This paper presents a novel microstrip feedline structure to introduce an extra and controllable transmission zero(TZ)with high rejection for a narrowband filter. This structure loads a reconfigurable capacitor at t...This paper presents a novel microstrip feedline structure to introduce an extra and controllable transmission zero(TZ)with high rejection for a narrowband filter. This structure loads a reconfigurable capacitor at the end of the input feedline without changing the main structure of the filter. The capacitor is recognized by a 2-bit inter-digital capacitor array. The asymmetrical microstrip feedline structure is suitable for multiple-pole filter designs. A low-loss six-pole high-temperature superconducting bandpass filter with a reconfigurable TZ is designed and fabricated. The center frequency of the filter is 5.22 GHz with TZ at the lower stopband. The TZ can be tuned among four different states. The out-of-band rejection at the TZ frequency is higher than 90 d B, and the insertion loss is lower than 0.92 d B. The measured results are consistent with the simulations.展开更多
This paper presents a novel dual-band quadrature voltage controlled oscillator(VCO) with the gain proportional to the oscillation frequency.Frequency synthesizers with this VCO can reduce the bandwidth fluctuation o...This paper presents a novel dual-band quadrature voltage controlled oscillator(VCO) with the gain proportional to the oscillation frequency.Frequency synthesizers with this VCO can reduce the bandwidth fluctuation over all the frequency ranges without compensation or calibration.Besides the original switched capacitor array, an extra switched varactor array is adopted for the implementation of the proposed VCO.The tuning technique of changing the values of the capacitor and varactor at the same ratio is also derived.For verification purposes, a 2.5 G/3.5 G dual-band quadrature VCO is fabricated in a 0.13μm CMOS process for WiMAX applications. Measurement results show that the VCO gain is closely proportional to the oscillation frequency with±16%variation over the entire frequency range.The phase noise is -138.15 dBc/Hz at 10 MHz from the 2.5 GHz carrier and -137.44 dBc/Hz at 10 MHz from the 3.5 GHz carrier.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant No.61371009)the Chinese Ministry of Science and Technology(Grant No.2014AA032703)
文摘This paper presents a novel microstrip feedline structure to introduce an extra and controllable transmission zero(TZ)with high rejection for a narrowband filter. This structure loads a reconfigurable capacitor at the end of the input feedline without changing the main structure of the filter. The capacitor is recognized by a 2-bit inter-digital capacitor array. The asymmetrical microstrip feedline structure is suitable for multiple-pole filter designs. A low-loss six-pole high-temperature superconducting bandpass filter with a reconfigurable TZ is designed and fabricated. The center frequency of the filter is 5.22 GHz with TZ at the lower stopband. The TZ can be tuned among four different states. The out-of-band rejection at the TZ frequency is higher than 90 d B, and the insertion loss is lower than 0.92 d B. The measured results are consistent with the simulations.
基金supported by the National Natural Science Foundation of China(No.61106025)the National High Technology Research & Development Program of China(No.2012 AAO12301)
文摘This paper presents a novel dual-band quadrature voltage controlled oscillator(VCO) with the gain proportional to the oscillation frequency.Frequency synthesizers with this VCO can reduce the bandwidth fluctuation over all the frequency ranges without compensation or calibration.Besides the original switched capacitor array, an extra switched varactor array is adopted for the implementation of the proposed VCO.The tuning technique of changing the values of the capacitor and varactor at the same ratio is also derived.For verification purposes, a 2.5 G/3.5 G dual-band quadrature VCO is fabricated in a 0.13μm CMOS process for WiMAX applications. Measurement results show that the VCO gain is closely proportional to the oscillation frequency with±16%variation over the entire frequency range.The phase noise is -138.15 dBc/Hz at 10 MHz from the 2.5 GHz carrier and -137.44 dBc/Hz at 10 MHz from the 3.5 GHz carrier.
