Hello hello,
I've modified my scooter style ebike (a Kaishan K500WS) to have more tourque at the flip of a rocker switch. It's set up so that the rocker switch directs 12 volts from the dc-dc converter to a relay mounted on the controller, which bypasses half of the two shunt resistors. This results in an impressive increase in torque, but a slight heat build up in the battery connector (a three prong connector used to power computers and other electronic devices). This connector does not get dangerously hot, but it means it is losing energy. Oh well - the torque increase is controlled by a switch for the purpose of only using it when necessary.
This is nothing to do with the reason I began writing this. You see, my next modification will be to wire in a second, smaller set of batteries. these will be switched to with a relay, controlled by a rocker switch. However the relay get's power to do the switching from the dc-dc converter, which will lose power when the relay disconnects the 1st battery. I'm hoping that a capacitor from a dead charger will provide enough power to keep the relay charged until it switches all the way to the 2nd battery and gets more power again. Anyway, the question I have is this: Will the controller be damaged if this momentary loss of power occurs while the motor is under load, from the throttle being turned, especially up a hill?
I plan to avoid this theoretical problem by using a second relay. This relay would normally allow the throttle signal to reach the controller, however when the battery relay switches, so too will the throttle relay, disconnecting the throttle signal to the controller. Then once the throttle relay reaches second position, the throttle will be re-connected to the controller, because both default and switched positions on the relay connect the throttle. It is only during the switch from one battery to another, which will take less than a second, that the throttle is disconnected. this will perform two purposes: It will eliminate the problem of the motor being under load, and therefore the controller will be "at rest" while power is cut. And it will reduce the current flowing through the battery relay, thereby making it last longer.
If my theory is correct, which will be tested Monday, this setup will be "idiot-proof". I'm hoping.
As for the relay on the shunt resistors, it is rated for 30 amps, which should be more than enough, but I suspect it too will last longer if switching is done when the motor is not under load. I suppose (although I doubt it's necessary) a throttle relay could be engaged while the high-torque switch is activated. I won't bother though. Besides, if the relay fails, it's not hard to replace.
Any thoughts would be appreciated. Feel free to point out any mistakes - It's always nice to learn mistakes the easy way. Thanks.
-Colin
I've modified my scooter style ebike (a Kaishan K500WS) to have more tourque at the flip of a rocker switch. It's set up so that the rocker switch directs 12 volts from the dc-dc converter to a relay mounted on the controller, which bypasses half of the two shunt resistors. This results in an impressive increase in torque, but a slight heat build up in the battery connector (a three prong connector used to power computers and other electronic devices). This connector does not get dangerously hot, but it means it is losing energy. Oh well - the torque increase is controlled by a switch for the purpose of only using it when necessary.
This is nothing to do with the reason I began writing this. You see, my next modification will be to wire in a second, smaller set of batteries. these will be switched to with a relay, controlled by a rocker switch. However the relay get's power to do the switching from the dc-dc converter, which will lose power when the relay disconnects the 1st battery. I'm hoping that a capacitor from a dead charger will provide enough power to keep the relay charged until it switches all the way to the 2nd battery and gets more power again. Anyway, the question I have is this: Will the controller be damaged if this momentary loss of power occurs while the motor is under load, from the throttle being turned, especially up a hill?
I plan to avoid this theoretical problem by using a second relay. This relay would normally allow the throttle signal to reach the controller, however when the battery relay switches, so too will the throttle relay, disconnecting the throttle signal to the controller. Then once the throttle relay reaches second position, the throttle will be re-connected to the controller, because both default and switched positions on the relay connect the throttle. It is only during the switch from one battery to another, which will take less than a second, that the throttle is disconnected. this will perform two purposes: It will eliminate the problem of the motor being under load, and therefore the controller will be "at rest" while power is cut. And it will reduce the current flowing through the battery relay, thereby making it last longer.
If my theory is correct, which will be tested Monday, this setup will be "idiot-proof". I'm hoping.
As for the relay on the shunt resistors, it is rated for 30 amps, which should be more than enough, but I suspect it too will last longer if switching is done when the motor is not under load. I suppose (although I doubt it's necessary) a throttle relay could be engaged while the high-torque switch is activated. I won't bother though. Besides, if the relay fails, it's not hard to replace.
Any thoughts would be appreciated. Feel free to point out any mistakes - It's always nice to learn mistakes the easy way. Thanks.
-Colin
