And here's a video of it running.



Gary Hammond,

Hi All,

Just a little update on the swapper. This afternoon I hooked it up to my best bicycle wheel SSG and paralleled each of the 5.5 AH batteries to get 11 AH's each. It was taking the first two charge cycles way over 17 volts in the six minutes I had it programmed at. So I reprogrammed it for a 2 minute cycle time and ran it through about 8 cycles. And it was still charging each parallel pair of batteries to about 16.5 volts. It's not good for the batteries to charge this high!

I either need to load the output or go to a voltage based sensor instead of the time based way I currently have it programmed. Or maybe both. This is the same SSG I had hooked to the manual swapping circuit with 105 AH batteries.

Gary Hammond,

Hi Gary, did you design the whole circuit yourself or did you use some ready made schematic?

Hi Aaron,

Made it myself. Figured out a schematic, designed the boards and had them made. Bought all the components and then soldered it all together. I did previously wire up a "poor mans split the positive battery swapper" following R.S.'s schematic using circuit breakers. Then I changed it to a split the negative so I could get away from using an isolated winding on the power coil. The relays are all connected the same way as the circuit breakers were.

Here are pictures of the control schematic and relay boards.





Gary Hammond,

Further update

I hooked the battery that drives the Arduino and switching up parallel with the charge battery, and after a couple of hours running this way all the batteries were beginning to drop in voltage. Then I changed the switching cycle to every 4 minutes and reduced the switching on times from 500 ms to 300 ms. It ran this way for about 5 hours and the battery voltages all continued to gradually drop.

When I saw the initial 17 volts of the charging battery on the first couple of cycles, I got excited thinking this was going to go overunity. Working with fully charged batteries gives better results than after the batteries all get a little lower in charge. As the battery under charge gets near 15 volts, the differential voltage running the machine can drop as low as 10 volts. This is too low to get the desired results from the coil collapse.

This machine apparently isn't going to self run at 12 volts input. Haven't tried it at 24 volts yet. The batteries may be too small for that. Instead, I will probably try swapping 24 volts on my attraction motor first to see how that one performs. It has a lower current draw and pulls a flux gate generator which can recharge the Arduino battery.

Gary Hammond,