But if it can recharge in 1 minute then an all electric car could be topped up along the way, at lights or service stations.
All electric cars could be made much lighter.
Sure you can't go anywhere remote, but still. (popular places could have charging locations, as long as there is power in the area charging isn't hard to set up)


Mike Carrell wrote:

Steve wrote:




Forgive my ignorance, but could someone clarify whether Toshiba's recent


battery breakthrough actually means that an all-electric car is actually
feasible, or would some form of a hybridization still be the norm?

Hybridization.


What struck me as most poignant was one of Mike Carrell's original


comments stating that charging a large vehicle friendly mass of these
batteries at maximum warp speed (at your local "service" station) would
likely vaporize them! I would also think that the electrical cables
themselves would have to be pretty thick to accommodate the amperage. A
typical driver making the connection to his car might feel a tad intimidated
considering how much juice would have to be flowing through the bottleneck
for the next couple of minutes.

He should be. My example was all electric on a long trip, making a pit stop
at a turnpike filling station, worst case.


What if it's a rainy day?



Doesn't matter. Any such delivery system would be designed to work under wet conditions. Current automotive systems work at 12 volts, which is quite safe. Advanced systems with electric drives would be more like 48 volts, which is lethal if you are all wet and get a good contact, like a sweating welder building a ship.

Hacking a hybrid to use house current recharging can make sense if sensibly
done. Toyota and Honda may omit charging sockets to emphasize that the
hybrids are not plug-ins. Providing an engineered connector system makes
some sense as discussed here. But in the larger eco-sense, you have ot
consider the whole system and what fuels are being burned to provide that
electricity, and the system losses involved. Locally, it provides the
advantages of an electric, and you don't have to buy another car to visit
Aunt Matilda in the next state.

The maximum discharge current for the Toshiba battery is not stated. With
lead acid batteries you can get a very high current drain, as for auto
starter motors. to be used for transportation, the Toshiba batteries would
have to dleiver high peak power for acceleration, and accept full energy in
dynamic braking. They will be more costly than other betteries, but may
deliver a significant advantage to cars designed for them.

Regards,
Mike Carrell








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