Please don't get me wrong i'm very happy with the PIE. I will try again with the controller software and try changing regen to test. I did exactly as in your above instructions apart from maybe not clicking 'disconnect' - I can't remember 
. I will try tomorrow after work.
Could I ask what electrical characteristics should take place by lowering the voltage?
There is an old tale, a myth that the 24v setting causes the PWM (pulse width modulation) frequency to change in the controller to compensate for the lower voltage packs. The current could use a boost in a real 24v system..
When current goes to the motor it is chopped up into pulses, on, off, on, off, and this has an advantageous effect of lowering the effect of resistance. When you increase throttle the pwm pulses get wider leaving less off state than on and this effects the motor speed.
If you were to use resistive means to limit the motor speed this would use much more power just to go slow as one is using heat to restrict motor speed.
So when you throttle the voltage stays the same and only pulse length controlls the bike speed..
So if chopping the motor power up into pieces lowers the effect of resistance, just maybe, changing the speed of the pulses to faster has the effect of lowering the effect of resistance further for lower volatge systems.
If you were to set 50 amps at 48v, or 50 amps at 24v the lower voltage effects the max current indicated by ohms law.
R= V/I
Max amps = Volts/resistance
The whole bike has resistance from the middle cell positive terminal of your pack all the way through every part to the motor coil and back to the negative terminal of the middle cell of your pack and in between.
If you were to add this resistance up. or easier take your max amps and divide it by the volts and you will finds the resistance.
say 49v @ 50 amps.
49v/50A = .98 ohms.
So if we plug the .098 ohms into a 24v system and use ohms law.
24v/.98 ohms = 24 amps max.
See the higher voltage alone can increase the max current a motor can sink, leaving the 24v systems stuck at 24 amps MAX even set at 50 amps.
The controller needs a way to balance these differences so it attempts to counter act by means of making the Pwm faster on the 24v setting..
Monkey with the 20" wheel would notice more power on take offs you should experience more power up hills at a higher speed.
As this is only a little trick and not the same as decreasing the resistance to the motor the true RMS power of your motor only changes at certain K. K= rpm per volt..
12 fet~18fet (field effect transistor) controllers have a net lower resistance as the fets in parallel widens the current path to the motor and you should see much less loss of energy due to the volts not dropping over the fet near as much during high load times..
The result of using a 12 fet is the motor needs less RPM to draw more more current, lots of phase events on the smaller controller seem to see less voltage slump over the fets when RPM is higher.
So the 24v setting is not the holy grail on a 26" wheel, as Monkey experiences much lower load on take offs and has higher K than the 26" wheel.
