Complementary metal oxide semiconductor differential antenna transmit-receive switches with power combining circuitry for orthogonal frequency-division multiplexing systems

What is claimed is: 1. A radio frequency (RF) transmit-receive switch with an antenna port, first and second transmit differential ports and first and second receive differential ports, the switch comprising: a first transmit transistor switch connected to the first transmit differential port; a second transmit transistor switch connected to the second transmit differential port; a transmit coupled inductor transformer including a pair of primary terminals connected across the first transmit transistor switch and a pair of secondary terminals connected across the second transmit transistor switch; a first receive transistor switch connected to the first receive differential port; a second receive transistor switch connected to the second receive differential port; a receive coupled inductor transformer including a pair of primary terminals connected across the first receive transistor switch and a pair of secondary terminals connected across the second receive transistor switch; and a balun having a first balun inductive winding and a second balun inductive winding, the first balun inductive winding being connected to the antenna port, and the second balun inductive winding defined by a first end connected to the first transmit transistor switch and the first receive transistor switch, and a second end connected to the second transmit transistor switch and the second receive transistor switch. 2. The RF transmit-receive switch of claim 1 , wherein the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, and the second receive transistor switch each has a drain, a gate, and a source. 3. The RF-transmit receive switch of claim 2 , wherein the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, the second receive transistor switch, the transmit coupled inductor transformer, the receive coupled inductor transformer, and the balun are fabricated with a bulk complementary metal oxide semiconductor process. 4. The RF transmit-receive switch of claim 2 , wherein: the primary terminals of the transmit coupled inductor transformer are connected to the drain and the source of the first transmit transistor switch; and the secondary terminals of the transmit coupled inductor transfer are connected to the drain and the source of the second transmit transistor switch. 5. The RF transmit-receive switch of claim 2 , wherein: the primary terminals of the receive coupled inductor transformer are connected to the drain and the source of the first receive transistor switch; and the secondary terminals of the receive coupled inductor transfer are connected to the drain and the source of the second receive transistor switch. 6. The RF transmit-receive switch of claim 1 , wherein the transmit coupled inductor transformer includes: a primary inductive winding defined by a plurality of turns with one end corresponding to a first one of the pair of primary terminals and an opposite end corresponding to a second one of the pair of primary terminals; and a secondary inductive winding defined by a plurality of turns with one end corresponding to a first one of the pair of secondary terminals and an opposite end corresponding to a second one of the pair of secondary terminals; wherein the primary inductive winding is cross coupled with the secondary inductive winding. 7. The RF transmit-receive switch of claim 1 , wherein the first receive transistor switch includes a first transistor cascaded with a second transistor. 8. The RF transmit-receive switch of claim 1 , wherein in a transmit mode, the first transmit transistor switch and the second transmit transistor switch are activated, and the first receive transistor switch and the second receive transistor switch are deactivated. 9. The RF transmit-receive switch of claim 1 , wherein in a transmit mode, the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, and the second receive transistor switch are activated. 10. The RF transmit-receive switch of claim 9 , wherein the activated first receiver transistor switch, the activated second receive transistor switch, and the receive coupled inductor transformer defines a series resonance at a predetermined operating frequency. 11. The RF transmit-receive switch of claim 1 , wherein in a receive mode, the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, and the second receive transistor switch are deactivated. 12. The RF transmit-receive switch of claim 1 , wherein in a receive mode, the first transmit transistor switch and the second transmit transistor switch are deactivated, capacitance associated with the deactivated ones of the first transmit transistor switch and the second transmit transistor switch together with inductance associated with the transmit coupled inductor transformer define a parallel resonant circuit. 13. The RF transmit-receive switch of claim 1 , wherein in a transmit mode, the first receive transistor switch and the second receive transistor switch are deactivated, capacitance associated with the deactivated ones of the first transmit transistor switch and the second transmit transistor switch together with inductance associated with the receive coupled inductor transformer define a parallel resonant circuit. 14. The RF transmit-receive switch of claim 1 , wherein: the first and second transmit differential ports are connected to a transmitter output, and the first and second receive differential ports are connected a receiver input; and the transmitter output and the receiver input is for a 5 GHz WiFi transceiver module. 15. The RF transmit-receive switch of claim 1 , further comprising: first and second combined transmit-receive differential ports; a first combined transmit-receive transistor switch connected to the first combined transmit-receive differential port; a second combined transmit-receive transistor switch connected to the second combined transmit-receive differential port; and a combined transmit-receive coupled inductor transformer including a pair of primary terminals connected across the first combined transmit-receive transistor switch and a pair of secondary terminals connected across the second combined transmit-receive transistor switch. 16. The RF transmit-receive switch of claim 15 , wherein the first combined transmit-receive differential port and the second combined-receiver differential port is connected are connected to respective differential ports of a Bluetooth transceiver module. 17. The RF transmit-receive switch of claim 15 , wherein: the first and second transmit differential ports are connected to a transmitter output, and the first and second receive differential ports are connected a receiver input; and the transmitter output and the receiver input is for a 2.4 GHz WiFi transceiver module. 18. The RF transmit-receive switch of claim 15 , wherein in a receive mode, the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, the second receive transistor switch, the first combined transmit-receive transistor switch, and the second combined transmit-receive transistor switch are deactivated. 19. The RF transmit-receive switch of claim 15 , wherein in a combined transmit-receive mode, the first transmit transistor switch, the second transmit transistor switch, the first receive transistor switch, and the seco