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Hey wait a minute you call this a true sine wave inverter? How is it sine wave inverter,
Is there any way to prove that the circute you post is a true sinewave inverter.
Approach used for creating the pure sine wave described in this pic is done through manipulation of mathematical representation of the original sine wave. It is done by dividing half the sine wave into m (even number) segmentations, where area under a quarter of the sine wave from 0 to π/2 resembles series of the form [2n-1] where n=1,…, m/2, while areas of the next quarter from π/2 to π will resemble series of the form [2n-1] where n=m/2,.., 1.
Pulse train is produced interchangeably from microcontroller 89S2051 during the positive half and negative half of the sine wave. The pulse train is then inputted to the MOSFET power switching circuit, which is next directed to the primary side of the transformer. Output of the secondary side then be filtered resulting in the sine wave. where amplitude attenuation can reach up to 50%. Measured inverter output THD reaches 5-8%, where the largest harmonics appeared to be the second and third harmonics.
sorry!! some bugs are fixed here which was did not pointed by anyone. only compliance is "YOU JUST POST ANOTHER PERSONS WORK, WHY DONT YOU COMPILE THIS CODE, WHERE IS THE LABEL CALL PULSE_TRAIN"
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