[stephen_g]

I agree that applying anything to do with blockchain to electricity is dumb - these are already just regular markets, so an inverter/charger could already take price signals from the existing market and do whatever the homeowner wanted, with zero need for blockchain or central control at all. With smart meters (which are becoming more ubiquitous) it's already simple to incentivise using battery power in peak periods when the price is high...

But on inverter/chargers - they will absolutely will follow a downward trend. Maybe not as quickly as batteries but downward all the same. Wide-bandgap semiconductor FETs are getting cheaper and better all the time (higher current and voltage per device), and they allow for power topologies that are more efficient, so cooling gets easier, weight of heatsinks and the amount of material in those goes down, power per unit volume increases and unit mass will decrease, etc. Production volumes will also increase which should lead to economies of scale too.

I can get a 48V DC/230V AC, 8000VA Victron Multiplus 2 inverter/charger for $1.8K USD at the moment (I'm about to buy one for a system I'm DIYing from 31 kWh of AGM batteries I managed to get basically free from a test site of a company that closed down). I wouldn't be surprised if I could get the same capacity inverter/charger for something nearer to half the price by 2030, and a few percent more efficient to boot (this is 95% max efficiency but hopefully 97-98 will be more common by then).

You probably can get plenty of cheaper ones from China already but I want to be absolutely sure it'll meet Australian Standards since this will be grid tied for backup (but able to operate independently during outages), and since it's going under my house I want to know it's safe! Victron have a good track record, especially with a lot of use in maritime and caravan applications where you really don't want them catching on fire so that gives me confidence!