EXPERIMENT PROCEDURE: Connect the parallel RLC circuit shown above and use the multimeter to measure all the currents in the circuit and record the values in the table below. To measure the phase shift of Ic, IL, and I, add a 1002 resistor in series with the component where you want to find the angle, and use the oscilloscope to compare the phase shift between E and the voltage across the 1002 resistor. Make sure that one end of the 1002 resistor is connected to ground. RESULTS: IR(rms) OR Ic(rms) ILurms) OL I (rms) 0° ASSIGNMENT: Calculate I, Ir, Ic, and IL (magnitude and angle in rms) using theoretical equations then compare with the measured values (Use E(rms) = 2.83VZ0° ).

RLC PARALLEL CIRCUIT

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RLC PARALLEL CIRCUIT OBJECTIVE: To get familiar with the measurement of current and phase shift in a parallel sinusoidal circuit. THEORY: For an RLC parallel circuit: VR = Vc = VL = E The total impedance of a parallel circuit (ZT) is calculated as follows: Zr = +J(@C - 1 wL The total current I is calculated as follows: E R L 4V 8V pp 0.01 E I = Z720 1.0 30 uF 10KHZ ΚΩ mH Also, EZO IR = RZ0 EZO I = XcZ-90 EZ0 IL = XL<+90 EXPERIMENT PROCEDURE: Connect the parallel RLC circuit shown above and use the multimeter to measure all the currents in the circuit and record the values in the table below. To measure the phase shift of Ic, IL, and I, add a 1002 resistor in series with the component where you want to find the angle, and use the oscilloscope to compare the phase shift between E and the voltage across the 1002 resistor. Make sure that one end of the 1002 resistor is connected to ground. RESULTS: IR(rms) OR IC(rms) IL(rms) OL I (rms) 0° ASSIGNMENT: Calculate I, Ir, Ic, and IL (magnitude and angle in rms) using theoretical equations then compare with the measured values (Use E(rms) = 2.83VZ0° ).