Transformer less battery charger system

What is claimed is: 1. A apparatus comprising: battery charger comprising: input terminals for receiving an AC voltage; output terminals for receiving terminals of a rechargeable battery pack; a non-isolated DC-DC converter coupled between the input terminals and the output terminals; a device for selectively coupling the input terminals to the output terminals; wherein the device couples the input terminals to the output terminals when the rechargeable battery pack terminals are received by the output terminals; wherein the device decouples the input terminals from the output terminals when the rechargeable battery pack terminals are separated from the output terminals; wherein the device is external to the non-isolated DC-DC converter. 2. The apparatus of claim 1 : wherein the device comprises a switch coupled between one of the input terminals and one of the output terminals; wherein the switch closes when the terminals of the rechargeable battery pack are received by the output terminals; wherein the switch opens when the terminals of the rechargeable battery pack are separated from the output terminals. 3. The apparatus of claim 1 : wherein the device comprises a switch coupled between one of the input terminals and an input to the non-isolated DC-DC converter; wherein the switch closes when the terminals of the rechargeable battery pack are received by the output terminals; wherein the switch opens when the terminals of the rechargeable battery pack are separated from the output terminals. 4. The apparatus of claim 1 wherein the battery charger further comprises: a rectifier coupled between the input terminals and the non-isolated DC-DC converter; wherein the device comprises a switch coupled between one of the input terminals and the rectifier; wherein the switch closes when the terminals of the rechargeable battery pack are received by the output terminals; wherein the switch opens when the terminals of the rechargeable battery pack are separated from the output terminals. 5. The apparatus of claim 2 wherein the switch comprises one of a mechanical switch, an optical switch, a magnetic switch, or an electrical switch. 6. The apparatus of claim 1 wherein the battery charger further comprises: a battery charger housing that contains the non-isolated DC-DC converter; wherein the output terminals are exposed through respective openings in the battery charger housing when the battery charger and rechargeable battery pack are separated from each other. 7. The apparatus of claim 1 wherein the battery charger comprises a communication terminal for receiving a communication terminal of the rechargeable battery pack. 8. The apparatus of claim 3 further comprising the rechargeable battery pack, wherein the rechargeable battery pack comprises: the rechargeable battery pack communication terminal; an MCU coupled to rechargeable battery pack communication terminal; wherein the rechargeable battery pack communication terminal is configured to transmit a signal generated by the MCU to the battery charger communication terminal when the rechargeable battery pack communication terminal is received by the battery charger communication terminal. 9. The apparatus of claim 8 wherein a magnitude of an output voltage generated at the output terminals of the battery charger depends on the signal generated by the MCU of the rechargeable battery pack. 10. The apparatus of claim 4 wherein the input terminals, the output terminals, the non-isolated DC-DC converter, and the rectifier are all mounted on a printed circuit board. 11. A method comprising: connecting input terminals of a battery charger to a source of AC power, wherein the battery charger comprises a non-isolated DC-DC converter; connecting output terminals of the battery charger to respective terminals of a rechargeable battery pack; closing a switch that couples one of the input terminals or one of the output terminals to the non-isolated DC-DC converter in response to connecting the rechargeable battery pack terminals to the battery charger output terminals, wherein the switch is a device that is external to the non-isolated DC-DC converter; charging one or more battery cells of the rechargeable battery pack with DC power provided at the output terminals thereof in response to closing the switch; disconnecting the output terminals of the battery charger to respective terminals of a rechargeable battery pack; opening the switch in response to disconnecting the rechargeable battery pack terminals from the battery charger output terminals while the input terminals of the battery charger are connected to the AC power source. 12. The method of claim 11 further comprising: monitoring the non-isolated DC-DC converter for malfunction; in response to detecting a malfunction of the non-isolated DC-DC converter, disconnecting the one of the input terminals to the one of the output terminals. 13. The method of claim 11 wherein the output terminals extend from a non-conductive housing that contains the non-isolated DC-DC converter.