Filter circuits having acoustic wave resonators in a transversal configuration

What is claimed is: 1. A filter circuit, comprising: a first circuit port; a second circuit port; a first filter branch connected between the first circuit port and the second circuit port and comprising a first acoustic wave resonator transverse to the first circuit port and the second circuit port; a second filter branch connected between the first circuit port and the second circuit port and comprising a second acoustic wave resonator transverse to the first circuit port and the second circuit port; and a balun circuit connected between the second filter branch and the second circuit port and connected between the first filter branch and the second circuit port; such that the second filter branch has a phase shift from the first filter branch. 2. The filter circuit of claim 1 , wherein the first filter branch comprises a first plurality of parallel acoustic wave resonators. 3. The filter circuit of claim 2 , further comprising a plurality of series capacitances, each connected in series with a respective parallel acoustic wave resonator of the first plurality of parallel acoustic wave resonators. 4. The filter circuit of claim 2 , wherein the second filter branch comprises a second plurality of parallel acoustic wave resonators. 5. The filter circuit of claim 1 , further comprising: an impedance matching network connected in shunt with at least one of the first circuit port or the second circuit port. 6. The filter circuit of claim 1 , further comprising: a first shunt inductance connected to the first circuit port; and a second shunt inductance connected to the second circuit port; wherein the first shunt inductance and the second shunt inductance are based on an intrinsic capacitance of the first acoustic wave resonator and the second acoustic wave resonator respectively. 7. The filter circuit of claim 1 , wherein the first acoustic wave resonator comprises a surface acoustic wave (SAW) resonator. 8. The filter circuit of claim 1 , wherein the first acoustic wave resonator comprises a bulk acoustic wave (BAW) resonator. 9. The filter circuit of claim 1 , further comprising an external capacitance connected parallel to at least one of the first filter branch or the second filter branch. 10. The filter circuit of claim 1 , further comprising a series capacitance connected in series with the first acoustic wave resonator. 11. A filter circuit, comprising: a first circuit port; a second circuit port; a first filter branch connected between the first circuit port and the second circuit port, the first filter branch comprising: a first plurality of parallel acoustic wave resonators transverse to the first circuit port and the second circuit port; and a plurality of series capacitances, each connected in series with a respective parallel acoustic wave resonator of the first plurality of parallel acoustic wave resonators; and a second filter branch connected between the first circuit port and the second circuit port and comprising a second plurality of parallel acoustic wave resonators transverse to the first circuit port and the second circuit port; wherein the second filter branch has a phase shift from the first filter branch. 12. The filter circuit of claim 11 , further comprising a balun circuit connected between the second filter branch and the second circuit port and connected between the first filter branch and the second circuit port such that the second filter branch has the phase shift from the first filter branch. 13. The filter circuit of claim 11 , wherein the second filter branch further comprises a phase shift circuit connected between the second plurality of parallel acoustic wave resonators and the second circuit port and configured to cause the phase shift to be between 160 degrees and 200 degrees. 14. A filter circuit, comprising: a first circuit port; a first filter branch connected between the first circuit port and a first differential node and comprising a first plurality of parallel acoustic wave resonators; a second filter branch connected between the first circuit port and a second differential node and comprising at least one acoustic wave resonator; and a phase shift circuit connected between the second differential node and a second circuit port; wherein: the first differential node is connected to the second circuit port; and the phase shift circuit provides between a 160 degree and 200 degree phase shift from the first filter branch. 15. The filter circuit of claim 14 , further comprising a balun circuit connected between the first differential node, the second differential node, and the second circuit port such that the balun circuit functions as the phase shift circuit. 16. The filter circuit of claim 14 , wherein the second filter branch comprises a second plurality of parallel acoustic wave resonators. 17. The filter circuit of claim 14 , further comprising: a plurality of series capacitances, each connected in series with a respective parallel acoustic wave resonator of the first plurality of parallel acoustic wave resonators; and a second series capacitance connected in series with the at least one acoustic wave resonator. 18. The filter circuit of claim 14 , wherein: each of the first plurality of parallel acoustic wave resonators comprises a surface acoustic wave (SAW) resonator; and the at least one acoustic wave resonator comprises a SAW resonator. 19. The filter circuit of claim 14 , wherein: each of the first plurality of parallel acoustic wave resonators comprises a bulk acoustic wave (BAW) resonator; and the at least one acoustic wave resonator comprises a BAW resonator. 20. The filter circuit of claim 14 , further comprising: an impedance matching network connected in shunt with at least one of the first circuit port, the first differential node, or the second differential node.