Hacking Duracell's Powermat Battery: Difference between revisions

While camping this summer, I discovered that my cell phone will quickly suck its battery dry while trying to maintain cell connection in marginal coverage areas. So, when the local discount warehouse had the Duracell Powermat battery pack for $5, I picked one up. It works great for keeping my phone charged, especially when I'm using it as a wifi hotspot for my tablet or netbook.

I don't know why this unit is suddenly being dumped on the market at low prices. Huge overproduction, some hidden defect, or perhaps the newer iPhones are finicky about what chargers they accept? Dunno.

When the local Dollar Store had bunches of them for $3, it was the time and price to hack them for other uses! (I should have bought a bunch because, as great stocking-stuffers, they were gone when I went back next week. Hopefully there be more later.)

The tiny manual says "Do not disassemble the charging device. There are no user-serviceable parts inside." Bwahahahaha! (Read Vernor Vinge's Rainbows End for what I think of that!)

Battery unit

• Charge input:

1. Micro-USB connector and 5" USB cable.
2. Duracell Powermat inductive pickup. (Base charger not included.)

• Output: Built-in Apple and micro-USB connectors, 5V 1A.
• 1850 mAh lithium battery.
• Power button and 4 charge level LEDs.
• Case: 3"x3"x3/4", rounded corners, aluminum or aluminum-like plastic body, black or white colored top and bottom.

Thoughts

Because batteries don't keep a steady voltage during their discharge cycle, and smart phones are picky eaters, it probably has some kind of boost/buck converter to maintain a constant output just under 5 volts. Likely it also has one on the inductive charging input pickup to turn the AC into DC at the correct battery charging voltage. That has the possibility of being hacked as an input from a number low power sources: small solar cells, wind belts, lemons, etc. If not, then rolling your own boost converter isn't hard. I also have similar 1.5V AA to USB chargers that could be re-purposed too.

Reading the manual, the Powermat base unit can detect when the battery has been fully charged through the inductive pickup. Interesting. I looked to see if anyone had pulled one apart to see how the system works, but didn't find anything. It's probably something clever checking the load on the inductive output. (The inductive pickup is just a transformer with separate windings.)

No doubt this unit has its own microcontroller embedded in there somewhere to manage everything. It'd be nice if it had overcapacity, spare I/O and could be hacked and harnessed, but I wouldn't bet on it. (It's a battery pack, not a Qeng Ho localizer.)

Sample applications

• Emergency light with three LEDs and resistor left over from a broken flashlight. Charged from a USB hub.
• Rechargable battery pack for radio. Replaces 3 AA batteries.
• Remote power. Re-purpose a cheap solar patio light as a case and low power charger. Use it to power wireless sensors, alarms, data collection, etc.
• A cheap UPS for projects like a Raspberry Pi or Arduino.

Problems

• When the battery is drained or there is no load on the output, the battery will switch off. Switching it back on requires a button press.
  • Low power applications might not be enough load to keep the battery on. (e.g. a nightlight that's off during the day.)
  • If the battery drains, it won't switch back on when it has recharged.
  • Work-around: hard-wire the button on?
• Power cycling as a UPS. The battery will charge a phone while being charged/maintained itself. However an initial test showed that, on input power loss, it doesn't smoothly switch from charge input to battery power, and caused a reset of my Raspberry Pi.
  • Work-around: A big cap on the output to smooth-out the fluctuation?

Progress

More later as I disassemble my sacrificial unit.