英语翻译本文从系统方案,芯片选择,硬件电路搭建和软件设计等方面设计了一个音乐喷泉的控制系统.通过 A/D 转换芯片对音频信号进行采样和处理,结合红外线人体感应模块以及超声波模块,最终达到控制喷头流量的目的;加上彩灯控制模块,实现音频信号对灯光的控制;实现在播放不同的音乐时,灯光色彩和喷泉水姿随音乐节奏的变化而变化.测试表明,功能和技术指标达到设计要求.
2019-04-15
英语翻译
本文从系统方案,芯片选择,硬件电路搭建和软件设计等方面设计了一个音乐喷泉的控制系统.通过 A/D 转换芯片对音频信号进行采样和处理,结合红外线人体感应模块以及超声波模块,最终达到控制喷头流量的目的;加上彩灯控制模块,实现音频信号对灯光的控制;实现在播放不同的音乐时,灯光色彩和喷泉水姿随音乐节奏的变化而变化.测试表明,功能和技术指标达到设计要求.
优质解答
人工翻译,可放心采纳
From the aspects of system scheme, chip selection, hardware circuit construction, software design, and so on, this paper design a musical fountain control system. By using A / D converter chip to sample and process the audio signal, and combined with infrared human-body sensing module and ultrasonic module, the purpose of controlling the nozzle flow is ultimately achieved. In addition, by adding color lantern control module, the control of lighting by the audio signal is realized. And when playing different music, the color of the lights and the water poses of the fountains will be changed with the change of music rhythm. The tests show that the functions and technical specifications meet the design requirements.
人工翻译,可放心采纳
From the aspects of system scheme, chip selection, hardware circuit construction, software design, and so on, this paper design a musical fountain control system. By using A / D converter chip to sample and process the audio signal, and combined with infrared human-body sensing module and ultrasonic module, the purpose of controlling the nozzle flow is ultimately achieved. In addition, by adding color lantern control module, the control of lighting by the audio signal is realized. And when playing different music, the color of the lights and the water poses of the fountains will be changed with the change of music rhythm. The tests show that the functions and technical specifications meet the design requirements.