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AviatorBJP · 03-18-2012, 01:57 PM

Here is an idea (possibly a stupid one) for a BMS that uses a DC-DC converter and an AUX battery to support the weakest battery at any given time. I call it the "Buddy Battery" method.

Like a normal 12 volt aux system, a DC-DC converter thieves energy away from the entire pack, at say 144 volts, and converts it into 12 volts with minimal losses. That part is no different from any other car out there, but I noticed a resemblance to the "Switched Transformer, Energy Converter" BMS system mentioned in an article on EVDL's website

The buddy battery system intelligently picks out the battery with the lowest charge and, through a series of high amp mosfets, places the aux battery in parallel with that one battery. This helps the low battery charge, or at least lets it not work as hard, so that it becomes even with the remainder of the pack. As soon as that battery is no longer the weakest in the bunch, the switches rearrange and place the buddy battery in parallel with the new lowest battery.

The system needs only to operate during charging and driving, and can be switched off easily when the car is idle. Throw in a fuse to stop any dangerous current, and possibly use a resistor to slow down the current draining from the buddy battery.

I could possibly foresee an issue during charging. If the individual battery voltages of the traction pack are higher than the auxiliary system, then current will want to fly the opposite direction. This could in theory be remedied by a beefy diode.

It also seems like you could modify this system to balance LiFePo4 cells as well, if you used an independent DC-DC converter and aux cell that put out 3.2+ volts instead of 12.

What do you guys think? Should I try to build it? See any gaping holes? Please let me know what you think!

Thanks,
AviatorBJP

03-18-2012, 01:57 PM	#1 (permalink)
AviatorBJP Electric Car Builder Join Date: Sep 2011 Location: Logan, UT Posts: 16 Thanks: 3 Thanked 1 Time in 1 Post	"Buddy Battery" BMS Idea Here is an idea (possibly a stupid one) for a BMS that uses a DC-DC converter and an AUX battery to support the weakest battery at any given time. I call it the "Buddy Battery" method. Like a normal 12 volt aux system, a DC-DC converter thieves energy away from the entire pack, at say 144 volts, and converts it into 12 volts with minimal losses. That part is no different from any other car out there, but I noticed a resemblance to the "Switched Transformer, Energy Converter" BMS system mentioned in an article on EVDL's website The buddy battery system intelligently picks out the battery with the lowest charge and, through a series of high amp mosfets, places the aux battery in parallel with that one battery. This helps the low battery charge, or at least lets it not work as hard, so that it becomes even with the remainder of the pack. As soon as that battery is no longer the weakest in the bunch, the switches rearrange and place the buddy battery in parallel with the new lowest battery. The system needs only to operate during charging and driving, and can be switched off easily when the car is idle. Throw in a fuse to stop any dangerous current, and possibly use a resistor to slow down the current draining from the buddy battery. I could possibly foresee an issue during charging. If the individual battery voltages of the traction pack are higher than the auxiliary system, then current will want to fly the opposite direction. This could in theory be remedied by a beefy diode. It also seems like you could modify this system to balance LiFePo4 cells as well, if you used an independent DC-DC converter and aux cell that put out 3.2+ volts instead of 12. What do you guys think? Should I try to build it? See any gaping holes? Please let me know what you think! Thanks, AviatorBJP Attached Thumbnails