An RF filter comprising a resonator element and a polymer composition is provided. The polymer composition contains an aromatic polymer and has a melting temperature of about 240° C. or more. The polymer composition exhibits a dielectric constant of about 5 or less and dissipation factor of about 0.
An RF filter comprising a resonator element and a polymer composition is provided. The polymer composition contains an aromatic polymer and has a melting temperature of about 240° C. or more. The polymer composition exhibits a dielectric constant of about 5 or less and dissipation factor of about 0.05 or less at a frequency of 10 GHz.
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1. An RF filter comprising a resonator element and a polymer composition, wherein the polymer composition contains an aromatic polymer and has a melting temperature of about 240° C. or more, the polymer composition exhibiting a dielectric constant of about 5 or less and dissipation factor of about 0
1. An RF filter comprising a resonator element and a polymer composition, wherein the polymer composition contains an aromatic polymer and has a melting temperature of about 240° C. or more, the polymer composition exhibiting a dielectric constant of about 5 or less and dissipation factor of about 0.05 or less at a frequency of 10 GHz. 2. The RF filter of claim 1, wherein the filter is an acoustic filter that includes a piezoelectric material. 3. The RF filter of claim 2, wherein transducers are formed on the piezoelectric material. 4. The RF filter of claim 2, wherein the piezoelectric material is positioned between upper and lower metal layers. 5. The RF filter of claim 2, wherein the acoustic filter contains a substrate that supports the piezoelectric material. 6. The RF filter of claim 5, wherein the substrate contains the polymer composition. 7. The RF filter of claim 2, further comprising a housing that overlies the resonator element. 8. The RF filter of claim 7, wherein the housing contains the polymer composition. 9. The RF filter of claim 1, wherein the filter is a cavity filter that includes a housing that defines a cavity within which the resonator element is received. 10. The RF filter of claim 9, wherein the resonator element is a dielectric material. 11. The RF filter of claim 9, wherein the housing contains the polymer composition. 12. The RF filter of claim 9, further comprising a cover that overlies the housing, the cover comprising the polymer composition. 13. The RF filter of claim 1, wherein the aromatic polymer has a glass transition temperature of about 30° C. or more and a melting temperature of about 240° C. or more. 14. The RF filter of any claim 1, wherein aromatic polymers constitute from about 40 wt. % to about 99 wt. % of the polymer composition. 15. The RF filter of claim 1, wherein the aromatic polymer is a polyarylene sulfide. 16. The RF filter of claim 1, wherein the aromatic polymer is a liquid crystalline polymer. 17. The RF filter of claim 16, wherein the liquid crystalline polymer contains repeating units derived from one or more aromatic dicarboxylic acids, one or more aromatic hydroxycarboxylic acids, or a combination thereof. 18. The RF filter of claim 17, wherein the aromatic hydroxycarboxylic acids include 4-hydroxybenzoic acid, 6-hydroxy-2-naphthoic acid, or a combination thereof. 19. The RF filter of claim 17, wherein the aromatic hydroxycarboxylic acids include terephthalic acid, isophthalic acid, 2,6-naphthalenedicarboxylic acid, or a combination thereof. 20. The RF filter of claim 17, wherein the liquid crystalline polymer further contains repeating units derived from one or more aromatic diols. 21. The RF filter of claim 20, wherein the aromatic diols include hydroquinone, 4,4′-biphenol, or a combination thereof. 22. The RF filter of claim 16, wherein the liquid crystalline polymer is wholly aromatic. 23. The RF filter of claim 16, wherein the liquid crystalline polymer contains repeating units derived from 6-hydroxy-2-naphthoic acid in an amount of about 30 mol. % or more. 24. The RF filter of claim 16, wherein the liquid crystalline polymer contains repeating units derived from 6-hydroxy-2-naphthoic acid in an an amount of about 50 mol. % or more. 25. The RF filter of claim 1, wherein the polymer composition further comprising a fibrous filler. 26. The RF filter of claim 25, wherein the fibrous filler includes glass fibers. 27. The RF filter of claim 25, wherein the fibrous filler has an aspect ratio of about 2 or more. 28. The RF filter of claim 1, wherein the polymer composition further comprising a particulate filler. 29. The RF filter of claim 28, wherein the particulate filler includes mica. 30. The RF filter of claim 1, wherein the polymer composition further comprises a laser activatable additive. 31. The RF filter of claim 1, wherein the polymer composition exhibits a dielectric constant of from about 1.5 to about 4 at a frequency of 2 GHz. 32. The RF filter of claim 1, wherein the polymer composition exhibits a dissipation factor of about 0.0009 or less at a frequency of 2 GHz. 33. A 5G antenna system comprising the RF filter of claim 1 and at least one antenna element configured to transmit and receive 5G radio frequency signals. 34. The 5G antenna system of claim 33, wherein the antenna element has a feature size that is less than about 1,500 micrometers. 35. The 5G antenna system of claim 33, wherein the 5G radio frequency signals have a frequency that is greater than about 28 GHz. 36. The 5G antenna system of claim 33, wherein the at least one antenna element comprises a plurality of antenna elements arranged in an antenna array. 37. The 5G antenna system of claim 36, wherein the plurality of antenna elements are spaced apart by a spacing distance that is less than about 1,500 micrometers. 38. The 5G antenna system of claim 36, wherein the plurality of antenna elements comprise at least 16 antenna elements. 39. The 5G antenna system of claim 36, wherein the plurality of antenna elements are arranged in a grid. 40. The 5G antenna system of claim 36, wherein the antenna array is configured for at least 8 transmission channels and at least 8 reception channels. 41. The 5G antenna system of claim 36, wherein the antenna array has an average antenna element concentration of greater than 1,000 antenna elements per square centimeter. 42. The 5G antenna system of claim 33, further comprising a base station, and wherein the base station comprises the antenna element. 43. The 5G antenna system of claim 42, further comprising at least one of a user computing device or a repeater, and wherein the at least one of the user computing device or the repeater base station comprises the antenna element.
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