![]() ![]() The secondary winding of the X1 transformer is driven by the output Q and Q’s, which are directly supplied into the switching power MOSFET IRF540. Now When the SPST switch is turned ON, the CD4047 IC starts oscillating since it is connected and set up as an astable multivibrator. In the output stage, which is the key part of wind turbine generators, transformer X1 is utilized in reverse. The output voltage from the wind turbine generator is directly supplied into the positive regulator circuit of the LM317, which is set to provide 12 volts, and a battery is linked to this bias using a Schottky diode. It has high working temperatures and quick switching capabilities. ![]() ![]() This inverter circuit’s switching drivers are IRF540 Mosfets. There is a 50% duty cycle on each output pin. At Pins 13 and 11, it gives a full oscillation output of F and a half oscillation at Pins 10 and Q, respectively. This switching pulse is produced by the monostable/astable multivibrator IC CD4047, which operates at low power and is offered in a 14-pin dual in-line package. The 12/4.5Ah SLA Battery receives the regulator’s final output, which serves as the DC bias for the inverter circuit. Here, a three-terminal positive voltage regulator with changeable settings named LM317 is utilized, and it has a current rating of more than 1.5A and an output voltage range of 1.25 V to 37 V. We are aware that a bridge rectifier turns an AC source into a Direct Current (DC) supply, and in this case, we utilized four 1N4007 diodes as bridge rectifier elements to convert wind turbine energy into a DC supply. Let’s talk about all the stages one by one 12V Wind Turbine Generator/Bridge Rectifier Circuit 12V Wind turbine generator/Bridge Rectifier Circuit.Five steps make up this small wind turbine for home: ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |