A shunt-wound DC motor with the field coils and rotor connected in parallel (Figure 1) operates from a 135 VDC power line. The resistance of the field windings, Rf, is 247 Ω . The resistance of the rotor, Rr, is 5.90 Ω . When the motor is running, the rotor develops an emf E. The motor draws a current of 4.44 A from the line. Friction losses amount to 49.0 W .
Compute the emf E.
Compute the rate of development of thermal energy in the field windings.
Compute the rate Pth,rotor of development of thermal energy in the rotor.
Compute the power input to the motor Pin.
Compute the efficiency of the motor.
A shunt-wound DC motor with the field coils and rotor connected in parallel (Figure 1) operates...
A shunt-wound DC motor with the field coils and rotor connected
in parallel (see the figure) (Figure 1) operates from a 130 V DC
power line. The resistance of the field windings, Rf, is
234 ? . The resistance of the rotor, Rr, is 4.10 ? . When
the motor is running, the rotor develops an emf E. The motor draws
a current of 4.82 A from the line. Friction losses amount to 47.0 W
.
In a shunt-wound dc motor with the field coils and rotor
connected in parallel (see the figure (Figure 1)), the resistance
Rf of the field coils is Rf = 103 Ω and the resistance Rr of the
rotor is Rr = 5.5 Ω. When a potential difference of V = 120 V is
applied to the brushes and the motor is running at full speed
delivering mechanical power, the current supplied to it is 4.90
A.
Part A.) What is...
A DC Motor 24 of 25 > Part A A shunt-wound DC motor with the field coils and rotor connected in parallel (see the figure) (Figure 1)operates from a 135 V DC power line. The resistance of the field windings, Rf, is 203 2. The resistance of the rotor, R is 5.60 ? , when the motor is running, the rotor develops an emf E. The motor draws a current of 4.90 A from the line. Friction losses amount to...
a dc motor with its rotor and filed coils connected in serieshas an internal resistance of 3.2Ω. when running at full load on a 120-v lined,the emf inthe rotor is 105V. a)what is the current drawn by the motor from the line? b)what is the power delivered to the motor? c) what is the mechanical power developed by this motor? these are the questions....
The power input to a dc shunt motor during rated-load conditions
is 100 W. The rotor speed is 2000 r/min, and the armature voltage
is 100 V. The armature resistance is 2? and Rf = 200 ?. Calculate
the no-load rotor speed.
2. The power input to a dc shunt motor during rated-load conditions is 100W. The rotor speed is 2000r/min, and the armature voltage is 100V. The armature resis- tance is 2 Ω and Rf-200Ω. Calculate the no-load rotor...
A d.c 220 V, shunt motor has an armature resistance of 1 Ω and a field circuit resistance of 150 Ω. While running steadily from 220 V supply, its back emf is found to be 209 V. The motor is drawing a line current of:
1. A 300 V compound motor has armature resistance 0.18 Ω, series field resistance 0.3 Ω and shunt field resistance 100 Ω. The rotational losses are 200 W. On full load the line current is 25 A and the motor runs at 1800 rpm. Determine: (i) the developed mechanical power (ii) the output power (iii) the output torque (iv) the efficiency at full load 2. A 120 V series motor has 0.2 Ω field resistance. On full load, the line...
Consider a 50 kW, 3-phase, 380 V line-to-line, 50 Hz, 6 pole Y-connected wound-rotor induction motor. The stator winding ac resistance is 0.1 Ω/phase. The effective stator-to-rotor turns ratio is 2. The exciting branch is negligible. It is found that when an external resistor of 0.09 Ω/phase is connected to the rotor terminals maximum starting torque of 1150 Nm is obtained. a. Compute the internal mechanical power and the internal torque developed by this motor when it drives a load...
14. The following details are known about a 200 hp, 500 V, 435 rpm de shunt motor: full-load current is 330 A, insulation class is H, weight is 3400 kg, external diameter of the frame is 915 mm and length of the frame is 1260 mm. If the motor is running at full-load, calculate: a. the total losses and efficiency. b, the approximate shunt field exciting current if the shunt field causes 15% of the total losses. the value of...