What a great thread! I also understand that the higher Voltage means that the current can be reduced, minimising pressure on cables and connections. Is this the case or am I missing something?
Reducing current will help the controller run cooler.
36v @ 15A = 540W
48v @ 12A = 576W so a little more power, less heat in theory
There is a bit of calculation to be done to get the right compromise:
I want to run my GSM at 44.4v because I need more RPM at the pedal to stop back EMF (I spin too fast...). I don't really need any more power than I have now. My 36v controller can't handle 15 A x 44.4v, it gets too hot and the thermal cutoff kicks in as soon as I am in assistance level 4 or 7.5 Amps! That means when I am pulling >330W there is a huge amount being lost as heat with the extra voltage. The same controller is fine up to 610W @ 36v
I have noticed that the motor runs smoother at 44.4v and is a lot quieter. The sensation of spinning faster and not going over assistance level 3 is no real problem as long as you are in the correct gear for the slope. As I was working at the time I didn't do any serious hill testing last time I ran at higher voltage. At the moment I am waiting for a weather window to continue testing.
I have a suspicion that I won't need much more than 250W on the trike:
- the motor is used to climb hills, at the moment I can climb hills I can't climb on an upright. At 6 km/h... If the motor allows me to double that speed or even increase to 10 km/h that is fine for me (on those types of hill - think >15% gradient
)
- the motor is used to accelerate to 25 km/h in stop and go traffic, I can pedal easily to >35 km/h on the flat on the upright and the trike is wicked faster
A 48v capable 10 or 11 Amp controller will suit me fine. It has to be 48v for the 63v caps inside, my 36v one has managed with 49.8v hot off the charger but that just squeaks under the 50v rating of the caps, I don't want to tempt the devil...