Please explain the no-load characteristics for shunt and separately excited DC motors. How will rotor speed,...
Please explain the no-load characteristics for shunt and separately excited DC motors. How will rotor speed, armature current and field current be effected for both at no load?
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Please explain the no-load characteristics for shunt and
separately excited DC motors. How will rotor speed,...
LAB MANUAL LAB EXPERIMENT - 04: LOAD CHARACTERISTICS OF SEPARATELY EXCITED DC GE ATELY EXCITED DC...
LAB MANUAL LAB EXPERIMENT - 04: LOAD CHARACTERISTICS OF SEPARATELY EXCITED DC GE ATELY EXCITED DC GENERATOR REVIEW QUESTIONS: 1. A separately excited generator has constant: a Field Strength b Load Current c Terminal Voltage The terminal voltage of a separately-excited generator a Goes up as load increases b Goes down as load increases C Stays the same as load increases. 3. The current drawn from a separately-excited generator by the load a is also its armature current b Has...
A separately excited DC shunt generator produces a no-load voltage of 150 Vdc at 1200 RPM....
A separately excited DC shunt generator produces a no-load voltage of 150 Vdc at 1200 RPM. If the armature resistance is 3 Ohms, calculate the output voltage under the following conditions: (Note all calculations for each problem are to be performed from the base values given above). a) The speed is reduced to 875 RPM. Vout = __________________ b) The field current is increased by 22% (assume a linear field current/flux relationship). Vout = __________________ c) The speed is increased...
separately excited series, shunt, compound DC motor: *Describe how does decreasing the field current IF affect...
separately excited series, shunt, compound DC motor: *Describe how does decreasing the field current IF affect the speed versus voltage characteristic and constant K1 of a separately-excited dc motor. K1=(n2-n1)/(E2-E1) *Describe how does decreasing the field current IF affect the torque versus current characteristic and constant K2 of a separately-excited dc motor? k2=(T2-T1)/(I1-I2) *Briefly describe how the speed varies as the mechanical load applied to the series motor increases, i.e. as the motor torque increases.
The power input to a dc shunt motor during rated-load conditions is 100 W. The rotor...
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...
Q1. Draw the equivalent circuits of a separately excited and a shunt DC motor. [20] Q2....
Q1. Draw the equivalent circuits of a separately excited and a shunt DC motor. [20] Q2. Derive the speed-torque relation for a DC motor: [40] 0 = VR, Kø (KØ)??ind Q3. A DC motor's speed can be controlled by either changing the field resistance, changing the armature voltage or changing the armature resistance. Of these three, which one is the best method for DC motor speed control and which is the worst? Give reasons. [40]
A Separately Excited DC Machine was subjected to a locked rotor test and a no-load test....
A Separately Excited DC Machine was subjected to a locked rotor test and a no-load test. The results are below. Locked Rotor Test: Vf=200V, If=12A, Va=180V, Ia=45A No Load Test: Vt=180V, Ia=4A Extract the parameters for equivalent circuit for this machine. Sketch the complete equivalent circuit. Find the rotational losses in this machine.
true or false with explanation a- A separately excited DC generator terminal current increases as a...
true or false with explanation a- A separately excited DC generator terminal current increases as a resistive load is applied b- In a separately excited DC generator, a voltage will exist at the terminals for a zero speed c- Doubling the load on the generator will increase the generator voltage by a factor of two. d- The commutator is used for adding a resistor to the rotor. e- A rotating magnetic field is produced around the air gap.
A separately-excited DC traction motor of a metro train is in series connection, i.e., the armature...
A separately-excited DC traction motor of a metro train is in series connection, i.e., the armature and the field windings are connected in series with a common DC power source. The voltage of the DC power source is I (a) Please show that the angular velocity of the rotor is KT K where o is the is the angular velocity of the rotor, Ra is the resistance of the armature, Rris the resistance of the field windings, T is the...
A DC shunt generator delivers a load current of 50 A at 300 V with its...
A DC shunt generator delivers a load current of 50 A at 300 V with its field circuit resistance being 50 ohms. The armature circuit resistance of the generator is 2 ohms The generator has a linear excitation with a constant rotor speed. The brush voltage drop is negligible. Aiding with a drawing of equivalent circuit, estimate: i) The field current, armature current and generated voltage of the generator when it delivers the 100 A at 300V; and (ii) The...
A4-pole, 500V DC separately excited generator is running at a speed of 450 rpm. Its field...
A4-pole, 500V DC separately excited generator is running at a speed of 450 rpm. Its field and armature resistances are 35 and 0.007 ohms respectively. If the generator is supplying a 750 kW load and the rotational power loss is 12180 W, find: a) The armature induced voltage, b) The input power
LAB MANUAL LAB EXPERIMENT - 04: LOAD CHARACTERISTICS OF SEPARATELY EXCITED DC GE ATELY EXCITED DC GENERATOR REVIEW QUESTIONS: 1. A separately excited generator has constant: a Field Strength b Load Current c Terminal Voltage The terminal voltage of a separately-excited generator a Goes up as load increases b Goes down as load increases C Stays the same as load increases. 3. The current drawn from a separately-excited generator by the load a is also its armature current b Has...
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...
Q1. Draw the equivalent circuits of a separately excited and a shunt DC motor. [20] Q2. Derive the speed-torque relation for a DC motor: [40] 0 = VR, Kø (KØ)??ind Q3. A DC motor's speed can be controlled by either changing the field resistance, changing the armature voltage or changing the armature resistance. Of these three, which one is the best method for DC motor speed control and which is the worst? Give reasons. [40]
A separately-excited DC traction motor of a metro train is in series connection, i.e., the armature and the field windings are connected in series with a common DC power source. The voltage of the DC power source is I (a) Please show that the angular velocity of the rotor is KT K where o is the is the angular velocity of the rotor, Ra is the resistance of the armature, Rris the resistance of the field windings, T is the...
A DC shunt generator delivers a load current of 50 A at 300 V with its field circuit resistance being 50 ohms. The armature circuit resistance of the generator is 2 ohms The generator has a linear excitation with a constant rotor speed. The brush voltage drop is negligible. Aiding with a drawing of equivalent circuit, estimate: i) The field current, armature current and generated voltage of the generator when it delivers the 100 A at 300V; and (ii) The...
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