Categories: DC MotorMachine

Armature Voltage Control Method Or Rheostatic Control Of Dc Motor

Speed Control of D.C. Shunt Motor (Part2)

2. Armature Voltage Control Method or Rheostatic Control

The speed is directly proportional to the voltage applied across the armature. As the supply voltage is normally constant, the voltage across the armature can be controlled by adding a variable resistance in series with the armature as shown in the Fig. 1.

Fig. 1 Rheostat control of shunt motor

The field winding is excited by the normal voltage hence Ish is rated and constant in this method. Initially the reheostat position is minimum and rated voltage gets applied across the armature. So speed is also rated. For a given load, armature current is fixed. So when extra resistance is added in the armature circuit, Ia remains same and there is voltage drop across the resistance added (Ia R). Hence voltage across the armature decreases, decreasing the speed below normal value. By varying this extra resistance, various speeds below rated value can be obtained.

So far a constant load torque, the speed is directly proportional to the voltage across the armature. The relationship between speed and voltage across the armature is shown in the Fig. 2.

Fig. 2  N Vs voltage across armature

1.1 Potential Divider Control

The main disadvantages of the above method is, the speed up to zero is not possible as it requires a large rheostat in series with the armature which is practically impossible. If speed control from zero to the rated speed is required, by rheostatic method then voltage across the armature can be varied by connecting rheostat in a potential divider arrangement as shown in the Fig. 3.

When the variable rheostat position is at ‘start’ point shown, voltage across the armature is zero and hence speed is zero. As rheostat is moved towards ‘maximum’ point shown, the voltage across the armature increases, increasing the speed. At maximum point the voltage is maximum i.e. rated hence maximum speed possible is rated speed. The relationship is shown in the Fig. 4.

Fig. 4  N  Vs  V

When the voltage across the armature starts increasing, as long as motor does not overcome inertial and frictional torque, the speed of the motor remains zero. The motor requires some voltage to start hence the graph of voltage and the speed does not pass through the origin as shown in the Fig.4.

1.2 Advantages of Rheostat Control

1. Easy and smooth speed control below normal is possible.
2. In potential divider arrangement, rheostat can be used as a starrer.

1.3 Disadvantages of Rheostat Control

1. As the entire armature current passes through the external resistance, there are tremendous power losses.
2. As armature current is ore than field current, rheostat required is of large size and capacity.
3. Speed above rated is not possible by this method.
4. Due to large power losses, the method is expensive, wasteful and less efficient.
5. The method needs expensive heat dissipation arrangements.

admin

Share
Published by
admin

Recent Posts

Standby Generators and Custom Commercial Generators for Sale

Humankind has become extremely dependent on electricity, without it we can’t run the household, keep…

4 years ago

Electrical Machine Interview Question And Answer

[1] Define the term synchronous speed [Dec-2003] For synchronous machines there exists a fixed relationship…

7 years ago

Transformer Interview Questions With Answer

We shared a lot of interview questions on electrical machines, power system and power electronics. Today we…

7 years ago

What Is Diesel Power Station

DIESEL POWER STATION A generating station in which diesel engine is used as the prime…

7 years ago

Synchronous Generator Interview Questions

Q:Why syn. generators are used for the production of electricity? A:synchronous machines have capability to…

7 years ago

Hydro Power Station

Hydro-electric Power Station A generating station which utilises the potential energy of water at a…

7 years ago