设计简介:
项目名:脉搏测量仪(实物)
项目编号:mcuclub-dz-118
单片机类型:STM32F103C8T6
具体功能:
1、通过脉搏检测模块检测脉搏,通过按键启动,10s后获取脉搏值,结束后蜂鸣器响1.5s。
2、当检测结束后,通过语音播报模块播报当前脉搏值,并提示“您的脉搏数正常”、“您的脉搏数偏高”、“您的脉搏数偏低”
3、通过按键可以设置脉搏数上下限值
4、通过OLED显示屏显示数据
总字数:15060
实物链接:点击跳转
设计说明书链接:点击跳转
开题报告链接:点击跳转
答辩PPT链接:点击跳转
摘 要
脉搏作为人们最为常见的一种生理现象,经常用来反应人们的心脏或者血管的状态,通过脉搏可以为医护人员提供对血压及其血流等生理检测的依据。当前对脉搏的检测方法和数量都较多,当前很多都是通过医院的医护人员负责的,通过按时到病房进行人工检测,然后将检测的结果记录下来,然后工作人员通过测量的数据绘制表图,根据这些表图对病人的身体健康进行判定。但是采用这种方式进行测量需要花费的时间较多,会使得医生无法及时快速根据病人的情况进行治疗,将可能导致病人错过最佳治疗时间。而采用人工进行脉搏的检测,通常需要花费的时间为10分钟内,且经常会出现记录记录出错等问题,所以对传统脉搏进行改进,可以提高脉搏的检测速度及其检测的精度。
此次设计的这款基于单片机脉搏的检测系统,该系统采用STM32单片机作为主控芯片,通过脉搏检测模块并将检测的脉搏显示在液晶显示屏OLED上,并语音播报当前监测的情况。该设备操作检测较为简单,用户也可以进行自我检测,所以此次设计具有一定的研究价值和实际意义。
关键词:脉搏监测;语音播报;OLED显示;STM32单片机
ABSTRACT
As one of the most common physiological phenomena, pulse is often used to reflect the state of people’s heart or blood vessels. Through pulse, medical personnel can provide the basis for physiological detection of blood pressure and blood flow. At present, there are many methods and quantities of pulse detection. At present, many of them are responsible by the medical staff of the hospital, who go to the ward on time for manual detection, and then record the detection results. Then the staff draw tables through the measured data, and determine the patient’s health according to these tables. However, it takes a lot of time to measure in this way, which will make doctors unable to timely and quickly treat patients according to their conditions, and may cause patients to miss the optimal treatment time. The artificial pulse detection usually takes 10 minutes, and there are often problems such as recording errors, so the improvement of the traditional pulse, can improve the pulse detection speed and detection accuracy.
The design of this pulse detection system based on single chip microcomputer, the system uses STM32 single chip microcomputer as the main control chip, pulse detection module and the detected pulse displayed on the LCD OLED, and voice broadcast the current monitoring situation. The operation and detection of the equipment is relatively simple, and users can also conduct self-detection, so the design has a certain research value and practical significance.
Key words: pulse monitoring; Voice broadcast; OLED display; STM32 single chip microcomputer
目 录
摘 要
ABSTRACT
1 绪论
2 系统设计方案
3 硬件设计
4 系统程序设计
5 实物制作与调试过程
6.1结论
6.2 未来展望
致 谢
参考文献