> The most optimal thing is to just use ICE engines as a generator/range extender that tops up the battery.
Not necessarily. A pure Series hybrid, at least so far, haven't been able to match up to the series-parallel setup Toyota and Ford is using. And part of the reason for that, is they typically have a 'direct drive' mode, such that the engine is directly connected to the wheels; at that point you can have far less energy lossage via the mechanical drivetrain compared to the loss of mechanical->electrical, even if that electrical was getting dumped straight into the electrical motor.
> If you think about it, you could just buy an off the shelf generator, shove it on a trailer and hook it up to your EV. If you have a EV pickup, you can just sacrifice some space in the back. This isn't that hard. You only need a few kw of output from the generator. A simple, small, and cheap one would be good enough.
The relative efficiency of your typical generator is probably not on the order of most car engines, I'd wager. Especially, again, going back to Toyota/Ford hybrid designs, the engine is can do an atkinson cycle which is more efficient (at the expense of larger engine size to power ratio.) Willing to bet most generators don't have nearly as much/good 'scrubbing' equipment for the exhaust compared to a modern car either.
> The reason companies like Toyota are trying to sell you a much harder to maintain and much more complicated solution instead is not because they haven't thought about it but because they have a large sunken investment in ICE engine manufacturing that they want to milk for a bit longer.
I do still agree with most of this, but TBH a series-hybrid setup (at least for the single speed Aisin units and Ford's HF transmissions to date) can be in many ways wayyy simpler than most modern cars. Lots of em don't even have direct injection, let alone turbochargers, and the gearbox itself is simpler than any modern automatic.
Not necessarily. A pure Series hybrid, at least so far, haven't been able to match up to the series-parallel setup Toyota and Ford is using. And part of the reason for that, is they typically have a 'direct drive' mode, such that the engine is directly connected to the wheels; at that point you can have far less energy lossage via the mechanical drivetrain compared to the loss of mechanical->electrical, even if that electrical was getting dumped straight into the electrical motor.
> If you think about it, you could just buy an off the shelf generator, shove it on a trailer and hook it up to your EV. If you have a EV pickup, you can just sacrifice some space in the back. This isn't that hard. You only need a few kw of output from the generator. A simple, small, and cheap one would be good enough.
The relative efficiency of your typical generator is probably not on the order of most car engines, I'd wager. Especially, again, going back to Toyota/Ford hybrid designs, the engine is can do an atkinson cycle which is more efficient (at the expense of larger engine size to power ratio.) Willing to bet most generators don't have nearly as much/good 'scrubbing' equipment for the exhaust compared to a modern car either.
> The reason companies like Toyota are trying to sell you a much harder to maintain and much more complicated solution instead is not because they haven't thought about it but because they have a large sunken investment in ICE engine manufacturing that they want to milk for a bit longer.
I do still agree with most of this, but TBH a series-hybrid setup (at least for the single speed Aisin units and Ford's HF transmissions to date) can be in many ways wayyy simpler than most modern cars. Lots of em don't even have direct injection, let alone turbochargers, and the gearbox itself is simpler than any modern automatic.