The major difference between the alternator and the generator is that in alternator the armature is stationary and the field system rotates whereas in the generator armature rotates and field is stationary. The armature of the alternator is mounted on the stationary element called stator and field winding on a rotating element. While the connection of a generator is just the reverse of it. The other differences between them are shown below in the comparison chart.
The alternator and generator both works on the principle of Faraday law of electromagnetic induction. The generator induces both the alternating and direct current and the alternator produces only alternating current. The rotor of the generator is placed inside the stationary magnetic field. The stationary magnetic field is produced by the magnetic poles. The rotor moves inside the magnetic field, intersects the magnetic line of force which induces the current in the wire.
Every half rotation of rotor changes the direction of the current which causes the alternating current. For getting the alternating current, the ends of the circuit is directly connected to the load. But for producing the direct current, the ends of the wire is connected to the commutator. The commutator converts the alternating current into direct current.
Content: Alternator Vs Generator
1. Comparison Chart
2. Definition
3. Key Differences
Comparison Chart
| Basis for Comparison | Alternator | Generator |
| Definition | A machine that converts the mechanical energy into AC electrical power. | A machine that changes mechanical energy into electrical energy (AC or DC). |
| Current | Induces alternating current | Generate both AC & DC. |
| Magnetic Field | Rotating | Stationary |
| Input Supply | Takes from stator. | Takes from rotor. |
| Armature | Stationary | Rotatory |
| Output EMF | Alternating | Constant |
| RPM (Rotation per minute) | Wide Range | Narrow Range |
| Dead Battery | Do not charge | charge |
| Output | Higher | Lower |
Definition of an Alternator
The synchronous generator or Alternator is a machine for converting the mechanical power from a prime mover to an AC electrical power at a specific voltage and frequency. Three-phase alternators are used because it has several advantages of distribution, generation, and transmission. For bulk power generation large alternator is used in the thermal, hydro and nuclear power station.
The magnetic pole of the rotor is excited by the direct field current. When the rotor rotates, the magnetic flux cut the stator conductor, and hence EMF induces in them. As the magnetic pole alternating rotating N and S, they induce an EMF and current in armature conductor which first rotate in a clockwise direction and then in an anti-clockwise direction. Thus, generates the alternating current.
