Q1. Figure 1 shows the magnetic circuit with cross section area of core, 1000 mm? and current source, 10 mA. By assuming the absolute permeability of core is 2.513x103 H/m, analyze the circuit and determine the following parameters: a. Draw the equivalent Ampere Circuital Law model b. Total reluctance of magnetic circuit c. Magnetic flux at centre and both sided
Q1. Figure 1 shows the magnetic circuit with cross section area of core, 1000 mm? and current source, 10 mA. By assuming the absolute permeability of core is 2.513x103 H/m, analyze the circuit and determine the following parameters: a. Draw the equivalent Ampere Circuital Law model b. Total reluctance of magnetic circuit c. Magnetic flux at centre and both sided
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Q1. Figure 1 shows the magnetic circuit with cross section area of core, 1000 mm2
and current source, 10 mA. By assuming the absolute permeability of core is
2.513x103 H/m, analyze the circuit and determine the following parameters:
a. Draw the equivalent Ampere Circuital Law model
b. Total reluctance of magnetic circuit
c. Magnetic flux at centre and both sided
d. Magnetic flux density at centre and air gaps
e. Magnetic flux strength at centre and air gaps
f. Briefly explain, effect to the magnetic circuit if the length of air gaps keep
decreasing and increasing.
at
7 cm
30 cm
30 cm
7 cm
7 cm
30 cm
1 cm
400 turns
1 cm
7 cm
Figure 1
B-H CURVE
BIT)
16
Sheet steel
Cast steel
14
12
1.0
08
Cast iron
0.6
04
0.2
H(AUm)
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
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