电讯技术
電訊技術
전신기술
TELECOMMUNICATIONS ENGINEERING
2012年
12期
1964-1968
,共5页
戴永胜%韩群飞%尹洪浩%左同生%谢秋月
戴永勝%韓群飛%尹洪浩%左同生%謝鞦月
대영성%한군비%윤홍호%좌동생%사추월
带通滤波器%交叉耦合%低温共烧陶瓷%谐波抑制
帶通濾波器%交扠耦閤%低溫共燒陶瓷%諧波抑製
대통려파기%교차우합%저온공소도자%해파억제
band-pass filter (BPF)%cross-coupling%LTCC%harmonics suppression
提出了一种新型的具有多次谐波抑制功能的低温共烧陶瓷(LTCC)微型带通滤波器,该滤波器电路由电感耦合的四阶谐振腔组成.在一般抽头式梳状线滤波器设计的基础上,引入了交叉耦合,通过改进其结构,形成了多个传输零点,并结合电路仿真以及三维电磁场仿真,辅之以DOE(Design of Ex-periment)的设计方法,设计出了一种尺寸小、频率选择性好、阻带宽的滤波器.实际测试结果与仿真结果吻合较好,中心频率为13.4 GHz,其3 dB带宽为200 MHz,在15.5~35 GHz频率上的衰减均优于20 dB,体积仅为3.2 mm ×1.6 mm ×1.2 mm.所提方法对滤波器谐波抑制的设计具有指导作用.
提齣瞭一種新型的具有多次諧波抑製功能的低溫共燒陶瓷(LTCC)微型帶通濾波器,該濾波器電路由電感耦閤的四階諧振腔組成.在一般抽頭式梳狀線濾波器設計的基礎上,引入瞭交扠耦閤,通過改進其結構,形成瞭多箇傳輸零點,併結閤電路倣真以及三維電磁場倣真,輔之以DOE(Design of Ex-periment)的設計方法,設計齣瞭一種呎吋小、頻率選擇性好、阻帶寬的濾波器.實際測試結果與倣真結果吻閤較好,中心頻率為13.4 GHz,其3 dB帶寬為200 MHz,在15.5~35 GHz頻率上的衰減均優于20 dB,體積僅為3.2 mm ×1.6 mm ×1.2 mm.所提方法對濾波器諧波抑製的設計具有指導作用.
제출료일충신형적구유다차해파억제공능적저온공소도자(LTCC)미형대통려파기,해려파기전로유전감우합적사계해진강조성.재일반추두식소상선려파기설계적기출상,인입료교차우합,통과개진기결구,형성료다개전수영점,병결합전로방진이급삼유전자장방진,보지이DOE(Design of Ex-periment)적설계방법,설계출료일충척촌소、빈솔선택성호、조대관적려파기.실제측시결과여방진결과문합교호,중심빈솔위13.4 GHz,기3 dB대관위200 MHz,재15.5~35 GHz빈솔상적쇠감균우우20 dB,체적부위3.2 mm ×1.6 mm ×1.2 mm.소제방법대려파기해파억제적설계구유지도작용.
A novel low-temperature co-fired ceramics(LTCC)band-pass filter(BPF)with spurious responses suppression is proposed. The circuit of this filter is composed of 4-order resonant cavity by inductance coupling. The more transmission zeros are realized by adding modified cross-coupling. Based on the design of the tapped combline filter,combined with circuit simulation and 3-D EM(Electromagnetic)simulation,the filter which can achieve a small size,high selectivity,wide stop-band responses is designed with the help of DOE(design of ex-periment). The measured results of the filter agree well with the electromagnetic simulation. Simulation and measured results show that the BPF has a central frequency of 13.4 GHz,the 3 dB bandwidth is 200 MHz,and the stop-band attenuation is more than 20 dB from 15.5 GHz to 35 GHz. The final size of the fabricated filter is only 3.2 mm × 1.6 mm × 1.2 mm. The proposed method is of guidance for the design of filters with harmonics suppression.
