2. In the Figure 23.10, a 4-winding transformer is shown along with number of turns of the windings. The first winding i
Posted: Tue Jun 07, 2022 11:10 am
2. In the Figure 23.10, a 4-winding transformer is shown along
with number of turns of the windings. The first winding is
energized with 200 V, 50 Hz supply. Across the 2nd winding a pure
inductive reactance XL = 20 Ω is connected. Across the 3rdwinding a
pure resistance R = 15 Ω and across the 4th winding a capacitive
reactance of XC = 10 Ω are connected. Calculate the input current
and the power factor at which it is drawn. 2. In the Figure 23.10,
a 4-winding transformer is shown along with number of turns of the
windings. The first winding is energized with 200 V, 50 Hz supply.
Across the 2nd winding a pure inductive reactance XL = 20 Ω is
connected. Across the 3rd winding a pure resistance R = 15 Ω and
across the 4th winding a capacitive reactance of XC = 10 Ω are
connected. Calculate the input current and the power factor at
which it is drawn. 2. In the Figure 23.10, a 4-winding transformer
is shown along with number of turns of the windings. The first
winding is energized with 200 V, 50 Hz supply. Across the 2nd
winding a pure inductive reactance XL = 20 Ω is connected. Across
the 3rd winding a pure resistance R = 15 Ω and across the 4th
winding a capacitive reactance of XC = 10 Ω are connected.
Calculate the input current and the power factor at which it is
drawn.
with number of turns of the windings. The first winding is
energized with 200 V, 50 Hz supply. Across the 2nd winding a pure
inductive reactance XL = 20 Ω is connected. Across the 3rdwinding a
pure resistance R = 15 Ω and across the 4th winding a capacitive
reactance of XC = 10 Ω are connected. Calculate the input current
and the power factor at which it is drawn. 2. In the Figure 23.10,
a 4-winding transformer is shown along with number of turns of the
windings. The first winding is energized with 200 V, 50 Hz supply.
Across the 2nd winding a pure inductive reactance XL = 20 Ω is
connected. Across the 3rd winding a pure resistance R = 15 Ω and
across the 4th winding a capacitive reactance of XC = 10 Ω are
connected. Calculate the input current and the power factor at
which it is drawn. 2. In the Figure 23.10, a 4-winding transformer
is shown along with number of turns of the windings. The first
winding is energized with 200 V, 50 Hz supply. Across the 2nd
winding a pure inductive reactance XL = 20 Ω is connected. Across
the 3rd winding a pure resistance R = 15 Ω and across the 4th
winding a capacitive reactance of XC = 10 Ω are connected.
Calculate the input current and the power factor at which it is
drawn.