Title:

Measurement of Physical Quantities

Code:IMFV
Ac.Year:ukončen 2010/2011
Term:Summer
Curriculums:
ProgrammeBranchYearDuty
IT-BC-3BIT-Elective
Language:Czech
Credits:6
Completion:accreditation+exam (written)
Type of
instruction:
Hour/semLecturesSem. ExercisesLab. exercisesComp. exercisesOther
Hours:2603900
 ExaminationTestsExercisesLaboratoriesOther
Points:7003000
Guarantee:Bejček Ludvík, doc. Ing., CSc., DAME
Faculty:Faculty of Electrical Engineering and Communication BUT
Department:Department of Control and Instrumentation FEEC BUT
 
Learning objectives:
  The goal of the course is to introduce students to the basic modern solutions and methods of physical quantities measurements. These represent more than 95 % of all measured quantities in the laboratory and industrial areas. The course should also present sensor and physical quantities measurements importance in technical and non-technical fields, science and generally in information technologies.
Description:
  The course presents basic sensor principles, their parameters and construction. It deals with instrumentation, non-electrical quantities measurements concepts and procedures. It also presents the differences between conventional electrical measurements of the electrical quantities and non-electrical quantities on the real industry systems. Also the optical sensors, optical fibre sensors, data collecting and acquisition processes are presented.
Knowledge and skills required for the course:
  Fundamentals of physics, electrical and electronic engineering.
Learning outcomes and competences:
  Course graduate should get basic knowledge and facilities in sensor field and the most commonly measured non-electrical quantities, including measurement concept design and results process and evaluation.
Syllabus of lectures:
 
  1. Introduction, basic terms, sensor and instrumentation concepts, sensor construction.
  2. Position and dimensions measurements.
  3. Velocity and acceleration measurements.
  4. Forces, pressures and weight measurements.
  5. Deformations and force moment measurements.
  6. Vibration measurements.
  7. Temperature, heat and thermal flow measurements.
  8. Flow measurements.
  9. Emission measurements (light, infrared, UV).
  10. Ionizating emission measurements.
  11. Material composition and humidity measurements.
  12. Protection technique measurements (monitoring).
  13. Measurement system for data collecting, acquisition and presentation, local networks.
Syllabus of laboratory exercises:
 
  • Introduction (organisation, safety and next).
  • Position and dimensions measurements (inductance, capacitance and photoelectric sensors, fibre glass and next).
  • Velocity and acceleration measurements (linear and angle velocity, contact and non-contact methods, optical methods).
  • Forces, pressure and weight measurements (metal and semiconductor strain gauges).
  • Vibration measurements (piezoelectric sensors, multianalyzer PULSE).
  • Contact temperature measurements (metal, semiconductor and intelligent sensors) and non-contact temperature measurements (radiation pyrometers).
  • Flow measurements (special flow measurement laboratory).
  • Emission measurements (UV, VIS, IR).
  • Material composition measurements (CO2, pH measurements and next).
  • Basic fibre glass sensors and their applications.
  • Free theme.
  • Class credit.
Controlled instruction:
  It is necessary to participate in all 10 laboratory practical lessons.
Progress assessment:
  Preparedness checking in practical lessons. Two term tests.
Exam prerequisites:
  It is necessary to participate in all 10 laboratory practical lessons and two tests. And to elaborate 3 complete protocols from selected laboratory themes.