RF ladder filter with simplified acoustic RF resonator parallel capacitance compensation

What is claimed is: 1. An RF ladder filter comprising: a parallel capacitance compensation circuit having a first ladder terminal and a second ladder terminal comprising: a first inductive element with a first T-terminal and a first end coupled to the first ladder terminal; a second inductive element with a second T-terminal that is coupled to the first T-terminal of the first inductive element and a second end coupled to the second ladder terminal; and a compensating acoustic RF resonator (ARFR) having a fixed node terminal and a third T-terminal that is coupled to the first T-terminal of the first inductive element and the second T-terminal of the second inductive element; and a finite number of series-coupled ladder ARFRs, wherein the parallel capacitance compensation circuit is coupled across one of the finite number of series-coupled ARFRs by way of the first ladder terminal and the second ladder terminal. 2. The RF ladder filter of claim 1 wherein the fixed node terminal of the compensating ARFR is coupled to an RF ground node. 3. The RF ladder filter of claim 2 further including shunt arms coupled at nodes between the series-coupled ladder ARFRs and the RF ground, wherein each of the shunt arms comprises a shunt ARFR coupled in series with a shunt inductor. 4. The RF ladder filter of claim 3 wherein the parallel capacitance compensation circuit electrically replaces two of the shunt arms of a standard ladder filter having shunt arms coupled at every one of the nodes between the series-coupled ladder ARFRs. 5. The RF ladder filter of claim 1 further including additional ones of the parallel capacitance compensation circuit individually coupled across every other one of the finite number of series-coupled ladder ARFRs. 6. The RF ladder filter of claim 1 wherein the first inductive element and the second inductive element are negatively coupled to one another. 7. The RF ladder filter of claim 1 wherein the parallel capacitance compensation circuit comprises the compensating ARFR, the first inductive element, and the second inductive element, such that the parallel capacitance compensation circuit is a passive circuit, which comprises no active components. 8. The RF ladder filter of claim 1 wherein an absolute value of a coefficient of coupling between the first inductive element and the second inductive element is essentially equal to zero. 9. The RF ladder filter of claim 1 wherein an absolute value of a coefficient of coupling between the first inductive element and the second inductive element is greater than zero and less than 0.7. 10. The RF ladder filter of claim 1 wherein an inductance of the first inductive element is not equal to an inductance of the second inductive element. 11. The RF ladder filter of claim 1 wherein the parallel capacitance compensation circuit is configured to increase a ratio of a parallel resonant frequency of the series-coupled ladder ARFR to a series resonant frequency of the series-coupled ladder ARFR to which the parallel capacitance compensation circuit is coupled across. 12. The RF ladder filter of claim 11 wherein the parallel capacitance compensation circuit and the series-coupled ladder ARFR to which the parallel capacitance compensation circuit is coupled across are configured to function together as an RF bandpass filtering element, such that the parallel resonant frequency falls outside of a passband of the RF bandpass filtering element. 13. The RF ladder filter of claim 1 wherein a parallel capacitance compensation circuit is configured to present a positive reactance across the series-coupled ladder ARFR to which the parallel capacitance compensation circuit is coupled across, wherein a magnitude of the positive reactance is inversely related to frequency. 14. The RF ladder filter of claim 1 wherein each of the series-coupled ladder ARFR to which the parallel capacitance compensation circuit is coupled across and the compensating ARFR is a surface acoustic wave (SAW) RF resonator. 15. The RF ladder filter of claim 1 wherein each of the series-coupled ladder ARFR to which the parallel capacitance compensation circuit is coupled across and the compensating ARFR is a bulk acoustic wave (BAW) RF resonator. 16. The RF ladder filter of claim 1 further comprising an acoustic substrate, which comprises the series-coupled ladder ARFR and the compensating ARFR, wherein the acoustic substrate includes the first ladder terminal and the second ladder terminal. 17. The RF ladder filter of claim 1 wherein an in band insertion loss is no greater than −1.8 dB over a frequency range of about 2.6 GHz to about 2.7 GHz. 18. The RF ladder filter of claim 1 wherein an out of band isolation over a frequency range of 1.6 GHz to about 2.5 GHz is less than about −50 dB. 19. The RF ladder filter of claim 1 wherein an out of band isolation over a frequency range of about 2.9 GHz to about 4.0 GHz is less than about −60 dB.