Q3. An inductive sensor setup is given in figure and the parameters are given in table. The setup is responsivethe position of armature which moves in on y axis.Permability of airRelative permability of coretotal flux lenght on core (Armature+Field) (mm)1,25664E-0610000100Crossectional area of core(mm^2)36air gap width (mm)dNumber of turns1604length of coil (mm)specific resistivity of copper (Ohm - mm²/m)10* number of turns0,0171Crossectional area of wire (mm^2)1,20Source frequency (Hz)100fixedSupply voltage V10VAC(a) Draw magnetic circuit and calculate the total magnetic reluctance of the setup as a function of d.(b) Draw the corresponding electric circuit of setup and calculate the current flowing through the coil ifthe supply voltage magnitude 10V and frequency is 100 Hz.(c) Calculate the magnetic flux passing through air gap

Permeability of air, μo = 1.25 × 10-6 H/m Relative permeability of core, μr = 10000 H/m Total flux…

Q3. An inductive sensor setup is given in figure and the parameters are given in table. The setup is responsive the position of armature which moves in on y axis. Permability of air 1,25664E-06 Relative permability of core 10000 total flux lenght on core (Armature+Field) (mm) Crossectional area of core(mm^2) 100 36 7 1604 10* number of turns air gap width (mm) dI Number of turns length of coil (mm) specific resistivity of copper (Ohm · mm²/m) Crossectional area of wire (mm^2) 0,0171 1,20 Source frequency (Hz) Supply voltage V 100 10 fixed VẠC (a) Draw magnetic circuit and calculate the total magnetic reluctance of the setup as a function of d. (b) Draw the corresponding electric circuit of setup and calculate the current flowing through the coil if the supply voltage magnitude 10V and frequency is 100 Hz. (c) Calculate the magnetic flux passing through air gap

Q3. An inductive sensor setup is given in figure and the parameters are given in table. The setup is responsive the position of armature which moves in on y axis. Permability of air 1,25664E-06 Relative permability of core 10000 total flux lenght on core (Armature+Field) (mm) Crossectional area of core(mm^2) 100 36 7 1604 10* number of turns air gap width (mm) dI Number of turns length of coil (mm) specific resistivity of copper (Ohm · mm²/m) Crossectional area of wire (mm^2) 0,0171 1,20 Source frequency (Hz) Supply voltage V 100 10 fixed VẠC (a) Draw magnetic circuit and calculate the total magnetic reluctance of the setup as a function of d. (b) Draw the corresponding electric circuit of setup and calculate the current flowing through the coil if the supply voltage magnitude 10V and frequency is 100 Hz. (c) Calculate the magnetic flux passing through air gap

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Question

Q3. An inductive sensor setup is given in figure and the parameters are given in table. The setup is responsive
the position of armature which moves in on y axis.
Permability of air
Relative permability of core
total flux lenght on core (Armature+Field) (mm)
1,25664E-06
10000
100
Crossectional area of core(mm^2)
36
air gap width (mm)
d
Number of turns
1604
length of coil (mm)
specific resistivity of copper (Ohm - mm²/m)
10* number of turns
0,0171
Crossectional area of wire (mm^2)
1,20
Source frequency (Hz)
100
fixed
Supply voltage V
10
VAC
(a) Draw magnetic circuit and calculate the total magnetic reluctance of the setup as a function of d.
(b) Draw the corresponding electric circuit of setup and calculate the current flowing through the coil if
the supply voltage magnitude 10V and frequency is 100 Hz.
(c) Calculate the magnetic flux passing through air gap

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