the 2Does m510 have cadence sensor or torque sensor?
the 2Does m510 have cadence sensor or torque sensor?
So both? Why does it feel like it's only cadence? I've ridden few m510 bikes and they all feel like giving same assistance no matter how much pedal pressure.the 2
It has both sensors.So both? Why does it feel like it's only cadence? I've ridden few m510 bikes and they all feel like giving same assistance no matter how much pedal pressure.
Can this be tweaked in BESST?
It is Go+ app over some Bafang display with BT. For example DPC245 or DPC080.Which app and hardware are you using to connect to the motor here?
I also have an M510 and need to update these settings.
Dado, thanks for the answer, I did not want to spread my incorrect conclusions about the issue of communication between the controller and the BMS. Having examined a non-original battery, I found that it has a BMS and I understand that this BMS already has a program for its operation, i.e. the range of voltages and currents for cutting off the overload of high and low voltage. Do I understand correctly that if you use a modifier or firmware editor to find and change the parameters responsible for disconnecting the engine at low and high voltage, you can change the operating range of the engine. i.e. if you flash the controller with firmware for 43V, install a battery for 48V, find these parameters in the firmware and change the operating range of 52V (100%) - 39V (0%), then I will be able to use the battery as efficiently as possible. And let's say if we want to control the battery cells separately (independently), you can install a Bluetooth-controlled BMS on the battery or, at least, one controlled by BluetoothPlease do not make up things. There is nothing like "controller sends a request to the battery to reduce output power". Battery can not regulate output power, controller is regulating power to the windings. We have enough of untrue on this world, so please stop this, especially at technical field.
Controller is estimating battery percentage just from battery voltage (when you dont have battery with CAN communication). It is like this with bafangs since beginning.
Yep, shouldnt be swittching off suddenly at 20% - I guess some non quality battery, you get a big voltage drop and then BMS is tripping. Does it happening when you press throttle or you start to push into pedals on PAS 5?
Bafang SOC % estimation method is not much accurate, dont be surprised when percentage is jumping.
With undervoltage, controller should not hard shut down, but should give you undervoltage error message.
43V firmware and 48V battery - you will be sucking battery even lower and should behave same.
All e-bike batteries will have a BMS, that’s what handles the charging process, balances the cells, limits the current output, among other things. CAN allows for the bike to communicate with the BMS to learn things like cell health, charge status, cycle count etc. It’s a communication path for the BMS to share what it knows with the bike.Dado, thanks for the answer, I did not want to spread my incorrect conclusions about the issue of communication between the controller and the BMS. Having examined a non-original battery, I found that it has a BMS and I understand that this BMS already has a program for its operation, i.e. the range of voltages and currents for cutting off the overload of high and low voltage. Do I understand correctly that if you use a modifier or firmware editor to find and change the parameters responsible for disconnecting the engine at low and high voltage, you can change the operating range of the engine. i.e. if you flash the controller with firmware for 43V, install a battery for 48V, find these parameters in the firmware and change the operating range of 52V (100%) - 39V (0%), then I will be able to use the battery as efficiently as possible. And let's say if we want to control the battery cells separately (independently), you can install a Bluetooth-controlled BMS on the battery or, at least, one controlled by Bluetooth
No worries, I am just sensitive to technical nonsenses.Dado, thanks for the answer, I did not want to spread my incorrect conclusions about the issue of communication between the controller and the BMS. Having examined a non-original battery, I found that it has a BMS and I understand that this BMS already has a program for its operation, i.e. the range of voltages and currents for cutting off the overload of high and low voltage. Do I understand correctly that if you use a modifier or firmware editor to find and change the parameters responsible for disconnecting the engine at low and high voltage, you can change the operating range of the engine. i.e. if you flash the controller with firmware for 43V, install a battery for 48V, find these parameters in the firmware and change the operating range of 52V (100%) - 39V (0%), then I will be able to use the battery as efficiently as possible. And let's say if we want to control the battery cells separately (independently), you can install a Bluetooth-controlled BMS on the battery or, at least, one controlled by Bluetooth
Will a 52v on a m600 give you better range?You can run the M600's on a 52V full charge ( 58.4V ) without a problem, well at least my one will.
Don't forget with 52 volts you get slightly a higher cadence if you want it and slightly cooler motor ( negliable ). The M600's at 52 volts and short cranks are a nice combination as the motor seems to like spinning at a relatively high cadence to get the best from it.
As much as we want better range by going to higher voltages, power at the back wheel is simply watts of energy and if you need X amount of power to get from A to B then the range will be very similar across voltages. What a lot of people mistake is that the time taken to get from A to B is less at higher voltages ( basically your motor is outputting higher watts at each level ) and then say that the range is reduced.Will a 52v on a m600 give you better range?
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