Many things are possible. Open circuit or winding. Blown fuse or circuit breaker. Loss of excitation current. Just to name three.
There would be a significant decrease in the output of the generator. Depending on the type of generator, it could stop working altogether.
There would be a significant decrease in the output of the generator. Depending on the type of generator, it could stop working altogether.
Terminal voltage is the voltage between the output terminals of a generator.
First you have to understand how a generator works. Basically the excitation voltage is what varies according to generator output. Usually on a power source that has a inconsistant rpm, the excitation voltage will vary similar to a govenor in order to hold the generator output constant.
The amount of voltage of an electrical generator will determine the limit of the output of energy. If the voltage is too high, it can burst the pipes causing it to shut down.
900 running watts, 1000 surge watts
energy
In a series generator, as load is added, output voltage increases.
Depends on the output of the generator
generator
The significance factor of the rotation of a generator is, that this rotation is what governs the frequency output of the generator.
By reducing the output fusing of a generator, the total output of the generator will also be reduced. The capacity of the generator will remain the same but the fault trip point will be lowered.
By reducing the output fusing of a generator, the total output of the generator will also be reduced. The capacity of the generator will remain the same but the fault trip point will be lowered.
There would be a significant decrease in the output of the generator. Depending on the type of generator, it could stop working altogether.
There would be a significant decrease in the output of the generator. Depending on the type of generator, it could stop working altogether.
The main disadvantage should be obvious - when the output voltage of the generator is used to provide field current to the generator....what happens if the output voltage sags? If the output voltage becomes depressed, the output power of the generator is compromised (becomes less and less), this in turn can cause the output to become more depressed, leading to an incrementally decreasing output capability. The main advantage is cost savings.
Take the power output of the generator and divide it by the voltage output. I = W/E.