Hi jeremy,
In other words we can't never win here in terms of efficiency,basically when a larger motor is under extreme loads,does this mean that the quicker the heat dissipates from the motor will make this more safer and efficient,(performs better during the winter longer to overheat),at the same the battery is at it's lower efficiency point,(due to cold weather). What is then the case during the summer period,when at his time the battery is now at it's highest performance rate and the motor is much slower to dissipates it's heat
Getting best efficiency isn't that easy, particularly with a hub motor and its fixed gear ratio. The biggest single factor is the motor current, the lower this is the better the efficiency. There are two ways to lower the motor current:
1) Use a motor that needs a higher voltage to run at the speed you need. This means that for a given power the motor current will be lower, so giving better efficiency. Hub motors are available in a wide range of rpm per volt configurations, so picking the right one for the wheel size you have and the speed you want, with the highest practical battery voltage you can use helps.
2) Alter the gear ratio between the motor and the wheel to allow the motor to turn faster. Because power is rpm x torque, you can get a higher power by keeping the motor torque low and increasing the motor rpm. Within limits this keeps the motor current low, so improves efficiency, especially if you have variable gearing to allow the motor to spin within its most efficient range no matter what the bike speed.
Certainly keeping the motor cool improves efficiency, as the resistance in the motor windings increases quite a bit with temperature. The lower the motor resistance the more efficiently it will run.
For reliability is also helps to keep the motor as cool as possible, as the magnets and the Hall sensors are both susceptible to damage from high temperature. Generally the magnets or Hall sensors will fail before the windings themselves suffer enough damage to the wire insulation to fail.
I know these three valuable components, (BATTERY,CONTROLLER AND MOTOR),all do work in sequence,but under varaible condition which of the three components in your opinion tops the efficiency ranking rate?
Mountainsport. I hope that you all EAT and DRANK well xxxxxxxxxxxxxxxxxxx
The motor has the greatest losses, usually by a fair bit. Even the best ebike motor will struggle to peak at better than 90% efficiency and most are around 80 to 85% as a rule. Heavily or lightly loaded the motor efficiency will be a lot lower than this figure.
The controller efficiency is usually pretty good, typically around 98 to 99% if the controller is running within its design current limit. Modding controllers for greater current, without changing the internal components for ones with lower losses, will make this a bit worse, sometimes by enough to cause overheating damage.
Battery efficiency should be pretty high, typically 98 to 99% or better. The exception is some of the batteries available that use low maximum discharge rate cells intended for use in laptops. These can have a high internal resistance and cause a substantial drop in efficiency. For example, a 10 Ah, 36V nominal pack made from low internal resistance cells could be as much as 99.5% efficient during a 10A discharge, the same pack made from high internal resistance cells would only be around 92% efficient during a 10A discharge.
So, the two areas likely to give the most benefit when looking for better efficiency (which translates to better range and potentially also improved reliability) are really the motor and battery pack. Picking the motor that is the best match to the speed you want, together with the sort of terrain you normally ride, will make the biggest difference, followed by picking the battery that will best fit the bike for the performance you need and has the lowest internal resistance.
It's always a compromise though, as the best motor might be too big and heavy for your needs and so might the best battery pack.
