EXPERIMENT-2: ANALYSIS OF THE AA CHARACTERISTIC OF THE PURE INDUCTIVE CIRCUIT 1. Set up the inductively charged alternating current circuit in Figure-1 using a 470 μH coil. Use the 192 resistor circuit current to view the waveform of the oscilloscope. Apply a sinus-shaped voltage as a voltage. 110)-> CHI ↑ الم 470 Vpp 10V V(1) + CH2 f 150 kHz + 10 + GND Figure-1 Inductively loaded alternating current circuit CH1 = CH2= 2. Measure the coil voltage (VL, CHI) and coil current (IL, CH2) waveform with oscilloscope. Draw the 2 periods of the waveforms you measure on a scale. Using the MEASURE and CURSOR menus on the oscilloscope, take the desired measurements below and record them in Table-1. Using the time / div and volt/div settings, record the measurements you have taken with the eye in Table-1. TABLE-1 (Measured and Read Values) TABLO-1 (VL) CH1 (Measured) (i) CH2 (Measured) Vmax, Imax Vpp. lpp Vrms, Irm f (frequence) T (period) (VL) CH1 (Read) (i) CH2 (Read) AT (phase difference) 3. Calculate the angular velocity (0) value by making use of the period value obtained. Using the CURSOR menu, calculate the phase difference time (AT) and period value between the current and voltage waveforms in degrees and radians using the period value. 5. Calculate the Inductive Reactance (XL) using the information obtained. Show the Impedance of the Circuit in Cartesian and Polar form. Draw the impedance in the complex plane.
EXPERIMENT-2: ANALYSIS OF THE AA CHARACTERISTIC OF THE PURE INDUCTIVE CIRCUIT 1. Set up the inductively charged alternating current circuit in Figure-1 using a 470 μH coil. Use the 192 resistor circuit current to view the waveform of the oscilloscope. Apply a sinus-shaped voltage as a voltage. 110)-> CHI ↑ الم 470 Vpp 10V V(1) + CH2 f 150 kHz + 10 + GND Figure-1 Inductively loaded alternating current circuit CH1 = CH2= 2. Measure the coil voltage (VL, CHI) and coil current (IL, CH2) waveform with oscilloscope. Draw the 2 periods of the waveforms you measure on a scale. Using the MEASURE and CURSOR menus on the oscilloscope, take the desired measurements below and record them in Table-1. Using the time / div and volt/div settings, record the measurements you have taken with the eye in Table-1. TABLE-1 (Measured and Read Values) TABLO-1 (VL) CH1 (Measured) (i) CH2 (Measured) Vmax, Imax Vpp. lpp Vrms, Irm f (frequence) T (period) (VL) CH1 (Read) (i) CH2 (Read) AT (phase difference) 3. Calculate the angular velocity (0) value by making use of the period value obtained. Using the CURSOR menu, calculate the phase difference time (AT) and period value between the current and voltage waveforms in degrees and radians using the period value. 5. Calculate the Inductive Reactance (XL) using the information obtained. Show the Impedance of the Circuit in Cartesian and Polar form. Draw the impedance in the complex plane.
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Circuit Theory
Transcribed Image Text:EXPERIMENT-2: ANALYSIS OF THE AA CHARACTERISTIC OF THE PURE INDUCTIVE
CIRCUIT
1.
Set up the inductively charged alternating current circuit in Figure-1 using a 470 μH coil. Use the 192
resistor circuit current to view the waveform of the oscilloscope. Apply a sinus-shaped voltage as a voltage.
110)->
CHI
↑
الم 470
Vpp 10V
V(1)
+ CH2
f 150 kHz
+
10
+ GND
Figure-1 Inductively loaded alternating current circuit CH1 =
CH2=
2. Measure the coil voltage (VL, CHI) and coil current (IL, CH2)
waveform with oscilloscope.
Draw the 2 periods of the waveforms you measure on a scale. Using the MEASURE and CURSOR menus
on the oscilloscope, take the desired measurements below and record them in Table-1. Using the time / div
and volt/div settings, record the measurements you have taken with the eye in Table-1.
TABLE-1 (Measured and Read Values)
TABLO-1
(VL) CH1
(Measured)
(i) CH2
(Measured)
Vmax, Imax
Vpp. lpp
Vrms, Irm
f (frequence)
T (period)
(VL) CH1
(Read)
(i) CH2
(Read)
AT (phase difference)
3. Calculate the angular velocity (0) value by making use of the period value obtained.
Using the CURSOR menu, calculate the phase difference time (AT) and period value between the current
and voltage waveforms in degrees and radians using the period value.
5.
Calculate the Inductive Reactance (XL) using the information obtained. Show the Impedance of the Circuit
in Cartesian and Polar form. Draw the impedance in the complex plane.
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