CAJ | 학술논문

利用槽隙加载及短接技术设计了双频小型微带天线.通过调节短接面宽度,两谐振频率f10及f30可明显降低,天线尺寸显著减小,而且频比(f30/f10)的可调范围为L 7～2.3.首次将三维H-MRTD(Haar-Wavelet-Based Multiresolu-tion Time Domain)全波分析方法应用于该天线的建模和分析,并将H-MRTD数值计算公式推广到了非均匀有耗媒质中.数值模拟结果同传统FDTD(Finite Difference Time Domain)方法及实验结果进行了比较.结果表明,每个波长只需取较少的空间离散网格,三维H-MRTD时域全波分析方法便能较精确地模拟微机械微带天线,并能有效地减少CPU计算时间及节省计算机内存.
이용조극가재급단접기술설계료쌍빈소형미대천선.통과조절단접면관도,량해진빈솔f10급f30가명현강저,천선척촌현저감소,이차빈비(f30/f10)적가조범위위L 7～2.3.수차장삼유H-MRTD(Haar-Wavelet-Based Multiresolu-tion Time Domain)전파분석방법응용우해천선적건모화분석,병장H-MRTD수치계산공식추엄도료비균균유모매질중.수치모의결과동전통FDTD(Finite Difference Time Domain)방법급실험결과진행료비교.결과표명,매개파장지수취교소적공간리산망격,삼유H-MRTD시역전파분석방법편능교정학지모의미궤계미대천선,병능유효지감소CPU계산시간급절성계산궤내존.
A novel MEMS dual-band patch antenna is designed using slot-loaded and short-circuitedsize-reduction techniques. By controlling the short-plane width, f10 and f30, two resonant frequen-cies, can be significantly reduced and the frequency radio (f30/f10) is tunable in the range 1.7～2.3.The Haar-Wavelet-Based multiresolution time domain (H-MRTD) is used for modeling and analyzingthe antenna for the first time. In addition, the mathematical formulae are extended to an inhomoge-nous media. Numerical simulation results are compared to those achieved using the conventional 3-Dfinite-difference time-domain (FDTD) method and measured. It has been demonstrated that, with thistechnique, space discretization with only a few cells per wavelength gives accurate results, leading to areduction of both memory requirements and computation time.