本课程是由LabVIEW与工控机及各种多功能采集卡组成的综合性应用课程。
通过学习LabVIEW常用工具包的应用,实现数据库的读写、报表制作、PID的 了解,通过串口的应用,学习打印机、扫描枪、RFI等硬件的使用,通过采集 卡的应用,学习相关采集卡的选型、配置、安装、测试、编程开发等,在以 上各种软硬件模块的基础之上,进行多例汽车电子行业实战式项目手把手从0 到100%的全过程详细开发跟进指导
续完整体课程您将得到的收获:
1、常规PC项目方案的设计,硬件选型、风险评估
2、LabVIEW对硬件接口的使用:RS232/485、OPC、PCI、GPIB、TCP/IP等
3、独立自主使用LabVIEW开发非标自动化行业的PC参与控制的项目
4、掌握LabVIEW与PLC的项目开发实例应用
5、掌握LabVIEW与采集卡的项目开发实例应用
6、掌握LabVIEW与RS232/485通信项目开发实例应用
7、掌握LabVIEW与数据库的读写应用和实例开发
8、学习解决和咨询PC问题的一些方法和技巧
课程大纲:
A、LabVIEW系统设计模式
1、LabVIEW 标准设计模式
1.1 使用事件的顶层应用程序
1.2 标准状态机设计模式
1.3 队列消息处理器设计模式
1.4 生产者/消费者设计模式
1.5 主从设计模式
2、古典型状态机
2.1 早期界面处理状态机
2.2 顺序结构的缺陷
2.3 顺序状态机
2.4 事件状态机
3、消息队列状态机
3.1 消息队列状态机的基本结构
3.2 消息队列状态机的基本结构
3.3 进入、运行和离开状态的处理
3.4 事件驱动方式消息队列状态机
4、案例分析和动手实践
B、LabVIEW通信和OPC
1、LabVIEW 串口通信
1.1 串口通信基本概念
1.2 串口通信函数
1.3 串口通信典型应用案例
2、数据库与报表工具包
2.1 准备使用数据库工具包
2.2 数据库基本操作
2.3 报表工具包
2.4 利用工具包操作EXCEL/word
3、OPC通信
3.1 OPC基本概念
3.2 OPC配置
3.3 共享变量
3.4 PLC硬件通信实践
4、案例分析和动手实践
4.1 常用串口助手工具开发
4.2 LabVIEW与S7200/300 PLC通信实例
4.3 LabVIEW与扫描枪 打印机程序的应用实例
4.4 自定义系统需求设计与答疑
C.LabVIEW与采集卡控制
1、数据采集的基本概念
1.1 信号
1.2 传感器
1.3 信号处理
2、数据采集卡
2.1 采集卡定义和分类
2.2 采集卡的关键参数和概念
2.3 采集卡与信号接地
3、基于采集卡的编程开发与应用
3.1 采集系统的安装
3.2 NI采集卡的常用函数
3.3 研华采集卡的常用函数
4、案例分析和动手实践
4.1 NI采集卡程序开发
4.2 追溯系统案例分解
4.3 软件设计架构
Course overview:
This course is a comprehensive application of LabVIEW and industrial control
computer and all kinds of function acquisition cards.
Through learning the application of commonly used toolkit of the LabVIEW , the
students can read/write the database, make report forms, understand PID, through
the application of the serial port, the students can learn the use of the printer,
scanner, RFI and other hardware, through the application of data acquisition card,
the students can learn the selection, configuration, installation, testing and
programming of the acquisition card. On the basis of the above various hardware
and software modules, the students can participate many cases of automotive
electronics industry actual project and be taught hand by hand from 0 to 100% with
the development of the whole process.
After the whole body course you will learn :
1, conventional PC project design, hardware selection, risk assessment.
2, LabVIEW on the use of hardware interface: RS232/485, OPC, PCI, GPIB, TCP/IP, etc.
3, the independent use of LabVIEW to develop of non-standard automation industry with PC participation in the control of the project.
4, master LabVIEW and PLC project development case application.
5, master LabVIEW and acquisition card project development case application.
6, master LabVIEW and RS232/485 communication project development case application.
7, master LabVIEW and database reading and writing applications and examples of development.
8. Learn some methods and techniques for solving and consulting PC problems.
Curriculum outline:
A, LabVIEW system design patterns
1, LabVIEW standard design mode
1.1 top applications of using events
1.2 design pattern of standard state machine
1.3 design pattern of queue message processor
1.4 producer / consumer Design Patterns
1.5 master/slave design pattern
2, Classical state machine
2.1 early interface processing state machine
2.2 defect of sequential structure
2.3 sequential state machine
2.4 event state machine
3, Message queue state machine
3.1 the basic structure of the message queue state machine
3.2 to enter, run and leave the state of the processing
3.3 event driven mode message queue state machine
4, Case analysis and Practice
B, LabVIEW communication and OPC
1, LabVIEW serial communication
1.1 basic concepts of serial communication
1.2 serial communication function
1.3 typical application case of serial communication
2, Database and reporting form tool kit
2.1 ready to use database Toolkit
2.2 basic database operations
2.3 reporting form tool kit
2.4 use the tool kit to operate EXCEL/Word
3, OPC communication
3.1 basic concepts of OPC
3.2 OPC configuration
3.3 shared variables
3.4 PLC hardware communication practice
4, Case analysis and Practice
4.1 commonly used serial port assistant tool development
4.2 LabVIEW and PLC S7200/300 communication example
4.3 application example of LabVIEW and scanning gun/printer program
4.4 customed system requirements design and answer questions
C. LabVIEW and acquisition card control
1, The basic concept of data collection
1.1 signal
1.2 sensors
1.3 signal processing
2, Data acquisition card
2.1 acquisition card definition and classification
2.2 key parameters and concepts of acquisition card
2.3 acquisition card and signal grounding
3, Based on the development and application of the acquisition card programming
3.1 installation of acquisition system
3.2 commonly used function of the NI acquisition card
3.3 acquisition card function
4, Case analysis and Practice
4.1 NI acquisition card program development
4.2 traceability system case decomposition
4.3 software design architecture
