I guess it depends on the design of the generator. In the plants I know in th UK it is usually 11 KV
maximum generated voltage is 21KV
A biopotential is a biologically or biochemically-generated potential or voltage.
Single phase and three phase voltages are not related to the frequency at which the voltage is generated. The frequency at which voltages are generated is governed by the speed of rotation of the generating device.
question is wrong....ac is generated in alternator <<>> The most likely reason is that there is no field voltage being generated. This is controlled by the voltage regulator. Check to see if you are getting a DC field voltage. On the voltage regulator there are terminals to different pieces of equipment on the machine. Look for the terminals that are designated F1 and F2. These should have a DC voltage on them. Also look for a potentiometer that controls the field voltage. Turn it one way and the voltage will go down and turned the other way the voltage will go up. Make sure that this potentiometer is in the correct position to allow voltage to the field coils.
Generator coils generate the voltage, motor coils use the generated voltage.
maximum generated voltage is 21KV
A biopotential is a biologically or biochemically-generated potential or voltage.
600V can be generated using a transformer to step up the voltage from a lower voltage source such as 120V or 240V. By increasing the number of windings in the transformer's coils, the voltage can be scaled up to 600V. This allows for the safe distribution of higher voltage power for industrial or commercial applications.
On auto alternator 1000 rpm
In the Bahamas they use 120/240 and 120/208 voltage at 60 Hertz.
Single phase and three phase voltages are not related to the frequency at which the voltage is generated. The frequency at which voltages are generated is governed by the speed of rotation of the generating device.
.2A
question is wrong....ac is generated in alternator <<>> The most likely reason is that there is no field voltage being generated. This is controlled by the voltage regulator. Check to see if you are getting a DC field voltage. On the voltage regulator there are terminals to different pieces of equipment on the machine. Look for the terminals that are designated F1 and F2. These should have a DC voltage on them. Also look for a potentiometer that controls the field voltage. Turn it one way and the voltage will go down and turned the other way the voltage will go up. Make sure that this potentiometer is in the correct position to allow voltage to the field coils.
Generator coils generate the voltage, motor coils use the generated voltage.
Backing voltage in a photovoltaic cell depends on the light frequency because different frequencies of light correspond to different energy levels of photons, which can determine the voltage generated. However, intensity only affects the current generated by the cell, not the voltage. So, the higher the frequency of the light, the higher the backing voltage, regardless of the intensity.
"Vout" typically refers to the output voltage of a circuit or device. It is the voltage level that is generated or present at the output terminal or node of the circuit. Voltage output is a common measurement parameter in electronics and electrical engineering.
30 MV open circuit