The higher the number of turns, the higher the induced voltage, so at low RPM you will obtain higher voltages. On the other hand, the higher the number of turns, the higher the electrical resistance of the winding, which leads to a lower electrical current delivery capacity. It is a compromise. I generally prefer fewer turns if you generate the necessary voltage at the RPM you get. More turns and increased electrical resistance of the windings also leads to an increase in the torque needed to turn the generator. Another negative effect is the heating of the windings.
Hello sir, where can I buy the motor you used for this project? And all also the electronic parts? Is it possible if you can point me where can I buy those parts. I have a school project and its about wind turbine. I hope you can help me...
Great work. Keep it up bro 💪
So cool bravo
How does wounding turns impact motor selection? For example, under GBM5208, do we prefer the 180T or 75T?
The higher the number of turns, the higher the induced voltage, so at low RPM you will obtain higher voltages. On the other hand, the higher the number of turns, the higher the electrical resistance of the winding, which leads to a lower electrical current delivery capacity. It is a compromise. I generally prefer fewer turns if you generate the necessary voltage at the RPM you get.
More turns and increased electrical resistance of the windings also leads to an increase in the torque needed to turn the generator. Another negative effect is the heating of the windings.
Hello sir, where can I buy the motor you used for this project? And all also the electronic parts? Is it possible if you can point me where can I buy those parts. I have a school project and its about wind turbine. I hope you can help me...