论文编号:JD1029 论文字数:24592,页数:45
摘 要
肿瘤热疗是一门利用热的生物效应治疗肿瘤的科学,近20年来由于多学科协同攻关对这一技术有了深入的认识。肿瘤热疗已成为继手术、化疗、放疗和生物治疗之后的又一重要治癌手段。腔形肿瘤热疗仪的核心任务是对腔体内的流体温度的测量与控制,这也就是本课题的主要任务。选择合适的温度传感器是本论文研究的前提。本文选择AD590作为温度传感器。
本文介绍了腹腔内温热灌注化疗仪的系统构成和各种功能模块的工作原理。在温度测量中,采用AD590作为温度传感器,ADC0809作为模/数转换器,利用80C51控制继电器,实现了高精度的温度测量(±0.1ºC)和温度控制(±0.3ºC)。本电路设计简洁,工作稳定可靠。
通过单片机和软件实现的自动温度控制系统具有很重要的应有价值,随着技术的不断完善和传感器的发展,热疗将会在治疗癌症过程中发挥重要作用。
关键词:AD590;ADC0809;热疗;温度控制
Design of Heat Therapy of Tumor Temperature Control System
ABSTRACT
Hyperthermia is a science of using thermal bio-effect to treat tumors, which in recent 20 years has been further known on the basics of different subjects working together. Hyperthermia is another important treatment for cancer which followed by surgery, chemical therapy radio therapy and bio-therapy. The main task of Hyperthermia is to measure and control the fluid in cavity, which is to be presented in this paper. The suitable temperature sensor is also important, AD590 has been choosen in this paper.
This paper aims to introduce the compositions, working theories and functions of Heat Therapy of Tumor Temperature Control System. The exacted temperature can be measured and controlled. Through AD590 as a temperature sensors,ADC0809 as A/D transducer, 80C51 as a controller of relay, the circuit’s construction is concise. Experiments show that the intelligent instrument is not only accurate, but also stable.
It is valuable to automatically take control of temperature through MCU and software. With the constant improvement in technology and the development of sensors, Heat Therapy will play an important role in the treatment of cancer.
KEYWORDS:AD590;ADC0809;Heat Therapy;Temperature Control
目 录
引 言1
第1章 绪论2
1.1 高温治疗的物理基础2
1.2 临床测温控温的要求3
1.3 热疗的发展趋势及目前存在的问题3
1.4 课题的作用4
第2章 系统方案的选择5
2.1 系统方案方块图5
第3章 温度信号的采集与放大6
3.1 AD590的简介6
3.2 信号放大器的设计7
3.3 AD590的应用电路9
第4章 单片机系统10
4.1 模数转换器的选择11
4.1.1 典型A/D转换器芯片ADC080911
4.1.2 ADC0809与80C51的接口13
4.2 80C51时钟电路14
4.3 复位电路15
4.4 LED显示接口电路17
4.5 控制策略18
第5章 软件部分20
5.1 软件流程图20
5.2 软件介绍20
5.2.1 A/D 转换测量子程序20
5.2.2 温度计算子程序21
5.2.3温度值转换为十进制数程序21
5.2.4 显示子程序22
5.2.5延时子程序23
5.2.6继电器控制子程序23
结论与展望24
致 谢25
参考文献26
附录A 硬件电路图27
附录B 外文文献及翻译28
附录C 主要参考文献及摘要35
附录D 参考程序37
腔型肿瘤热疗仪温度控制系统设计......