The XBee radio does all of the hard work, it listens on two analog input ports (AD0 and AD4) for voltage and current data. Then it transmits that information wirelessly to the host computer receiver XBee. There are a few we have to engineer around to make it Work:

1. We want to run the XBee off the Kill-a-Watt's internal power supply. However its current limited and wont provide 50mA in a burst when the XBee transmits. We solve this by adding a simple 'rechargeable battery' in the form of a really large capacitor C4.

2. The Kill-a-Watt runs at 5V but XBees can only run at 3.3V so we have a voltage regulator IC1 and two capacitors two stabilize the 3.3V supply, C1 and C2.

3. The XBee will transmit every few seconds, even while the capacitor is charging. This means that it will keep draining the capacitor, resetting, and trying again, basically freaking out while the power supply is still building. We prevent this by adding another fairly big capacitor C3 on the reset line. This slows down the XBee, delaying the startup by a few seconds & keeps the XBee from starting up till we have solid power.

4. The XBee analog sensors run at 3.3V but the Kill-a-Watt sensors run at 5V. We use simple voltage dividers R3/R4 and R5/R6 to reduce the analog signal down to a reasonable level