Integrated tunable filter architecture

What is claimed is: 1. A tunable capacitor compensated filter, including: (a) a tunable filter configured to be selectively coupled to a signal path of a frequency based circuit to filter unwanted frequencies from the signal path, the tunable filter having an effective capacitance when the tunable filter is coupled to the signal path; and (b) a bypassable compensation capacitor configured to be selectively coupled to the signal path when the tunable filter is not coupled to the signal path, the bypassable compensation capacitor having a capacitance value to approximately match the capacitive value of, and substitute for, the effective capacitance of the tunable filter. 2. The tunable capacitor compensated filter of claim 1 , wherein the tunable filter includes one or more of a tunable notch filter, a tunable bandpass filter, or a tunable low pass filter. 3. The tunable capacitor compensated filter of claim 1 , wherein the tunable filter includes at least one tunable RLC filter. 4. The tunable capacitor compensated filter of claim 1 , wherein the tunable filter includes at least one tunable RLC filter having at least one tunable capacitor C. 5. The tunable capacitor compensated filter of claim 4 , wherein at least one tunable capacitor C of the at least one tunable capacitor C is digitally tunable. 6. The tunable capacitor compensated filter of claim 1 , wherein the tunable filter includes at least one tunable RLC filter having at least one tunable inductor L. 7. The tunable capacitor compensated filter of claim 6 , wherein at least one tunable inductor L of the at least one tunable inductor L is digitally tunable. 8. The tunable capacitor compensated filter of claim 1 , further including a tuning inductor coupled in series in the signal path. 9. The tunable capacitor compensated filter of claim 1 , wherein the signal path includes a common port and at least one selectable port coupled to the signal path, each selectable port being switchable between an active state and a non-active state. 10. A tunable capacitor compensated filter, including: (a) a tunable filter configured to be selectively coupled to ground and, through a first switch, to a signal path of a frequency based circuit to filter unwanted frequencies from the signal path, the tunable filter having an effective capacitance when the tunable filter is coupled to the signal path through the first switch; and (b) a bypassable compensation capacitor configured to be selectively coupled to ground and, through a second switch, to the signal path through the second switch when the tunable filter is not coupled to the signal path through the first switch, the bypassable compensation capacitor having a capacitance value to approximately match the capacitive value of, and substitute for, the effective capacitance of the tunable filter. 11. The tunable capacitor compensated filter of claim 10 , wherein the tunable filter includes one or more of a tunable notch filter, a tunable bandpass filter, or a tunable low pass filter. 12. The tunable capacitor compensated filter of claim 10 , wherein the tunable filter includes at least one tunable RLC filter. 13. The tunable capacitor compensated filter of claim 10 , wherein the tunable filter includes at least one tunable RLC filter having at least one tunable capacitor C. 14. The tunable capacitor compensated filter of claim 13 , wherein at least one tunable capacitor C of the at least one tunable capacitor C is digitally tunable. 15. The tunable capacitor compensated filter of claim 10 , wherein the tunable filter includes at least one tunable RLC filter having at least one tunable inductor L. 16. The tunable capacitor compensated filter of claim 15 , wherein at least one tunable inductor L of the at least one tunable inductor L is digitally tunable. 17. The tunable capacitor compensated filter of claim 10 , further including a tuning inductor coupled in series in the signal path. 18. The tunable capacitor compensated filter of claim 10 , wherein the signal path includes a common port and at least one selectable port coupled to the signal path, each selectable port being switchable between an active state and a non-active state.