The
low-voltage release of an a.c. motor-starter consists of a solenoid
into which an iron plunger is drawn against a spring. The resistance of
the solenoid is 35 ohm. When connected to a 220 V, 50 Hz, a.c. 2supply
the current taken is at first 2A, and when the plunger is drawn into the
“full-in” position the current falls to 0.7 A. Calculate the inductance
of the solenoid for both positions of the plunger, and the maximum
value of flux-linkages in weber-turns for the “full-in” position of the
plunger.
If you are noticing some error in problems kindly comment below.Thanks
Given
R = 35 ohm
V = 220 V
F = 50 Hz
Iinitial = 2 A
Ifinal = 0.7 A
To find
1. Inductance of solenoid at initial position
2. Inductance of solenoid at final(plunger in) position
3. Maximum value of flux linkage in weber turns
Solution
Initial Impedence Zinitial = V/ Iinitial
= 220 / 2
= 110 ohm
Impedence 2 = Reactance2 + Resistance2
Reactance Xinitial = √ (Zinitial2 – Resistance2)
= √ (1102 - 352)
= 104.25 ohm
X = 2 x Pi x F x L
104.25 = 2 x 3.14 x 50 x Linitial
1. Linitial = 104.225 / (2 x 3.14 x 50)
= 0.332 Henry
When plunger is in Impedence Zfinal = V / Ifinal
= 220 / 0.7
= 314.28 ohm
Reactance Xfinal = √ (Zfinal2 – Resistance
= √ (314.282 - 352)
= √ (314.282 - 352)
= 312.3 ohm
X = 2 x Pi x F x L
312.3 = 2 x 3.14 x 50 x Lfinal
2. Lfinal = 312.3 / (2 x 3.14 x 50)
= 0.995 Henry
3. Maximum flux linkage = inductance x peak value of current
= 0.995 x √ 2 x 0.7
= 0.985 Weber Turns
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