Hello, I work in a shop and we've started accepting ebikes in for diagnostics. One problem I'm trying to solve is when a bike comes in with no battery or the battery doesn't power the bike on.
I have methods to test everything on the bike without power, but aside from checking the controller mosfets with a multimeter, it could still have a different internal fault.
My thought process is if I could use a benchtop dc power supply connected to the controller I could test the system, unloaded with the wheel off the ground.
I'm not an electronics engineer, so is this doable or even a safe thing to do? The motors would be geared without regen braking so there should be no current trying to feed back to the power supply? What about the capacitors in the controller, I assume I need to discharge them before connecting the supply?
I'm considering this 60v 20a power supply and the motors we see are 500-1000w and 36-48v, would this handle the initial startup current of these motors?
Will this burn down our shop?
Appreciate any advice!
I have methods to test everything on the bike without power, but aside from checking the controller mosfets with a multimeter, it could still have a different internal fault.
My thought process is if I could use a benchtop dc power supply connected to the controller I could test the system, unloaded with the wheel off the ground.
I'm not an electronics engineer, so is this doable or even a safe thing to do? The motors would be geared without regen braking so there should be no current trying to feed back to the power supply? What about the capacitors in the controller, I assume I need to discharge them before connecting the supply?
I'm considering this 60v 20a power supply and the motors we see are 500-1000w and 36-48v, would this handle the initial startup current of these motors?
Will this burn down our shop?
Appreciate any advice!