I would like to design a dc booster for a solar system. System consists of 6x 265Wp panels in series, which equals roughly 1600Watts, 200V, 9 Amps.
I need to boost the voltage up to 350V to feed into a VFD which in turn drives a 0.75kW motor.
Is this possible? Where should I start?
Of course this is “possible”; ANYTHING is possible. But this is not trivial. Basically, you need to chop your 200 VDC into pulsed DC, and step it up using a diode and inductor, while not electrocuting yourself or burning down your house. Do a search for “boost converter”.
I would like to design a dc booster for a solar system. System consists of 6x 265Wp panels in series, which equals roughly 1600Watts, 200V, 9 Amps.
I need to boost the voltage up to 350V to feed into a VFD which in turn drives a 0.75kW motor.
Is this possible? Where should I start?
I see several problems you need to address
1/ What is the starting inrush of the motor & pump and where do you expect it to be supplied from ?
2/ You seem to assume your panels will be at 100% insolation all the time, is this true, do you live in a desert with no clouds and the sun directly overhead ?
3/ You make no mention of maintaining the panels at there maximum power point, if you don't your power will collapse
IMOP you have chosen a very complicated project for an absolute beginner with little or no knowledge of PV etc
Try addressing the above issues or publishing the answers here and someone might be able to help you a little more
agreed - you need a peak power ckt to draw the max from the panels ( even on on a sunny day ) and batteries to store (hopefully) the excess so that the load can run at other times, i.e. early morning & sunset --
else the load can only run when there is sufficient sunshine - fine in the desert on the equator - but not so fine for places with cloud cover etc ...