Wireless system selection based on data connectivity

What is claimed is: 1. A method performed by a multi-mode communication device (MMD), comprising: establishing a communication channel with a first radio access network (RAN) by the MMD, the communication channel including at least a voice connection, wherein the first RAN operates according to a first radio access technology (RAT); establishing a first data connection with the first RAN, wherein the first data connection is separate from the voice connection; determining a quality of the first data connection on the first RAN, wherein determining the quality of the first data connection comprises comparing a speed of the first data connection to a pre-determined data channel speed threshold value; determining a second RAT that transfers data at a faster speed than the first RAT; searching for a second RAN that operates according to the second RAT during a background operation by periodically polling a status of the second RAN while the first data connection is active; and establishing a second data connection on the second RAN by the MMD when the speed of the first data connection on the first RAN falls below the pre-determined data channel speed threshold value. 2. The method as recited in claim 1 , wherein the searching for the second RAN uses information stored in the MMD. 3. The method as recited in claim 2 , wherein the information stored in the MMD used to search for the second RAN is polling information gathered by the MMD. 4. The method as recited in claim 1 , wherein the second RAT is related to the first RAT. 5. The method as recited in claim 4 , wherein the first RAT is GSM and wherein the second RAT is UMTS. 6. The method as recited in claim 4 , wherein the first RAT is CDMA2000 1× and wherein the second RAT is CDMA2000 1×EV-DO. 7. A multi-mode device (MMD), comprising: a first wireless interface arranged to establish a first communication channel between the MMD and a first radio access network (RAN) based upon a first radio access technology (RAT); a second wireless interface arranged to establish a second communication channel between the MMD and a second radio access network (RAN) based upon a second radio access technology (RAT); a memory store arranged to store at least instructions used to execute control logic; and a processor arranged to access the instructions in the memory store and execute the control logic, the control logic configured to cause the MMD to: activate the first wireless interface to establish the first communication channel with the first RAN, the first communication channel comprising at least a voice connection; establish a first data connection with the first RAN, wherein the first data connection is separate from the voice connection; determining that a data transfer speed of the second RAT is faster than that of the first RAT; search for the second RAN during a background operation by periodically taking a poll of the second RAN while the first communication channel is active; determine a quality of the data connection on the first RAN, wherein the quality of the first RAN includes a speed of the data connection on the first RAN; when the speed of the data connection falls below a data connection speed threshold, activate the second wireless interface; establish the second communication channel on the second RAN, the second communication channel comprising at least a second data connection; determine a quality of the second data connection, wherein the quality of the second data connection includes a speed of the second data connection on the second RAN; compare the speed of the first data connection to the speed of the second data connection; and in response to the comparison, deactivate the first wireless interface. 8. The MMD as recited in claim 7 , the control logic further configured to cause the MMD to identify the second RAN using information stored in the memory store. 9. The MMD as recited in claim 8 , wherein the information stored in the memory stores used to identify the second RAN is polling information gathered by the MMD. 10. The MMD as recited in claim 7 , wherein the second RAT is related to the first RAT. 11. The MMD as recited in claim 10 , wherein the first RAT is GSM and wherein the second RAT is UMTS. 12. The MMD as recited in claim 10 , wherein the first RAT is CDMA2000 1× and wherein the second RAT is CDMA2000 1×EV-DO. 13. A multi-mode device (MMD), comprising: means for establishing a communication channel with a first radio access network (RAN), the communication channel including at least a voice connection, wherein the first RAN operates according to a first radio access technology (RAT); means for establishing a first data connection with the first RAN, wherein the first data connection is separate from the voice connection; means for determining a quality of the first data connection on the first RAN, wherein determining the quality of the first data connection comprises comparing a speed of the first data connection to a pre-determined data channel speed threshold; determining a second RAT that transfers data at a faster speed than the first RAT; means for searching for a second RAN that operates according to the second RAT during a background operation comprising means for periodically polling the second RAN while the communication channel is active; and means for establishing a second data connection on the second RAN by the MMD when the speed of the first data connection on the first RAN falls below the pre-determined data channel speed threshold. 14. The apparatus as recited in claim 13 , further comprising: means for activating a communication circuit in the MMD used to support the second RAN when it is determined that the speed of the first data connection on the first RAN falls below the pre-determined data channel speed threshold; means for using information stored in the MMD to search for the second RAN; and means for deactivating a communication circuit in the MMD used to support the first RAN when the second data connection on the second RAN is established. 15. The apparatus as recited in claim 14 , wherein the information stored in the MMD used to search for the second RAN is polling information gathered by the MMD. 16. The apparatus as recited in claim 13 , wherein the second RAT is related to the first RAT. 17. Non-transitory computer readable medium for storing computer code executable by a processor in a multi-mode communication device (MMD), the computer readable medium comprising: computer code for establishing a communication channel with a first radio access network (RAN) by the MMD, the communication channel including at least a voice connection, wherein the first RAN operates according to a first radio access technology (RAT); computer code for establishing a first data connection with the first RAN, wherein the first data connection is separate from the voice connection; computer code for determining a quality of the data connection on the first RAN, wherein determining the quality of the first data connection comprises comparing a speed of the first data connection to a data channel speed threshold value; computer code for determining a second RAT that transfers data at a faster speed than the first RAT; computer code for searching for a second RAN that operates according to the second RAT by the MMD during a background operation by periodically polling the second RAN; and computer code for determining a quality of a second data connection on the second RAN, wherein determining the quality of the second data connection comprises determin