I have good working (mechanically) solution using multiple 4S LiPo batteries (in parallel, for higher current), 500 A contactor and brushed motor. Motor is working for <1.2 s only, but at very high power (multimeter at hold mode shows around 200 A, so 3 kW power at peak or even more).
Would like to ramp-up motor to full power in ~200 ms, instead of going "full power on" (avoiding "kick") (during first 1/5 second motor turns around ~25 times). Tried to buy 300 A commercial brushed controller from PwrSolution, burned on first test; then build another one with more than 1.5 kA mosfets in parallel - again, burned on first test.
I guess BEMF is killing them, not amperage (hard to use proper scope on such device, but cheap scope captured ~120 V spikes, while input voltage is closer to 16 V), so tried to add multiple TVS diodes, but this also did not help - mosfets still burning.
I checked how old elevators are controlled - but found only few mechanical contactors with resistive/inductive loads. This may work when we have lots of time to speed up/slow down, but when total load cycle is less than 1.2 second - switching with mechanical relays between rheostats is not good idea.
Wires are AWG8 multi-stranded not twisted, ~40 cm from motor to contactor, then 7-20 cm to batteries (multiple connectors over that range)
But somehow some industrial applications (some high-power air conditioning using brushed motors, water pumps, etc) have "smooth startup" option. So question - how this is implemented? What options do I have, if I want to smooth-start > 200 A (or even 500 A) brushed motor?
have good working (mechanically) solutiona pity, rather - if it was lacking, it would be easier to seek a solution storing&absorbing mechanical energy. \$\endgroup\$