System and method for a radio frequency filter

What is claimed is: 1. An RF system comprising: a transmit path comprising a first tunable transmit band stop filter, and a power amplifier coupled to an output of the first tunable transmit band stop filter, wherein the first tunable transmit band stop filter is configured reject a receive frequency and pass a transmit frequency; a receive path comprising an LNA; and a duplex filter having a transmit path port coupled to an output of the power amplifier, a receive path port coupled to an input of the LNA, and an antenna port, wherein the duplex filter is configured to pass the transmit frequency and reject the receive frequency between the antenna port and the transmit path port, pass the receive frequency and reject the transmit frequency between the antenna port and the receive path port, wherein the transmit path further comprises a second tunable transmit band stop filter coupled to the input of the power amplifier in series with the first tunable transmit band stop filter, and the second tunable transmit band stop filter is configured to reject an image of the receive frequency. 2. The RF system of claim 1 , wherein the RF system further comprises an RF transceiver having a transmit output coupled to an input of the first tunable transmit band stop filter, and a receive input coupled to an output of the LNA. 3. The RF system of claim 1 , wherein the receive path further comprises a first tunable bandpass filter coupled to an input of the LNA, and a second tunable bandpass filter coupled to an output of the LNA, wherein the first tunable bandpass filter and the second tunable bandpass filter are configured to pass the receive frequency and reject the transmit frequency. 4. The RF system of claim 1 , wherein the transmit path further comprises a third tunable transmit band stop filter coupled to the output of the power amplifier. 5. The RF system of claim 1 , further comprising an antenna coupled to the antenna port of the duplex filter. 6. The RF system of claim 1 , wherein the power amplifier comprises a plurality of power amplifier stages. 7. The RF system of claim 6 , wherein the plurality of power amplifiers stages are coupled together without intermediate band stop stages. 8. An RF system comprising: a transmit path comprising a first tunable transmit band stop filter, a power amplifier having an input coupled to an output of the first tunable transmit band stop filter, and a transmit antenna port coupled to an output of the power amplifier, wherein the first tunable transmit band stop filter is configured reject a receive frequency and pass a transmit frequency; and a receive path comprising a first tunable receive band stop filter having an input coupled to a receive antenna port, and an LNA having an input coupled to an output of the first tunable receive band stop filter, wherein the first tunable receive band stop filter is configured reject the transmit frequency and pass the receive frequency, wherein the RF system further comprises a transmit antenna coupled to the transmit antenna port, and a receive antenna coupled to the receive antenna port. 9. The RF system of claim 8 , wherein the RF system further comprises an RF transceiver having a transmit output coupled to an input of the first tunable transmit band stop filter, and a receive input coupled to an output of the LNA. 10. The RF system of claim 8 , wherein the transmit path further comprises a second tunable transmit band stop filter coupled to the input of the power amplifier in series with the first tunable transmit band stop filter, wherein the second tunable transmit band stop filter is configured to reject an image of the receive frequency. 11. The RF system of claim 10 , wherein the receive path further comprises a second tunable receive band stop filter coupled to an output of the LNA, wherein the second tunable receive band stop filter is configured to reject the transmit frequency. 12. An RF system comprising: a first transmit path comprising a first power amplifier, a first tunable transmit band stop filter coupled to an output of the first power amplifier, and a first adjustable transmit phase shifter/matching network coupled between the first tunable transmit band stop filter and an antenna port, wherein the first tunable transmit band stop filter is configured reject a second transmit frequency and pass a first transmit frequency, and the first adjustable transmit phase shifter/matching network is configured to transform a first impedance of the first tunable transmit band stop filter at the second transmit frequency from a first lower impedance to a first higher impedance at the antenna port; and a second transmit path comprising a second power amplifier, a second tunable transmit band stop filter coupled to an output of the second power amplifier, and a second adjustable transmit phase shifter/matching network coupled between the second tunable transmit band stop filter and the antenna port, wherein the second tunable transmit band stop filter is configured reject the first transmit frequency and pass the second transmit frequency, and the second adjustable transmit phase shifter/matching network is configured to transform a second impedance of the second tunable transmit band stop filter at the first transmit frequency from a second lower impedance to a second higher impedance at the antenna port. 13. The RF system of claim 12 , wherein the RF system further comprises an RF transceiver having a first transmit output coupled to an input of the first power amplifier, and a second transmit output coupled to an input of the second power amplifier. 14. The RF system of claim 12 , wherein the RF system further comprises an antenna coupled to the antenna port. 15. The RF system of claim 12 , further comprising a first receive path, the first receive path comprising: a first LNA; and a first tunable receive band stop filter coupled to an output of the first LNA, and a first adjustable receive phase shifter/matching network coupled between the first tunable receive band stop filter and the antenna port, wherein the first tunable receive band stop filter is configured reject the first transmit frequency and the second transmit frequency and pass a first receive frequency, and the first adjustable receive phase shifter/matching network is configured to transform an impedance of the first tunable receive band stop filter at the first transmit frequency from a third lower impedance to a third higher impedance at the antenna port, and transform the impedance of the first tunable receive band stop filter at the second transmit frequency from a fourth lower impedance to a fourth higher impedance at the antenna port. 16. The RF system of claim 15 , wherein the RF system further comprises an RF transceiver having a first transmit output coupled to an input of the first power amplifier, a second transmit output coupled to an input of the second power amplifier, and a receive input coupled to an output of the first LNA. 17. The RF system of claim 15 , wherein: the first adjustable transmit phase shifter/matching network is further configured to transform a fifth impedance of the first tunable transmit band stop filter at the first receive frequency from a fifth lower impedance to a fifth higher impedance at the antenna port; and the second adjustable transmit phase shifter/matching network is further configured to transform a sixth impedance of the second tunable transmit band stop filter at the first receive frequency from a sixth lower impedance to a sixth higher impedance at the antenna port.