Question 2 Calculate the amount of DC current required for the magnetic circuit given below to generate a flux density of 1.0T in the airgap. The details are Number of turns, N-400 The core is made up of steel, the B-H characteristic has been given below The magnetic core length, le = 500 mm The airgap length, lg 2 mm The cross-sectional area of the core, Ag 100 mm? Neglect leakage and fringing.

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Question 2 Calculate the amount of DC current required for the magnetic circuit given below to generate a
flux density of 1.0T in the airgap. The details are
Number of turns, N = 400
The core is made up of steel, the B-H characteristic has been given below
The magnetic core length, le 500 mm
The airgap length, lg 2 mm
The cross-sectional area of the core, Ag = 100 mm
Neglect leakage and fringing.
Core
Cross-sectional
()
area
v() tums
Air gap
Magnetic path
length
Figure I
2.0
B-H Curves for Various Metals
1.8
Steel
1.6
1.4
Magnetic
Saturation
1.2
1.0
0.8
Iron
0.6
0.4
Air
0.2
1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
Magnetic Field Strength - H (A/m)
Figure 2
Flux Density - B (T)
Transcribed Image Text:Question 2 Calculate the amount of DC current required for the magnetic circuit given below to generate a flux density of 1.0T in the airgap. The details are Number of turns, N = 400 The core is made up of steel, the B-H characteristic has been given below The magnetic core length, le 500 mm The airgap length, lg 2 mm The cross-sectional area of the core, Ag = 100 mm Neglect leakage and fringing. Core Cross-sectional () area v() tums Air gap Magnetic path length Figure I 2.0 B-H Curves for Various Metals 1.8 Steel 1.6 1.4 Magnetic Saturation 1.2 1.0 0.8 Iron 0.6 0.4 Air 0.2 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 Magnetic Field Strength - H (A/m) Figure 2 Flux Density - B (T)
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