防雾镜系统的硬件设计
4 防雾镜系统软件设计
5 软硬件综合调试
6总结与展望
参考文献
附录
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