Just remember that any form of regenerative ebrake on a permanent magnet motor has the opposite performance curve of a mechanical brake--it performs better the faster you are going when it is applied, and worse the slower you get, until at some point it no longer provides any effective braking. Certain things a controller can do will extend the bottom end of that curve farther down, but it still doesn't work when nearly stopped and actually stopped.
Mechanical brakes do the opposite--they work less well at high speed, but at low speed or stop they can work so well that it could take so much force to turn the wheel that the tire could be destroyed before the wheel will turn (or in the case of disc brakes, the spokes may stretch and break before the disc breaks friction lock).
Also, at high enough speeds to work, regen ebrakes act like disc brakes do, regarding the tension against the wheel, assuming you have sufficient torque arms installed to properly transfer the braking force to the fork from the axle. If you don't have a good torque arm setup on the axle (preferably both sides), you may rip the axle out of the dropouts when braking from high speeds with ebrakes, as that braking force could be many times the possible startup force of the motor, depending on the controller's braking design and the battery's ability to soak up the current (or the plug-braking load's ability to dissipate the power without melting).
