If protection is triggered, go to the Controller > Status flags > Throttle error, if On is set, then it is required to calibrate the throttle or increase the maximum throttle voltage in the Controller > Throttle max mV. You can increase it gradually in steps of 100mV.
Check battery settings (minimum/maximum voltage).
Check the temperature sensor of the motor (the temperature value must not be outside the limits).
Check the kV of the motor in the Motor section, it should not be zero, otherwise launch motor detection and correct the angles again.
Check throttle setting, throttle error flag should not be present.
Check if the brake is pressed, the main screen will show the P icon, check the range of the analog brake sensor if connected.
Check if neutral is turned on, the main screen will show N.
Check the Controller flag > Status flags > Overcurrent, if it is On then try to turn the motor by hand, if it resists - disconnect the controller phases from the motor and twist by hand again if the torsion resistance remains then the motor is faulty, if the motor starts to rotate freely — contact for technical support, the controller may be faulty.
Check the battery charging current and maximum voltage settings.
Check Controller > Status flags > U power supply exceeded flag, if On is present, it may mean that the BMS disconnected the charging channel due to the overvoltage on the cells and the controller went into protection. In this case, it is recommended to lower the maximum battery voltage setting for a smoother and more predictable limitation of the regenerative current.
Check if the motor turns freely by hand, if not, see the Overcurrent flag above.
Increase detection current (for example, twice), you can also push the motor with your hand at the start (be careful).
Check the performance of the hall sensors in the Controller > Debug information > Hall input section, this parameter has three digits, each shows the signal level, if you rotate the motor slowly by hand, then all three digits should change. If none of them changes, check if the hall connector is connected or the ground may be broken. If one of the numbers does not change, there is no contact or the sensor wire is broken. To check the contacts in the controller, you need to disconnect the hall connector and measure the voltage at the controller connector. There should be about 4V on the signal lines of the halls, 5V on the power supply and about 3V on the temperature sensor line.
Try decrease battery current in Сontrol modes in controller menu or check you battery BMS settings for maximum allowable current.
Usually this happens when BMS turns off everything in case of overload.
The display calculates the remaining battery capacity based on Wh consumption from the controller(s). If your statistics do not reset at full battery charge, check that in the Controller-Battery menu, your Full charge delta is sufficient to trigger a reset at full charge, or ensure that your battery min-max voltage is configured correctly.
Reset calculated as: Supply max - Full charge = reset threshold.
It happens only when the controller turns on, and if the voltage is above the threshold, consumption will be reset.
In the Controller > Logger menu section, you can enable and configure the data logging during the operation of the Controller. Full documentation about logger here.
For this you will need microSD card or bluetooth dongle with app.
Note: Log rates faster than 10ms (e.g., 1ms and less) may result in gaps in logger data due to the limits of the CAN bus speed. You can select 'Mode = Max rate' to attempt recording at the maximum possible data rate.