Virtual instrument technology is the use of high-performance, modular hardware, combined with effective and flexible software to complete a variety of test, measurement and automation applications. Flexible and effective software to help you fully customize the user interface, modular hardware to provide a full range of physical systems to facilitate integration of standard hardware and software platform to meet the synchronization and real-time applications.
     This is exactly the virtual instrument the past 10 years has led the trend of test and measurement industry the reason. Only if it has a flexible design software, modular I / O hardware and used to integrate the two major components of the virtual instrument technology to give full play to high-performance, extensible, less development time, and excellent integration of the four advantage.
     With Ethernet interface connected to the computer, and can be achieved with NI LabVIEW, NI SignalExpress, Electronics Workbench Multisim 9 and MultiMCU the close integration of software to enable teachers to carry out in many areas of teaching and research.
     Suitable for use in measuring instruments, circuits, signal processing, control design, telecommunications, machinery and electronics, physics and other courses and experiment.
     1. 100MHz Ethernet interface to the latest data acquisition in industrial Ethernet environment, but also can achieve the standard Ethernet data acquisition and remote control experiment.
     Labview offers a series of experiments, project-oriented, help students to learn the source code and circuit design and experimental description of Labview programming, in this based on the experimental requirements further, write your own test code, and completion of the learning technology of virtual instrument development.

I、
     (1) Experiment List
     (2) Values and Boolean variables, data manipulation
     (3) Font string
     (4) Array with the group
     (5) Loop and program structure
     (6) Waveform control
     (7) Advanced control operations
     (8) Sub-graphical interface design
     (9) Graphics file design operation
     (10) Network Settings
     (11) Architecture and Synchronization Timing
     (12) To establish a connection with the experimental box
     (13) Measure the voltage
     (14) To read and write IO
     (15) DA output
     (16) Control signal is generated test cases
     (17) To read test case data collected by AD
     (18) And experimental box through ComManager Communication Programs
     (19) Virtual variable power
     (20) Virtual multimeter
     (21) Virtual signal generator
     (22) Virtual IO control
     (23) Virtual sensors
     (24) Virtual Oscilloscope
     (25) Virtual Dynamic Signal Analyzer
     (26) 485 communication interface
     (27) 232 communication interface
     (28) CAN communication