SylabUZ
PL | EN |
  • Language
  • polski
  • english
  • Obtain login and password
  • User's manual (available after logging in)
  • Login

SylabUZ

  1. SylabUZ
  2. Faculty of Computer Science, Electrical Engineering and Automatics
  3. winter term 2022/2023
  4. Computer Science - Second-cycle Erasmus programme
  5. Software for measurement and control equipment
Generate PDF for this page

Software for measurement and control equipment - course description

General information
Course name Software for measurement and control equipment
Course ID 11.3-WE-INFD-SforMandCE-Er
Faculty Faculty of Computer Science, Electrical Engineering and Automatics
Field of study Computer Science
Education profile academic
Level of studies Second-cycle Erasmus programme
Beginning semester winter term 2022/2023
Course information
Semester 3
ECTS credits to win 4
Course type obligatory
Teaching language english
Author of syllabus
  • dr inż. Leszek Furmankiewicz
Classes forms
The class form Hours per semester (full-time) Hours per week (full-time) Hours per semester (part-time) Hours per week (part-time) Form of assignment
Laboratory 30 2 - - Credit with grade

Aim of the course

Forming the design skills of software for local and distributed measurement systems and measurement and control systems.

Prerequisites

Visualization systems. 

Scope

Programmable Automatic Controllers (PAC). Creating software and visualization for PAC of B&R company.

Software for Data Acquisition Systems using LabView. Creating software for  measurement and control system based on NI USB -6008 acquisition system.

Standard Commands for Programmable Instruments (SCPI). Creating software for IEEE-488.2 controller for cooperation with HP34401 multimeter and Keysight 33210A generator.

Internet technology  in measuring systems. Programming the laboratory measuring instruments using the LXI interface.

Visualization of industrial measuring transducers networks. Designing software for a Modbus master using the LabWindows / CVI environment.

Slave node of Modbus network. Software design for the Modbus slave implemented on the basis of the Arduino platform.

 

Teaching methods

Laboratory exercises.

Learning outcomes and methods of theirs verification

Outcome description Outcome symbols Methods of verification The class form

Assignment conditions

Laboratory – the passing condition is to obtain positive marks from all laboratory exercises to be planned during the semester.

Recommended reading

  1. Caristi A., J.:  IEEE-488 General Purpose Instrumentation Bus Manual, Academic Press, INC., San Diego, California, 1992
  2. Johnson G.W, Jennings R.: LabVIEW Graphical Programming. McGraw-Hill Professional, 2006
  3. Khalid S.F.: LabWindows/CVI Programming for Beginners. Prentice Hall PTR, 2000.
  4. Yik Y.: LabView Graphical Programming CookBook. Packt Publishing, 2016.
  5. Rinaldi John.S., Lydon Williman P.: The Everyman's Guide to Modbus.   CreateSpace Independent Publishing Platform, 2015. 

Further reading

1. Khalid S.F.: Advanced Topics in Labwindows/CVI. Prentice Hall PTR, 2001.

2. Collins K.: PLC Programming for Industrial Automation. Kindle edition, 2016. 

Notes


Modified by dr inż. Leszek Furmankiewicz (last modification: 15-04-2022 10:40)

SylabUZ

(Build 175) © 2016 Computer Center - University of Zielona Góra