INSTRUMENTATION AND CONTROL ELECTRICAL ENGINEERING 5. Enable CH1 and CH2 on the oscilloscope. 6. Adjust the vertical scale (voltage per division) for clear signals. 7. Set the time base so that at least one full cycle is visible. 8. Use CH1 as the trigger source for a stable waveform. 9. Measure Vin (input) and Vout (output) peak-to-peak voltages. Write your measurements on the Table 2.1. 10. Measure the time period (T) of one cycle and calculate the frequency ƒ== Y Phase Shift 11. Measure the time delay, At between the peaks of Vin and Vout. 12. Calculate phase difference (or phase shift) using 0 =(竿) × 360° T 13. Observe how Vout decreases compared to Vin as frequency increases. 0 Frequency (Hz) ξε Vin Vout Time Period (V) (V) (ms) Time Delay At (ms) Phase Difference 80°) 100 Hz 500 Hz 1 kHz 5 kHz CS Scanned with CamScanner Table 2.1. Measurements using Analog Oscilloscope 13. Calibrate the Channel 2 (CH2) using the same procedure. RC Low-Pass Filter Circuit Analysis using Analog Oscilloscope 1. Assemble the circuit on a breadboard as per the diagram. 2. Connect CH1 probe to Vin (input from function generator). 3. Connect CH2 probe to Vout (capacitor voltage). 4. Set the function generator to a 1 kHz sine wave (2V peak-to-peak). 2 Vpp R1 1 kHz 10k 1uF 150191/1/2012 C1 A B C D

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INSTRUMENTATION AND CONTROL ELECTRICAL ENGINEERING 5. Enable CH1 and CH2 on the oscilloscope. 6. Adjust the vertical scale (voltage per division) for clear signals. 7. Set the time base so that at least one full cycle is visible. 8. Use CH1 as the trigger source for a stable waveform. 9. Measure Vin (input) and Vout (output) peak-to-peak voltages. Write your measurements on the Table 2.1. 10. Measure the time period (T) of one cycle and calculate the frequency ƒ== Y Phase Shift 11. Measure the time delay, At between the peaks of Vin and Vout. 12. Calculate phase difference (or phase shift) using 0 =(竿) × 360° T 13. Observe how Vout decreases compared to Vin as frequency increases. 0 Frequency (Hz) ξε Vin Vout Time Period (V) (V) (ms) Time Delay At (ms) Phase Difference 80°) 100 Hz 500 Hz 1 kHz 5 kHz CS Scanned with CamScanner Table 2.1. Measurements using Analog Oscilloscope

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13. Calibrate the Channel 2 (CH2) using the same procedure. RC Low-Pass Filter Circuit Analysis using Analog Oscilloscope 1. Assemble the circuit on a breadboard as per the diagram. 2. Connect CH1 probe to Vin (input from function generator). 3. Connect CH2 probe to Vout (capacitor voltage). 4. Set the function generator to a 1 kHz sine wave (2V peak-to-peak). 2 Vpp R1 1 kHz 10k 1uF 150191/1/2012 C1 A B C D