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文档编号:DQ280 文档字数:16694,页数:31 激光器驱动与控制电路设计 目前,半导体激光器以其转换效率高、体积小,质量轻,可靠性高,能直接调制以及能与其他半导体器件集成等优势近年来发展一直很迅猛,已经广泛应用于通信、光学数据存储、固体激光器泵浦、材料加工精密测量、生物医疗等领域。本次设计任务要求设计一款电路系统来完成激光器的驱动、控制、温度监控,最终实现让激光器输出稳定的光功率,并且功率可以在0-8W内调节。本次设计的硬件部分是采用单片机对温度测温模块检测、监控,利用单片机完成人机交互,通过单片机控制激光器电源。软件设计部分有A\D、D\A硬件控制,包括对数码管、按键等驱动,同时进行功率采集,并采用PID算法保证快速稳定响应输入功率。此次文档包括了激光器原理介绍,控制器原理介绍,电源测试数据,温度模块测试数据,激光器功率测试数据,以及原理图设计,PCB设计。 At present, semiconductor laser,relies on its high conversion efficiency, small volume, light quality, high reliability and on being directly modulated and integrated with other semiconductor devices, has developed rapidly. And it has been widely used in communication, optical data storage, solid laser pumps, material processing precision measurement, biological and medical treatment, etc. This design requires a circuit system designed to complete the driver and control of laser, temperature control, and finally achieve the stability of output power to laser light, and can adjust powers that ranged from zero to eight watt. The design of the hardware is to control the power supply of laser by the Single Chip Micyoco check and monitor the module of measuring temperature, and by the module of Single Chip Micyoco control man-machine interactive interface. And the software involves AD, DA hardware control, including the drives of nixietube, keystokes and so on. To guarantee the response power input are stable and rapid, for instance, the control of laser power supply, the collection of software power and comparing with the input power(Stabilify power with PID algorithm). 目 录
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| Tags:激光器 驱动 控制 电路设计 | 2011-06-28 16:47:16【返回顶部】 |
