基于LabVIEW虚拟示波器研发设计与实现.doc

目录 摘要 III 关键字 III Abstract IV Key words IV 第一章 绪论 1 1.1 引言 1 1.2 课题现状 1 1.3 课题的研究目的和意义 1.4 本文结构 第二章 4 2.1 Protues简介 4 2.1.1 protues VSM 功能介绍 5 2.2 Keil uV3 简介 6 2.3 LABVIEW 简介 7 第三章 系统总体设计 3.1 系统软、硬件 9 3.2 系统设计 0 第四章 详细设计与系统实现 1 4.1 硬件电路的具体设计 12 4.1.1 硬件元件的选择 12 4.1.2 硬件电路的连接 15 4.2 Keil与Proteus联机调试 16 4.3 单片机与PC机的虚拟串行通信 17 4.4 虚拟示波器程序设计 18 4.5.1 创建虚拟示波器的前面板VI 21 4.5.2 虚拟示波器的实现 23 第五章 设计总结 4 参考文献 5 致谢 6  基于LABVIEW的虚拟示波器软件设计与实现 摘要 随着科学技术的不断提高， 关键字 虚拟仪器，仿真，单片机，数据采集  Design and Implementation of the Virtual oscilloscope Based on LabVIEW Abstract With the continuous improvement of science and technology, continually expand the areas of computer applications. The emergence of virtual instrument technology into human testing a new era of development. Digital oscilloscope is often used in scientific research and laboratory a kind of desktop devices, of complex processing of such equipment is very expensive. Virtual oscilloscope an electronic measuring technology and computer technology, deep integration, has good prospects for development of a new class of electronic devices. Just configure a virtual oscilloscope with the necessary technical data acquisition hardware, the functions of the oscilloscope can be achieved, under the building for low-cost data acquisition system provides a new method. NI LABVIEW application provided with computer modular programming method, the virtual oscilloscope software. LABVIEW-based virtual oscilloscope design, hardware system uses 51 And A / D converter for data acquisition, and full use of the PROTUES and KEIL combination of simulation capabilities, hardware and software systems for simulation debugging. LABVIEW-based design and implementation of the virtual oscilloscope oscilloscope both the traditional graphical display, but also has simple, user-friendly, stable and reliable performance and lower cost. Implemented in LABVIEW environment and reality similar to the actual function of the osc