Radioelectronic Measurement

Lecturer:

Tutor:

Supervisor:

Department of Radioelectronics

Synopsis:

The aim of the lectures is to explain a basic measurement methods which are used by measurement, testing and calibration in high frequency analogue and digital technique. Besides measurement methods an attention is also paid to modern HF devices and systems for automatic measurements. The exercises are focused on practical HF laboratory technique.

Requirements:

Syllabus of lectures:

1. Resistors, inductors and capacitors in measurement circuits, standards

2. Resonant circuits, resonant measurement methods, meas. of a quality factor

3. Measurements in lumped circuits

4. Meas. in circuits involving distributed constants, time domain reflectometry

5. Measurement in fibre optic circuits, attenuation, disperse, reflectometry

6. Measurement of HF parameters of semiconductor devices

7. Meas. of HF voltage and current, detectors, selective and vector voltmeters

8. Measurement of HF power, bolometers, bridges, calorimeters

9. Measurement of electromagnetic field intensity, receivers, antennas

10. Signal parameters measurement, modulation, distortion, spectrum analyzers

11. Frequency and time measurement, frequency standards, calibration

12. Signal generators, synthesizers, impulse generators

13. HF standards, calibration procedure

14. Systems for automatic measurements, IEEE-488 bus

Syllabus of tutorials:

1. Introduction to lab. experiments, regulations for exper. work, safety regulations

2. Resonance met. for determination of the properties of components of RF circuits

3. Slotted line experiment, measurement VSWR, reflection coefficient

4. Measurement of piezoelectric resonator parameters

5. Vector measurements of high frequency networks, matching

6. Measurement of HF transistor scattering parameters (s11,s12,s21,s22)

7. RC oscillator experiment (measurement of frequency, stability, harm. distortion)

8. Design and measurement of antialiasig filter

9. Precise frequency measurement (long and short stability)

10. Oscilloscopes methods of signal parameters measurement

11. Modulation parameters measurement

12. LF and RF components measurement

13. Microwave component measurement (10 GHz frequency band)

14. Final evaluation, check and compensatory measurement

Study Objective:

Study materials:

[1] Witte, R.A.: Electronic Test Instruments - Theory and Applications. Englewood Cliffs, NJ07632, Prentice Hall PTR, 1991

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Elektronika a sdělovací technika-bakalářský blok (compulsory elective course)
• Elektronika a sdělovací technika-bakalářský blok (compulsory elective course)