Difference Between Alternator And Generator
Here the difference between alternator and generator is given, which explains how they differ from each other in terms of structure, power, efficiency, etc. These differences between alternator and generator can help clear up any doubt about these two types of engines, Difference Between Alternator And Generator
Alternator and Generator Difference Between Alternator And Generator
Below, to help understanding, you will find a comparative table of the main differences of the alternator and generator
Comparison between alternator and generator
| Differences | Alternator | Generator |
|---|---|---|
| Definition | An alternator is a device that converts mechanical energy into AC electrical energy. | A generator is a mechanical device that converts mechanical energy into AC or DC electrical energy. |
| Output current | An alternator always induces an alternating current. | A generator can generate alternating or direct current. |
| Energy efficiency | Alternators are very efficient. | Generators are considered less efficient. |
| Departure | Alternators have a higher output than generators. | Generators have a lower output compared to an alternator. |
| Conservation of energy | Alternators use only the required amount of energy and therefore save more energy. | Generators use all the energy that is produced and therefore conserve less energy. |
| Polarization after installation | No polarization is required in the case of alternators. | Generators must be polarized after installation. |
| Magnetic field | The magnetic field rotates inside the stator of an alternator. | In the case of a generator, the magnetic field is stationary or fixed where the armature winding rotates. |
| Armor movement | The armature of an alternator is stationary. | The armature of a generator is spinning. |
| Input supply | The alternator takes the input supply from the stator. | The generator takes the input supply from the rotor. |
| RPM range (rotation per minute) | Alternators have a wide RPM range. | The generators have a low RPM range. |
| Voltage generation | Alternators produce voltage only when necessary. | Generators produce voltage at all times. |
| Size | Alternators are generally smaller in size. | Generators are larger and require more space to fit. |
| Brush efficiency | Alternator brushes last longer. | Generator brushes last less compared to an alternator. |
| Charging a dead battery | Alternators will never charge a dead battery | A generator can be used to charge a discharged battery. |
| Applications | Alternators are used primarily in the automotive industry as a battery charging system. | Generators are widely used to produce electricity on a large scale. |
These were the main differences between alternators and generators. These differences between alternators and generators are a bit detailed to help students get a complete idea about them. These detailed and advanced comparisons can help students fully delve into these respective topics.
Frequently asked questions about motors and alternators
How to reduce eddy current losses? Difference Between Alternator And Generator
Eddy current losses can be reduced by laminating the core and insulating it from each other with the help of a paper or varnish.
What are the advantages of stationary armature and rotating field system?
Following are the advantages of stationary armature and rotating field system:
- Stationary armature installation becomes easy.
- Peripheral speed can be easily achieved.
- The number of slip rings used is two.
What are the advantages of stationary armature and rotating field in an AC generator?
The following are the three advantages of stationary armature and rotating field in an AC generator:
- Collecting the output becomes easy from the stationary armature.
- Stationary armature can be used with higher voltage.
- When the armature is stationary, it is easy to supply low voltage excitation to the rotor through the slip rings.
What are the advantages of paralleling alternator operations?
The following are the advantages of parallel operations of alternators:
- In the event of an alternator breakdown at the production site, parallel operations ensure that the connection is continuous for your consumers.
- This arrangement of alternators makes operation efficient. In addition, it is considered inexpensive.
- Installing more alternators in times of need becomes easy as the other alternators are arranged in parallel with each other.
- The arrangement helps meet the requirement of a large alternator across multiple alternators and their arrangement in parallel operation.
What are the losses in a generator?
The following are the losses in a generator:
- Friction loss
- Loss of wind
- Rotor copper
- Stator copper
- Stator iron