Electromagnetic tunable filter systems, devices, and methods in a wireless communication network for supporting multiple frequency bands

What is claimed is: 1. An adaptive filter having an input node and an output node, the adaptive filter comprising: a first resonator circuit connected between the input node and a signal node; a second resonator circuit connected between the signal node and the output node; and one or more impedance coupling elements connected between the signal node and a ground; wherein the first resonator circuit and the second resonator circuit are selectively tunable to define a reject band configured to block signals having frequencies within a first signal band between the input node and the output node; and wherein the one or more impedance coupling elements are selectively tunable to define a pass band configured to pass signals having frequencies within a second signal band between the input node and the output node, wherein the one or more impedance coupling elements are tunable both to a first mode at which a coupling impedance of the one or more impedance coupling elements is tuned such that the pass band has a minimum pass band insertion loss at frequencies that are less than frequencies within the reject band and to a second mode at which the coupling impedance of the one or more impedance coupling elements is tuned such that the pass band has a minimum pass band insertion loss at frequencies that are greater than frequencies within the reject band. 2. The tunable filter of claim 1 , wherein the one or more impedance coupling elements comprise one or more capacitors. 3. The tunable filter of claim 2 , wherein the one or more impedance coupling elements comprise one or more inductors connected in a series arrangement with the one or more capacitors. 4. The tunable filter of claim 2 , wherein the one or more impedance coupling elements comprise one or more inductors connected in a parallel arrangement with the one or more capacitors. 5. The tunable filter of claim 1 , wherein one or more of the first resonator circuit, the second resonator circuit, or the one or more impedance coupling element is electrically tunable. 6. The tunable filter of claim 5 , wherein the one or more of the first resonator circuit, the second resonator circuit, or the one or more impedance coupling element comprises a variable or switchable capacitor. 7. The tunable filter of claim 6 , wherein the variable or switchable capacitor comprises one or more of a ferroelectric, paraelectric, micro-electro-mechanical systems, or solid-state capacitor. 8. The tunable filter of claim 1 , wherein one or both of the first resonator circuit or the second resonator circuit comprises an inductor and a capacitor. 9. The tunable filter of claim 8 , wherein the inductor and the capacitor are connected in a parallel arrangement. 10. The tunable filter of claim 1 , wherein one or more of conductor traces or inductors of the first resonator circuit and the second resonator circuit are arranged at an angle of between 45 degrees and 135 degrees. 11. The tunable filter of claim 1 , wherein the first resonator circuit, the second resonator circuit, and the one or more impedance coupling element are configured such that loss in the pass band is less than 5 decibels and blocking isolation in the first resonator and the second resonator is greater than 15 decibels. 12. A method for adjusting a tunable filter, the method comprising: connecting a first resonator between an input node and a signal node, wherein the first resonator is electrically tunable; connecting a second resonator between the signal node and an output node, wherein the second resonator is electrically tunable; connecting one or more coupling element between the signal node and a ground, wherein the one or more coupling element is electrically tunable; selectively adjusting a tuning setting of one or more of the first resonator or the second resonator to define a reject band configured to block signals having frequencies within a first signal band between the input node and the output node; and selectively adjusting a tuning setting of the one or more coupling element to define a pass band configured to pass signals having frequencies within a second signal band between the input node and the output node; wherein selective adjusting a tuning setting of the one or more coupling elements comprises selectively tuning the one or more coupling elements among a first mode at which a coupling impedance of the one or more coupling elements is tuned such that the pass band has a minimum pass band insertion loss at frequencies that are less than frequencies within the reject band and a second mode at which the coupling impedance of the one or more coupling elements is tuned such that the pass band has a minimum pass band insertion loss at frequencies that are greater than frequencies within the reject band. 13. The method of claim 12 , wherein selectively adjusting a tuning setting of one or more of the first resonator or the second resonator to block signals within one or more frequency ranges comprises selectively adjusting a tuning setting of one or more of the first resonator or the second resonator to provide blocking isolation in the first resonator and the second resonator greater than 15 decibels. 14. The method of claim 12 , wherein selectively adjusting a tuning setting of one or more of the first resonator or the second resonator comprises varying an electric field or current to the first resonator or the second resonator. 15. The method of claim 12 , wherein selectively adjusting a tuning setting of the one or more coupling elements comprises selectively adjusting a tuning setting of the one or more coupling element to provide loss in the pass band is less than 5 decibels. 16. The method of claim 12 , wherein selectively adjusting a tuning setting of the one or more coupling elements comprises selectively adjusting a tuning setting of the one or more coupling element to provide a simultaneous conjugate match to a first impedance at the first resonator and to a second impedance at the second resonator. 17. The method of claim 12 , wherein selectively adjusting a tuning setting of one or more coupling element comprises varying an electric field or current to the one or more coupling element.