I'm on a quest to have an iPhone wallet case that supports wireless charging. I won't bore you with my long list of failures, but would love feedback on this strategy.
I 3d printed a case which puts a coil on the back of the phone, wired around my credit cards, to a coil on the outside of the case. My theory is that the outer coil would relay the charger's current to the coil near the phone – which would charge the phone. I've tried many configurations, chargers, orientations, etc – but it does nothing.
Is this even theoretically possible? Or am I in crazy town?
- Maybe it's a resonance issue?
- Maybe the coils need to be the same size?
- I know the iphone does a handshake before power transfer – maybe that's the issue?
The coils are taken from a wireless charger and receiver and I could not find a schematic from the manufacturer. It just says 5 Volts, 2 amps, 10 watts. I used a voltage meter to verify that both are able to receive power from a wireless charging puck.
End goal is that my wallet sits between the charger and the phone. Here's what my device is supposed to look like:
In case it's helpful, here are the case designs. It's printed in TPU as two separate pieces that will be glued together.
Best Answer
A charger circuit looks like this:
So in theory yes you should be able to do this:
simulate this circuit – Schematic created using CircuitLab
Consider these things:
You have two air gaps in your design this is going to reduce efficiency significantly. The air gaps could also affect detection, try and eliminate the gaps.
You need to build your coil in such a way that the transfomer is 1:1 and it has sufficient bandwidth to pass ~100kHz
The coils will interfere with each other, for starters I would probably start out with the coils side by side (not inline) so that vertical magnetic fields don't interfere. Once you get this working you could try a vertical configuration like in your diagram
The datasheet of the bq5105 should be helpful, you could potentially get a evaluation kit and see if there is an option to force the coil to stay in trasmit mode which would make it much easier for testing. The Qi standard does have foreign object detection so this could also be getting in the way of your goal.