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Generator output voltage is determined by the number of windings, strength of magnetic flux and the speed the flux crosses the windings. With the flux and windings remaining the same, a larger unit will have higher voltage than a smaller one. There is no single answer to this question.
Yes, that's because the voltage output of an alternator is restricted by the number of windings that can be slotted into its armature, restricting its output voltage to just 25-30 kV, which is far too low for transmission purposes.
The voltage ratio in transformers used in power supply is set by the ratio of the number of turns on the primary and secondary windings.
Frequency is a function of the speed of the alternator and the number of poles. The symbol for 'hertz' is 'Hz', not'hz'.
Transformers have windings - typically each winding is designated for a particular voltage. Any one of the windings can be an "output", as any winding can be an "input". Usually for consumers, one of the windings is intended to be 120V for the input. In that case, all of the other windings would be an output.I should also mention that while you can have several outputs, you can only have one input. Some transformers have the windings color coded to designate input and outputs.Hope this helps!
Lap windings has four current paths, the same as the number of the field poles, while the Wave windings has only two paths, regardless of the number of poles. Lap windings are also used for applications requiring lower voltages at higher currents, while Wave windings are used for applications requiring higher voltages at lower currents
No.
The strength of an electromagnet is determined by the number of windings, the current flowing through the windings, and the permeability of the core.
Increase voltage. Increase the number of windings,
Voltage is a measure of "pressure" in an electrical circuit. Electrical voltage is produced as a function of the number of windings in a field coil in comparison to the number of windings in the stator of a generator. the greater difference in the number of windings the greater the voltage. This voltage can also be modified by transformers, which are coils in the circuit that transfer electricity from one coil to another by induction. The difference in the number of windings in one coil to the other coil will determine the change in voltage. So by taking a circuit with a voltage of , say, 110 volts, by installing a transformer that has twice as many windings in one coil than the other, you can transform the voltage from 110 volts to 220 volts.
They usually have equal numbers of turns
The number of windings around the core. The power available to the coil. The temperature of the unit.De-lamination of the windings. The wrap needs to be tight and uniform. Stupidity.
The minimum number of employees needed to perform the staggered open close procedures for freestanding restaurants is two. These two employees can work together as a team to complete the process of opening and closing.
Commutating field windings are connected in series with the armature windings so that the current flowing in the coils is always equal to the armature current. The number of turns in the commutating field windings are also equal to the number of armature turns. This means that the field strength of the commutating windings and the field strength of the armature are always equal. A DC motor is constructed so that these two fields of equal strength oppose one another, they therefore cancel one another out. The main field is now unaffected by armature reaction.
We have a separate number
Generator output voltage is determined by the number of windings, strength of magnetic flux and the speed the flux crosses the windings. With the flux and windings remaining the same, a larger unit will have higher voltage than a smaller one. There is no single answer to this question.
Number of Wires to an AlternatorThat depends on:the alternator,the wiring system in the vehicle