Okay, Than how will it be connected? As, I am going to use 24V battery. The voltage which I got as, 11.1V on high side and 1.5nV on low side mosfet is right? What do you think?It's a bridge configuration. Connecting the transformer center to 24V is completely wrong. Also 1 µF capacitors C9/C17 shouldn't be there.
No, no idea how you achieve it .Show waveforms.The voltage which I got as, 11.1V on high side and 1.5nV on low side mosfet is right?
Hello, Thanks for the diagram shared. I made similar for full bridge (H-Bridge) circuit. I got similar pulse as you shared. Please find attached image. I made few changes in the circuit. Please have a look.Here is the common inverter setup which feeds supply voltage directly to the center-tap.
View attachment 163359
No. VS (pin 5) has to be connected to the source of the transistor driven by HO. If source is connected to ground, VS should be as well.I am unsure about the circuit diagram where IR2110, pin number 5 will connect to the drain of mosfet or not.
I connect it to the ground. What I mean is, the connection of H-Bridge. It working fine when we use mosfet as push pull separately as shown above. But when I used it as H-Bridge, I am unable to simulate or didn't get right value, This is the main thing which I want this thread to help me. Help me with connection. Please test this project, if you have proteus with you. ThanksNo. VS (pin 5) has to be connected to the source of the transistor driven by HO. If source is connected to ground, VS should be as well.
The modified circuit looks just confused. Why are you stripping down the full-bridge circuit to push-pull with two transistors in parallel?
I appreciate your work. But, I am looking help in not half bridge or opam circuitry. I am looking help in Hbridge inverter. I have shared the possible circuit already. I request you to help me with this. ThanksBarebones step-up inverter. Two op amps act similar to an H-bridge. They generate SPWM which is applied to the transformer. (In order to make waveforms obvious I use a slower carrier frequency.)
I reduced parts count so that rogue resonant oscillations are minimized. The transformer appears to filter out the pulses, letting through only the sine-shape. (It's only a theoretical simulation of course.)
If the capacitor is omitted, then peak voltage is only 230V. The capacitor has the effect of reshaping the waveform to a greater amplitude, in addition to a certain amount of power factor correction.
View attachment 163384
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