3.2 Analyze Figure 4, with the data given in the circuit, calculate the value of the inductance L to increase the power factor of the circuit to 0.99, before this value is determined, calculate the following; NB: The load consists of R2 and C (25uF). i(t) R, 30 N R2 95 1 220 cos(2760r) V VLoa() 25 uF Figure 4 – Parallel RLC circuit 3.2.1 The total impedance of the circuit (without the inductor); 3.2.2 The total apparent power of the load (without the inductor); 3.2.3 The power factor without the inductor;
3.2 Analyze Figure 4, with the data given in the circuit, calculate the value of the inductance L to increase the power factor of the circuit to 0.99, before this value is determined, calculate the following; NB: The load consists of R2 and C (25uF). i(t) R, 30 N R2 95 1 220 cos(2760r) V VLoa() 25 uF Figure 4 – Parallel RLC circuit 3.2.1 The total impedance of the circuit (without the inductor); 3.2.2 The total apparent power of the load (without the inductor); 3.2.3 The power factor without the inductor;
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:3.2 Analyze Figure 4, with the data given in the circuit, calculate
the value of the inductance L to increase the power factor of the
circuit to 0.99, before this value is determined, calculate the
following;
NB: The load consists of R2 and C (25uF).
R,
30 0
R2
95 1
220 cos(2760t) V
VLoad(t)
25 uF
Figure 4 – Parallel RLC circuit
3.2.1 The total impedance of the circuit (without the inductor);
3.2.2 The total apparent power of the load (without the inductor);
3.2.3
The
power
factor
without
the
inductor;
3.2.4 State if the power factor is leading or lagging;
3.2.5
The
value
of
the
inductor
L
required;
||
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