This is a concept for an AC powered, isolated AC generator with a PFC in front.
The aim is for a 750VA to 1000VA output. The concept is for a multipurpose device. You could use it to connect mains polluting devices that use Thyristor dimmers or peak rectifiers. You could use it to connect devices which are meant for a different voltage and frequency than is availible on your wall outlet. Or for instance really old electronics which could fry when the mains voltage is 10V to high. And ofcourse whatever you can think of. I was thinking of a modular design so the PFC, isolator and DC-AC have seperate PCBs
Almost all modern high powered, mains connected devices have a power factor correction circuit. There are lots of dedicated controllers on the market which can do this. Functionally it looks like a really complex boost/step-up convertor which shapes the load.
A fullbridge design would allow for an efficient design. Though getting a suitible transformer could be a bit of a challenge. It has to be high frequency, high energy and it has to have a high isolation value. I wonder if that is even possible. As for a controller, something like a LTC3722 could be used.
Because of the high DC input voltage it will probably look a lot like the end stage of a class-D amplifier. There has to be a feedback loop to ensure a good waveform regardless of the attached load. Also a reference sinewave has to be generated, probably by a DDS so the frequency can be accurately controlled. A multiplying DAC could be used to scale either the reference sinewave or the output feedback, so the output amplitude can be changed.
Funny but I may be walking down the same road with you, for a while at least, as I am working on a modular 6KW 48V battery charger driven from a wind turbine (6KW)
Working with a 16A 600V DC bus can be fun and dangerous.
If you want to bounce any ideas of me go ahead.