Integrated button antenna structure

What is claimed is: 1. An electronic device comprising: a printed circuit board (PCB) comprising radio frequency (RF) circuitry and power button circuitry; and an integrated power button-antenna structure electrically coupled to the PCB, the integrated power button-antenna structure to operate as an antenna and a power button, wherein the integrated power button-antenna structure comprises: a dome switch comprising a first electrode and a second electrode; an antenna trace comprising a proximal end and a distal end, the proximal end coupled to a RF feed terminal disposed on the PCB and the distal end coupled to a ground terminal disposed on the PCB, wherein the RF feed terminal is coupled to the RF circuitry, and wherein the antenna trace is directly connected to the second electrode at a first connection point between the proximal end and the distal end of the antenna trace; and a button trace comprising a proximal end and a distal end, the proximal end of the button trace coupled to an input terminal of the power button circuitry and the distal end of the button trace coupled to the first electrode at a second connection point, wherein the dome switch is operable to produce a power on-off signal on the button trace when the dome switch is activated, and wherein the RF circuitry is operable to radiate or receive a RF signal via the second electrode and the antenna trace when the dome switch is not activated. 2. The electronic device of claim 1 , wherein the RF circuitry is operable to radiate or receive electromagnetic energy in a wireless local area network (WLAN) frequency band, and wherein a frequency of the power on-off signal is lower than the WLAN frequency band. 3. The electronic device of claim 1 , further comprising: a RF choke coupled between the button trace and the power button circuitry, wherein the RF choke operates as a short circuit for power on-off signals within a first frequency range and as an open circuit for antenna signals within a second frequency range, the second frequency range being higher than the first frequency range; and a series capacitor coupled to the antenna trace and the RF feed terminal, wherein the series capacitor operates as an open circuit for the power on-off signals within the first frequency range and as an impedance matching component for the antenna signals within the second frequency range. 4. The electronic device of claim 1 , wherein the integrated power button-antenna structure is printed on the PCB. 5. The electronic device of claim 1 , wherein the integrated power button-antenna structure is printed on a flex circuit that connects to a zero insertion force (ZIF) connector of the PCB, wherein the ZIF connector comprises the RF feed terminal, the input terminal, and ground terminal. 6. An apparatus comprising: a substrate; a first conductive trace disposed on the substrate; a second conductive trace disposed on the substrate; and a switch mechanism comprising a non-conductive portion and a conductive portion, wherein the switch mechanism electrically connecting the first conductive trace and the second conductive trace to produce a first signal when the switch mechanism is activated, and wherein the second conductive trace forms an antenna element to radiate or receive electromagnetic energy; a feeding point coupled to a first end of the second conductive trace; a button input coupled to a first end of the first conductive trace; a grounding point coupled to a second end of the second conductive trace; a radio frequency (RF) choke coupled between the button input and the first conductive trace, the RF choke being operable to electrically connect the first conductive trace to the button input for button signals within a first frequency range and to electrically isolate the first conductive trace from the button input for antenna signals within a second frequency range, wherein the second frequency range is higher than the first frequency range; and a matching component coupled between the feeding point and the second conductive trace, the matching component being operable to match an impedance of the antenna element to an impedance of RF circuitry used to radiate or receive electromagnetic energy in the second frequency range, and wherein the matching component is operable to electrically isolate the second conductive trace from the feeding point for button signals within the first frequency range. 7. The apparatus of claim 6 , wherein the RF choke is an inductor and the matching component is a capacitor. 8. The apparatus of claim 6 , wherein the second frequency range is approximately 2400 MHz to approximately 2500 MHz. 9. The apparatus of claim 6 , wherein the second conductive trace comprises a U-shape trace, and wherein a second end of the first conductive trace extends into an opening of the U-shape trace such that the switch mechanism electrically couples the first conductive trace to the U-shape trace to produce the first signal when the switch mechanism is activated. 10. The apparatus of claim 9 , wherein the second conductive trace is formed as a loop element that connects to the feeding point at the first end, extends in a first direction towards a first fold, extends from the first fold to a second fold in a second direction, extends from the second fold to a third fold in a third direction that is opposite the first direction, extends from the third fold to a fourth fold in a fourth direction that is opposite the second direction, and extends from the fourth fold to the grounding point in the third direction. 11. The apparatus of claim 10 , wherein the U-shape trace is connected to the loop element between the third fold and the fourth fold, and wherein the first conductive trace extends from a point on the loop element between the third fold and the fourth fold in the first direction to a fifth fold and extends from the fifth fold to the second end of the first conductive in the fourth direction. 12. The apparatus of claim 9 , wherein the first conductive trace is a metallic pad and the second conductive trace is a metallic ring that surrounds the metallic pad. 13. The apparatus of claim 12 , further comprising a circuit board, the circuit board comprising a connector connected to the substrate, wherein the substrate is a flexible substrate, wherein the connector comprises a RF feed terminal that is coupled to the feeding point, an input terminal that is coupled to the button input, and a ground terminal that is coupled to the grounding point. 14. The apparatus of claim 6 , wherein the switch mechanism is a dome switch. 15. An electronic device comprising: a housing; and a circuit board disposed within the housing, wherein the circuit board comprises: a first circuit to power-on or power-off the electronic device; and a radio frequency (RF) circuit to receive data from or transmit data to another device; and a dome switch disposed in an opening of the housing at a first side of the electronic device and the dome switch is coupled to the first circuit, wherein the dome switch comprises: a first electrode disposed on a substrate and coupled to the first circuit via a button trace; a second electrode disposed on the substrate and coupled to a ground terminal on the circuit board via a grounding trace; a switch disposed above at least portions of the first electrode and the second electrode; and a conductive trace coupled to a RF feed on the circuit board and ground trace wherein the conductive trace is directly connected to the second electrode, wherein the RF circuit is operable to radiate or receive electromagnetic energy via an a