Multiple RF band operation in mobile devices

What is claimed is: 1. A dual band mobile communication device comprising: a processor; a first radio frequency band transceiver; a second radio frequency band transceiver; an antenna; and a memory storing a radio frequency band selection application configured to monitor a proximity utilizing an RSSI value associated with a wireless signal received at either the first radio frequency band transceiver or the second radio frequency band transceiver and responsive to the proximity operate the dual band mobile communication device in a first radio frequency band or a second radio frequency band, wherein the radio frequency band selection application is further configured to monitor a plurality of interference levels in a plurality of channels in both the first radio frequency band and the second radio frequency band, wherein the radio frequency band selection application is configured to select a low interference channel when switching between operation in the first radio frequency band and operation and the second radio frequency band. 2. The dual band mobile communication device of claim 1 , wherein the proximity is a proximity between the dual band mobile communication device and a base device. 3. The dual band mobile communication device of claim 1 , wherein the proximity is a near status or a far status relative to a base device. 4. The dual band mobile communication device of if claim 1 , wherein the first radio frequency band transceiver is an ISM band transceiver at the second radio frequency band transceiver is a DECT transceiver. 5. The dual band mobile communication device of if claim 4 , wherein the ISM band transceiver is a Bluetooth transceiver. 6. The dual band mobile communication device of claim 1 , wherein the radio frequency band selection application is configured to monitor the proximity while the dual band mobile communication device is in an idle-locked state, the idle-locked state utilizing either the first radio frequency band transceiver or the second radio frequency band transceiver. 7. The dual band mobile communication device of claim 1 , wherein the radio frequency band selection application is configured to monitor the proximity while the dual band mobile communication device is in a voice communication linked state. 8. A dual band mobile communication device comprising: a processor; a first radio frequency band transceiver; a second radio frequency band transceiver; an antenna; and a memory storing a radio frequency band selection application configured to monitor a proximity utilizing an RSSI value associated with a wireless signal received at either the first radio frequency band transceiver or the second radio frequency band transceiver and responsive to the proximity operate the dual band mobile communication device in a first radio frequency band or a second radio frequency band, wherein the radio frequency band selection application is configured to monitor the proximity while the dual band mobile communication device is in an idle-locked state, the idle-locked state utilizing either the first radio frequency band transceiver or the second radio frequency band transceiver. 9. The dual band mobile communication device of claim 8 , wherein the proximity is a proximity between the dual band mobile communication device and a base device. 10. The dual band mobile communication device of claim 8 , wherein the proximity is a near status or a far status relative to a base device. 11. The dual band mobile communication device of if claim 8 , wherein the first radio frequency band transceiver is an ISM band transceiver at the second radio frequency band transceiver is a DECT transceiver. 12. The dual band mobile communication device of if claim 11 , wherein the ISM band transceiver is a Bluetooth transceiver. 13. The dual band mobile communication device of claim 8 , wherein the radio frequency band selection application is further configured to monitor a plurality of interference levels in a plurality of channels in both the first radio frequency band and the second radio frequency band, wherein the radio frequency band selection application is configured to select a low interference channel when switching headset operation between operation in the first radio frequency band and operation and the second radio frequency band.