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err3
- 电力仪器仪表智能独立误差计算设备系统程序!
tongxin
- 利用Visual C++实现PC机与智能仪器串口通信-Visual C++ implementation using PC, and intelligent serial communication devices
pc_zhinengyiqi
- 利用Visual C++实现PC机与多个智能仪器串口通信-Visual C++ implementation using PC, and more intelligent serial communication devices
ad_f350
- 列车集便器智能测试仪器软件,基于C8051F340单片机的汇编语言编写。-The train set toilet intelligent test equipment software, based on the C8051F340 microcontroller assembly language to write.
pc2xmt3000
- pc机与智能仪器xt3000间的通信程序。包括labview程序组-pc machine and intelligent instrument the xt3000 between the communication program. Including labview program group
calc
- 汇编程序实现单片机智能仪器键盘输入的程序,本程序可用实验仿真板验证-The assembler implementation the the MCU intelligent instrument keyboard input procedures, the procedures can be used the experimental simulation board verify
PCyuzhinengyiqichuankoutongxin
- PC与智能仪器串口通信,可实现与多种智能仪器串口通信-Serial communication between PC and intelligent instrument, the instrument can be achieved with a variety of intelligent serial communication
PC-and-intelligent-instrument
- 该程序主要实现了PC机与智能仪器串口通信程序。-The program achieved a major PC and intelligent instrument serial communication program.
zhinengwenkongyi
- 智能温控仪,基于AT89C51的智能温度控制仪器仿真-Intelligent temperature controller, based on AT89C51 intelligent temperature control instrument simulation
traffic-light-control-labview
- 基于虚拟仪器设计了智能交通信号灯的控制系统,实现信号灯按照一定规律自动交替,手动控制调节道路通行时间,时间连续显示以及不同声音提醒的多种功能.-This program designs an intelligent traffic signal control system based on virtual instrument technology. This system realizes some functions, for example, that the lights can be
dantaizhinengyiqiweidujiance
- 单台智能仪器温度检测-Single intelligent instrument temperature detection.
duotaizhinengyiqiwendujiance
- 多台智能仪器温度检测-Multiple intelligent instrument temperature detection
智能仪器连接
- labview作为上位机与智能仪器作为下位机的数据通信,及协议转化,串口通信(LabVIEW as the host computer and intelligent instrument as the lower computer data communication, and protocol conversion, serial communication)
代码转换实验
- 1.编写并调试程序,将内存中BCD码转换为二进制码,在DEBUG中查看。 2、BCD码转换为二进制码 在各种智能仪器和信息处理中,人们总习惯于十进制数来表示信息。但绝大多数计算机没有十进制运算指令(仅有十进制调整指令)。这是因为实现十进制算术运算的硬件电路要比采用二进制算术运算的硬件电路复杂得多。例如,当两个整数进行算术运算时,对一个N进制的数需记住N(N+1)/2个“积”与“和”。当N=10时,需记住55个“积”与“和”;而当N=2时,只需记住3个。从占用存储空间来看,采用二进制数比采用