Abstract: A Time-Delay Transmit Diversity (TDTD) RF device is described for use to enhance the transmit performance of wireless communications systems. Time delayed signals are added to diversity antennas to increase coverage and capacity of wireless base stations. Performance is improved by reducing the effects of multipath fading while taking advantage of the additive effects of Rake receivers used in mobiles.

Abstract: A RF device such as a tower mounted amplifier (TMA), mast-head amplifier (MHA), or Tower Mounted Boosters (TMB) includes a housing having a plurality of cavities and an input and an output, the input being coupled to the antenna and the output being coupled to a base station. The housing includes a transmission path holding multiple coaxial resonators. The housing further includes multiple receive paths including at least one path having a plurality of cavities, each cavity containing a dielectric resonator. The metallic transmit resonator nearest the antenna input is coupled to the first dielectric resonator via a common resonant wire. The last dielectric resonator in the receive path is coupled to a first metallic resonator of a downstream clean-up filter via another common resonant wire.

Abstract: Systems and methods for an upgradeable and/or reconfigurable receiver are provided. In general, the present invention is directed to providing systems and methods for designing an electronic communication system having easy and cost effective upgradeable receiver systems and components including, for example, an amplifier and/or a filter. For example, a receiver may include a receiver front end that is configured so that at least one of the original conventional system components may be used along with one or more new system components to provide greater receiver sensitivity and/or selectivity. In various embodiments, portions of an upgradeable receiver system may be made as modular components that allow easy replacement for the upgradeable components which may include a signal amplifier and/or a signal filter. In various embodiments the receiver may be upgraded by replacing a conventional low noise amplifier (LNA) with a high temperature superconductor (HTS) filter and/or a cryo-cooled LNA.

Abstract: Systems and methods for communication system having improved transmitter and/or receiver performance. The invention may include systems and methods related to the use of non-superconducting and/or superconducting filters for a receiver and/or a transmitter. The invention is particularly useful in electronic communication systems that have heavy usage and requiring accurate and sharp channel filtering, for example wireless communication systems. In various embodiments, a receive filter network may include a non-superconducting filter and/or a superconducting filter. In various embodiments, a transmit filter network may include a non-superconducting filter and/or a superconducting filter. The superconducting filter(s) may be, for example, a band pass filter and/or a notch filter or band reject filter.