Title :
Design of a High-Power Superconducting Filter Using Resonators With Different Linewidths
Author :
Guo, Xubo ; Wei, Bin ; Zhang, Xiaoping ; Cao, Bisong ; Jin, Shichao ; Peng, Huili ; Gao, Longma ; Gao, Baoxin
Author_Institution :
Tsinghua Univ., Beijing
Abstract :
This paper presents a design method to develop a high-power superconducting microstrip filter with different linewidth resonators. The linewidth of every resonator is optimized using this method to meet the same maximum current density. Thus, the power-handling capability of the five-pole filter on a limited substrate size can reach a maximum value. The design method is verified by the electromagnetic simulation of the current density distribution. The high-power superconducting filter is designed and fabricated on a 38 mm times 30 mm times 0.505 mm LaAlO3 substrate. The maximum resonator linewidth is 7 mm, and the minimum one is 1.6 mm. The filter has a center frequency of 2006 MHz and a narrow bandwidth of 1.0%. The measured power level is up to 35 dBm at 65 K without an evident change in insertion loss.
Keywords :
current density; high-temperature superconductors; lanthanum compounds; microstrip filters; resonator filters; superconducting filters; superconducting microwave devices; HTS filter; LaAlO3; current density distribution; electromagnetic simulation; five-pole filter; frequency 2006 MHz; high-power superconducting microstrip filter; high-temperature superconducting filters; power-handling capability; resonator linewidth; temperature 65 K; Bandwidth; Current density; Design methodology; Frequency; Microstrip filters; Microstrip resonators; Optimization methods; Power measurement; Resonator filters; Superconducting filters; Bandpass filters; high-power filters; high-temperature superconductors;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.909604
