RF coupler with adjustable termination impedance

What is claimed is: 1. A radio frequency coupler comprising: a power input port, a power output port, a coupled port, and an isolation port; a main transmission line electrically connected to the power input port and the power output port; a coupled line electrically connected to the coupled port and the isolation port; and a termination impedance circuit configured to provide an adjustable termination impedance, the termination impedance circuit including a first bank of switched impedances connected in series with a second bank of switched impedances, each of the first and second bank of switched impedances including a plurality of switched impedances connected in parallel with each other, each switched impedance including a switch in series with a passive impedance element, and the termination impedance circuit being electrically connected between a reference potential and a selected port of the radio frequency coupler, the selected port being one of the isolation port and the coupled port. 2. The coupler of claim 1 wherein the selected port is the isolation port. 3. The coupler of claim 2 wherein the termination impedance circuit is further electrically connected between the coupled port and the reference potential. 4. The coupler of claim 1 wherein the selected port is the coupled port. 5. The coupler of claim 1 wherein the passive impedance element of one of the plurality of switched impedances is a resistor and the passive impedance element of another of the plurality of switched impedances is an inductor. 6. The coupler of claim 1 wherein the passive impedance element of one of the plurality of switched impedances is a capacitor and the passive impedance element of another of the plurality of switched impedances is an inductor. 7. The coupler of claim 1 wherein the passive impedance element of one of the plurality of switched impedances is a resistor and the passive impedance element of another of the plurality of switched impedances is a capacitor. 8. The coupler of claim 1 wherein at least one switch of the plurality of switched impedances is configured to change state responsive to a control signal indicative of at least one of a process variation or a frequency band of operation. 9. The coupler of claim 1 wherein the termination impedance circuit includes at least one resistor, at least one capacitor, and at least one inductor. 10. The coupler of claim 1 wherein the reference potential is ground. 11. A radio frequency coupler comprising: a power input port, a power output port, a coupled port, and an isolation port; and a termination impedance circuit configured to provide an adjustable termination impedance, the termination impedance circuit including a first bank of switched impedances connected in series with a second bank of switched impedances, each of the first and second bank of switched impedances including a plurality of switched impedances connected in parallel with each other, each switched impedance including a switch in series with a passive impedance element, and the termination impedance circuit being electrically connected between a reference potential and a selected port, the selected port being one of the isolation port or the coupled port, and at least one of the passive impedance elements of the plurality of switched impedances including at least one of a capacitor or an inductor. 12. The coupler of claim 11 further comprising an isolation switch, the isolation switch being arranged in series with the termination impedance circuit between the reference potential and the selected port. 13. The coupler of claim 11 configured to provide an indication of forward power at the coupled port in a first state and to provide an indication of reflected power at the isolation port in a second state. 14. The coupler of claim 11 wherein at least one switch of the plurality of switched impedances is configured to change state responsive to a control signal indicative of at least one of a process variation or a frequency band of operation. 15. The coupler of claim 11 wherein the reference potential is ground. 16. The coupler of claim 11 further comprising an isolation switch disposed between the termination impedance circuit and the isolation port. 17. A radio frequency coupler comprising: a power input port, a power output port, a coupled port, and an isolation port; and a termination impedance circuit including a first bank of switched impedances connected in series with a second bank of switched impedances, each of the first and second bank of switched impedances including a plurality of switched impedances connected in parallel with each other, each switched impedance including a switch in series with a passive impedance element, and the termination impedance circuit being configured to selectively electrically connect a subset of the passive impedance elements between the isolation port and ground responsive to one or more control signals, the subset of the passive impedance elements including two passive impedance elements electrically connected in series with each other between the isolation port and ground, and the two passive impedance elements including at least one of a resistor or an inductor. 18. The coupler of claim 17 wherein the subset of passive impedance elements includes at least two of a resistor, a capacitor, or an inductor. 19. The coupler of claim 17 wherein at least one of the one or more control signals is indicative of at least one of a process variation or a frequency band of operation. 20. The coupler of claim 17 further comprising an isolation switch disposed between the termination impedance circuit and the isolation port.