With the wide application of the fifth-generation mobile communication system(5G)technology,wireless communication equipment tends to develop in miniaturization,high frequency,and low loss.In this paper,a surface acou...With the wide application of the fifth-generation mobile communication system(5G)technology,wireless communication equipment tends to develop in miniaturization,high frequency,and low loss.In this paper,a surface acoustic wave(SAW)filter with a center frequency of 3.5 GHz was designed.Firstly,the acoustic waveguide structure of the longitudinal leaky SAW(LLSAW)excitation is determined,and the two-dimensional(2D)theoretical model of the device is established by COMSOL Multiphysics.Secondly,the influence of electrode parameters on the performance of the device is studied,and the electrode parameters are optimized on this basis.By setting the device structure parameters reasonably,the spurious in the passband can be effectively suppressed.Finally,the center frequency of the mirror T-structure LLSAW filter is 3.536 GHz,the insertion loss is-1.414 dB,the bandwidth of-3 dB is 276 MHz,and the out-of-band rejection is greater than-30 dB.展开更多
文摘With the wide application of the fifth-generation mobile communication system(5G)technology,wireless communication equipment tends to develop in miniaturization,high frequency,and low loss.In this paper,a surface acoustic wave(SAW)filter with a center frequency of 3.5 GHz was designed.Firstly,the acoustic waveguide structure of the longitudinal leaky SAW(LLSAW)excitation is determined,and the two-dimensional(2D)theoretical model of the device is established by COMSOL Multiphysics.Secondly,the influence of electrode parameters on the performance of the device is studied,and the electrode parameters are optimized on this basis.By setting the device structure parameters reasonably,the spurious in the passband can be effectively suppressed.Finally,the center frequency of the mirror T-structure LLSAW filter is 3.536 GHz,the insertion loss is-1.414 dB,the bandwidth of-3 dB is 276 MHz,and the out-of-band rejection is greater than-30 dB.
