Department of Electrical and Electronic Engineering
Measurement Course and Application Laboratory
The Measurement Course and Application Laboratory is an educational and experimental environment where applications are carried out to measure electrical and electronic quantities accurately, reliably, and according to standards. In the laboratory, students learn to measure fundamental quantities such as voltage, current, resistance, frequency, power, phase difference, and signal characteristics, and examine the working principles of modern measuring instruments through practical applications. Through laboratory work, students gain engineering competencies in measurement accuracy, error analysis, instrument selection, and experimental data evaluation.
Experiments that can be performed
- Measurement of fundamental electrical quantities.
- Multimeter usage applications
- Signal analysis with an oscilloscope.
- AC and DC measurement techniques
- Frequency and phase measurements
- Power and energy measurements
- Measurement errors and uncertainty analysis.
- Sensor and transducer characterization
- Parameter measurements of RLC elements.
- Impedance and frequency response analyses
- Calibration and verification of measurement systems.
Measurement Course and Application Laboratory Equipment List
1. Tektronix TBS 1152B-EDU Digital Oscilloscope
- 150 MHz bandwidth
- 2 analog input channels
- 2 GS/s real-time sampling rate
- FFT (Fast Fourier Transform) analysis
- Automatic amplitude, frequency, and phase measurements.
- Internal support system for educational purposes.
- Suitable structure for signal monitoring and analysis applications.
2. GW Instek GPS-4303 DC Power Supply
- 4 independent output channels
- 0–30 V / 0–3 A adjustable outputs
- Support for serial and parallel operation.
- Low output noise and high stability.
- Overcurrent and short circuit protection features
- Designed for reliable power supply to experimental circuits.
3. GW Instek AFG-2225 Function Generator
- 25 MHz output frequency
- Dual channel signal generation
- Sine, square, triangle, and pulse waveforms.
- AM, FM, FSK, and Sweep modes
- Suitable setup for frequency response and measurement experiments.
4. Fluke 175 True-RMS Digital Multimeter
- True-RMS AC/DC measurement capability
- Measurement of voltage, current, resistance, and frequency.
- Diode and continuity test
- High measurement accuracy.
- CAT III 1000 V / CAT IV 600 V safety class
- Measurement capabilities according to industrial standards.
5. LCR-9184 Precision LCR Meter
- Measurement of inductance (L), capacitance (C), and resistance (R).
- Impedance (Z), Phase Angle (θ), Quality Factor (Q), and Loss Factor (D) measurements.
- Multiple test frequency support
- Series and parallel equivalent circuit analyses
- High measurement accuracy and stability.
- Characterization of coils, capacitors, and transformers.
- A suitable structure for examining the frequency behavior of electronic components.
Thanks to this laboratory infrastructure, students learn to effectively use measuring instruments commonly used in engineering applications, gain skills in collecting and evaluating experimental data, and acquire a strong practical foundation in measurement techniques.
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