Hey guys, this is my first post but I have been reading for a while.
I have a 6374 single setup and I need more current from my vesc.
I get thermal shut downs, the motor and bat can both take more current but the vesc is the bottle neck.
I currently run 63/63 motor/bat amps and it’s OK but will over heat the FETs.
Which vesc will take the most current? I have a HK which has need good but I think it’s around 30a cont, I’m looking for 55
Cheers
get a second motor and use half the motor current setting you currently use on both, you’ll get the same acceleration performance and half the total losses (1/4th as much heating rate per vesc), boosting efficiency.
Yeah I thought about heat sinks but I’m not sure if they will do much on the tops on the FETs, I was thinking a new vesc would be the easiest considering I am after 30/40% more cont current, does anyone know the continuous output of the onlins or flipsky 6.6, are they as good as they state?
They will definitely help sitting on the top, they’ll work even better if you cut the heatshrink out over the fets so it gets a bit better cooling, and a few slots in your encloseure will help. any vesc will thermal cutout if you keep it in an enclosed space under high load
Cool, I will give a heat sink a go before trying another vesc, see if that makes the difference, I like the water proof, air tight enclosure I have so I will put the heat sink in the air flow but not the vesc
Cheers
I’m also running single 6374. I’ve configured at +75/-75 motor, +60/-60 battery, with FSESC6.6 and have had no problems yet. I am running 12s and 3:1 gearing with 76mm wheels though, to try to keep actual current levels low. If the heatsinks dont fix it, maybe it is worth going up in voltage and up in gearing.
I’m running 12s but with 90% duty cycle to stop the jolt as it goes to full duty cycle, and I’m running 15/40 with 83mm, I have a 42 on its way to run with my 97mm.
@Ouch this wheel/gearing change will require even more motor current to have the same acceleration as before…
97mm / 83mm = 1.16x diameter increase
2.8 / 2.66 = 1.05x ratio increase
(1/1.05) * 1.16 = 1.1x top speed increase
1/1.1 = 0.909x acceleration/thrust decrease
1/0.909 = 1.1x more motor current required to have the same thrust/acceleration as previously
to keep the same ratio of motor current to thrust i believe you’ll need roughly 46T on your wheel pulley with the 97mm wheel.