现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2015年
10期
131-133
,共3页
腔体滤波器%温度补偿%殷钢谐振器%温度试验
腔體濾波器%溫度補償%慇鋼諧振器%溫度試驗
강체려파기%온도보상%은강해진기%온도시험
cavity filter%temperature compensation%invar resonator%temperature test
为了减小腔体滤波器随温度变化对性能的影响,利用CST仿真软件对腔体滤波器进行温度分析,并结合ADS软件对该滤波器进行模拟,得出60℃温差下的幅相变化数据和频漂数据。设计了一个采用双导体结构的滤波器,该滤波器盒体为铝合金材料,谐振杆和调谐螺钉为殷钢。通过分析温度试验中误差的影响因素,提出一种较小误差的温度试验方法,并对调试好的滤波器进行温度试验,试验结果显示该滤波器的频漂为5.6 ppm/℃,试验数据跟仿真结果吻合。
為瞭減小腔體濾波器隨溫度變化對性能的影響,利用CST倣真軟件對腔體濾波器進行溫度分析,併結閤ADS軟件對該濾波器進行模擬,得齣60℃溫差下的幅相變化數據和頻漂數據。設計瞭一箇採用雙導體結構的濾波器,該濾波器盒體為鋁閤金材料,諧振桿和調諧螺釘為慇鋼。通過分析溫度試驗中誤差的影響因素,提齣一種較小誤差的溫度試驗方法,併對調試好的濾波器進行溫度試驗,試驗結果顯示該濾波器的頻漂為5.6 ppm/℃,試驗數據跟倣真結果吻閤。
위료감소강체려파기수온도변화대성능적영향,이용CST방진연건대강체려파기진행온도분석,병결합ADS연건대해려파기진행모의,득출60℃온차하적폭상변화수거화빈표수거。설계료일개채용쌍도체결구적려파기,해려파기합체위려합금재료,해진간화조해라정위은강。통과분석온도시험중오차적영향인소,제출일충교소오차적온도시험방법,병대조시호적려파기진행온도시험,시험결과현시해려파기적빈표위5.6 ppm/℃,시험수거근방진결과문합。
In order to reduce the effect of temperature change on cavity filter performance,CST simulation software was em?ployed to make the temperature analysis of cavity filter using,and the ADS software was used to carry out simulation of the fil?ter. With the above measures,the data of amplitude and phase changes,and frequency drift data were got at 60℃ temperature difference. The bimetal filter with aluminium alloy housing and invar resonators was designed. The factors affecting the error in temperature tests is analyzed. the temperature test method is proposed for a small error. A temperature test for well?debugged fil?ter was conducted. The experiment result shows that the fielter’s temperature drifting is 5.6 ppm/℃. It is agreed with the simula?tion result very well.
