This paper presents the state-of-the-art of high-Q TE01 mode DR cavity filters for PCS wireless base station applications. In order to have TE01 mode filter to be competitive with other high-Q cavity technologies, employment of nonadjacent coupling to implement advanced filter features and easy filter machining and integration are essential. The quadruplet and trisections are regarded as basic blocks to implement symmetric and asymmetric transmission zeros in filter stop band. The relative alignment of the magnetic mode field across the coupled adjacent cavities is analyzed to identify the sign of nonadjacent coupling. A direct cascading of a wide band combline filter to a TE01 mode dielectric resonator (DR) filter is proposed to suppress the spurious response of the DR cavity filter. This approach simplfies the integration between the DR filter and the spurious suppression device and has been proved to be very cost effective. Experimental eight-and six-pole quasi-elliptic function filters show the typical performances. To take advantage of the special property of magnetic mode field alignment across the adjacent cavities, a five-pole canonical asymmetric filter with three transmission zeros in low side is implemented. We believe this filter is a new design for high-Q cavity filter, while a threepole elliptic function filter is new for DR filter technology.
A novel type of filter power combiner, consisting of a plurality of tunable dielectric loaded resonator channel filters and using a multiple half-wavelength coaxial resonator common transformer is presented. The dielectric loaded resonator channel filters can be efficiently coupled to the common transformer resonator by opening the aperture at maximum magnetic field positions of the common resonator. Optimal mechanical layout and electrical performance can both be achieved. A PCS band 4-channel tunable CDMA combiner is designed and tested. Excellent measured frequency responses were obtained and verify the theory.
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