Portable computing device with wireless power distribution

What is claimed is: 1. A core module for a portable computing device, the core module comprises: a battery power circuitry, when operable, to output a battery voltage; a converter drive circuit, when operable, to generate from the battery voltage a primary voltage at a switching frequency; a transformer operable to convert the primary voltage to a secondary voltage at the switching frequency; a rectifying and filtering circuit operable to convert the secondary voltage to at least one power supply voltage for the core module; a radio frequency (RF) link interface operable to couple to an RF wired link of the portable computing device; and a processor operable to: communicate control information with at least one of a plurality of multi-mode RF units of the portable computing device in a first frequency band via the RF link interface; communicate wireless communication data with the at least one of the plurality of multi-mode RF units in a second frequency band via the RF link interface; communicate clock information to the plurality of multi-mode RF units in a third frequency band via the RF link interface; and enable an output of the secondary voltage to the at least one of the plurality of multi-mode RF units in a fourth frequency band via the RF link interface. 2. The core module of claim 1 , wherein the battery power circuitry comprises: a battery, when coupled, to output the battery voltage; and a battery charger, when operable, to charge the battery. 3. The core module of claim 1 , wherein the converter drive circuit comprises at least one of: a buck topology drive circuit; a boost topology drive circuit; a half-bridge topology drive circuit; and a full-bridge topology drive circuit. 4. The core module of claim 1 further comprises: a wireless power receiver circuitry, when operable, to: receive a wireless power transmit signal; and convert the wireless power transmit signal into a supply voltage. 5. The core module of claim 1 further comprises: a data circuitry operable to generate data; and the converter drive circuit further including a data modulation circuit this operable to modulate control data onto the secondary voltage to produce a data modulated secondary voltage. 6. The core module of claim 5 , wherein the converter drive circuit and the data modulation circuit comprise: a power supply regulation circuit operable to generate a plurality of power supply regulated drive signals; a plurality of transistors that are enabled in accordance with the plurality of power supply regulated drive signals; a pair of half bridge capacitors; and a modulation unit operable to select full bridge mode or half bridge mode based on the data being modulated. 7. The core module of claim 5 , wherein the converter drive circuit and the data modulation circuit comprise: a power supply regulation circuit operable to generate a plurality of power supply regulated drive signals; a modulation unit operable to modulate the plurality of power supply regulated drive signals based on the control data being modulated to produce a plurality of modulated power supply regulated drive signals; a plurality of transistors that are enabled in accordance with the plurality of modulated power supply regulated drive signals; and a pair of half bridge capacitors, wherein the modulation unit is further operable to select full bridge mode or half bridge mode based on the control data being modulated. 8. A core module for a portable computing device, the core module comprises: a radio frequency (RF) link interface operable to couple to an RF wired link of the portable computing device; and a processor operable to: communicate control information with a multi-mode RF unit of the portable computing device in a first frequency band via the RF link interface and the RF wired link; communicate data of a wireless communication with the multi-mode RF unit in a second frequency band via the RF link interface and the RF wired link; and communicate clock information to the multi-mode RF unit in a third frequency band via the RF link interface and the RF wired link. 9. The core module of claim 8 further comprises: a wireless power receiver circuitry, when operable, to: receive a wireless power transmit signal; and convert the wireless power transmit signal into a supply voltage. 10. The core module of claim 8 further comprises: a converter drive circuit, when operable, to generate a primary voltage at a switching frequency from a battery voltage; a transformer operable to convert the primary voltage into a secondary voltage at the switching frequency; and a rectifying and filtering circuit operable to convert the secondary voltage into one or more power supply voltages for the core module. 11. The core module of claim 8 further comprises: a data circuitry operable to generate data; and a converter drive circuit, when operable, to generate a primary voltage at a switching frequency from a battery voltage; and the converter drive circuit further including a data modulation circuit operable to modulate control data onto a secondary voltage to produce a data modulated secondary voltage. 12. The core module of claim 11 , wherein the converter drive circuit and the data modulation circuit comprise: a power supply regulation circuit operable to generate a plurality of power supply regulated drive signals; a plurality of transistors that are enabled in accordance with the plurality of power supply regulated drive signals; a pair of half bridge capacitors; and a modulation unit operable to select full bridge mode or half bridge mode based on the data being modulated. 13. The core module of claim 10 , wherein the processor is further operable to enable an output of the secondary voltage to the multi-mode RF unit in a fourth frequency band via the RF link interface. 14. The core module of claim 10 , wherein the converter drive circuit comprises at least one of: a buck topology drive circuit; a boost topology drive circuit; a half-bridge topology drive circuit; and a full-bridge topology drive circuit. 15. A core module for a portable computing device, the core module comprises: a battery power circuitry, when operable, to output a battery voltage; a converter drive circuit, when operable, to generate from the battery voltage a primary voltage at a switching frequency; a transformer operable to convert the primary voltage to a secondary voltage at the switching frequency; a radio frequency (RF) link interface configured to couple with the portable computing device through an RF wired link; and a processor operable to: communicate control information with one of a plurality of multi-mode RF units of the portable computing device in a first frequency band via the RF link interface; communicate wireless communication data with the one of the plurality of multi-mode RF units in a second frequency band via the RF link interface; communicate clock information to the one of the plurality of multi-mode RF units in a third frequency band via the RF link interface; and enable an output of the secondary voltage to the one of the plurality of multi-mode RF units in a fourth frequency band via the RF link interface. 16. The core module of claim 15 , wherein the battery power circuitry comprises: a battery, when coupled, to output the battery voltage; and a battery charger, when operable, to charge the battery. 17. The core module of claim 15 , wherein the converter drive circuit comprises at least one of: a buck topology dri