通信技术
通信技術
통신기술
COMMUNICATIONS TECHNOLOGY
2014年
1期
106-110
,共5页
徐雷钧%杨晓东%白雪%赵不贿
徐雷鈞%楊曉東%白雪%趙不賄
서뢰균%양효동%백설%조불회
能量收集%双频%微带天线%缝隙结构
能量收集%雙頻%微帶天線%縫隙結構
능량수집%쌍빈%미대천선%봉극결구
energy collection%dual-frequency%microstrip antenna%slotting
随着超低功耗芯片技术的发展,无线传感器节点的功耗已进入微瓦(μW)级范围,使低功耗传感器利用周围环境中的射频无线能量为自身供电成为可能。提出了一种用于无线传感器节点的小型射频能量接收天线。该天线采用微带缝隙结构,基于缝隙天线设计理论,应用全波电磁场工具对其进行了设计及仿真优化,并获得了该结构谐振点随尺寸变化的一般规律。在常用FR4材料的小尺寸双面PCB板上,通过开槽加载和微带线馈电方法使天线可以同时工作在GSM和ISM两个频段。在1.9 GHz和2.4 GHz频率点上,天线的回波损耗分别为-39.4 dB和-20.8 dB,最大增益分别达到1.4 dBi和2.9 dBi,测试与仿真结果基本吻合。该天线含地平面在内的尺寸为5 cm×5 cm,实现成本低,可同时接收两个频段的射频能量,有效地扩展了频率适应范围,提高了能量接收效率。
隨著超低功耗芯片技術的髮展,無線傳感器節點的功耗已進入微瓦(μW)級範圍,使低功耗傳感器利用週圍環境中的射頻無線能量為自身供電成為可能。提齣瞭一種用于無線傳感器節點的小型射頻能量接收天線。該天線採用微帶縫隙結構,基于縫隙天線設計理論,應用全波電磁場工具對其進行瞭設計及倣真優化,併穫得瞭該結構諧振點隨呎吋變化的一般規律。在常用FR4材料的小呎吋雙麵PCB闆上,通過開槽加載和微帶線饋電方法使天線可以同時工作在GSM和ISM兩箇頻段。在1.9 GHz和2.4 GHz頻率點上,天線的迴波損耗分彆為-39.4 dB和-20.8 dB,最大增益分彆達到1.4 dBi和2.9 dBi,測試與倣真結果基本吻閤。該天線含地平麵在內的呎吋為5 cm×5 cm,實現成本低,可同時接收兩箇頻段的射頻能量,有效地擴展瞭頻率適應範圍,提高瞭能量接收效率。
수착초저공모심편기술적발전,무선전감기절점적공모이진입미와(μW)급범위,사저공모전감기이용주위배경중적사빈무선능량위자신공전성위가능。제출료일충용우무선전감기절점적소형사빈능량접수천선。해천선채용미대봉극결구,기우봉극천선설계이론,응용전파전자장공구대기진행료설계급방진우화,병획득료해결구해진점수척촌변화적일반규률。재상용FR4재료적소척촌쌍면PCB판상,통과개조가재화미대선궤전방법사천선가이동시공작재GSM화ISM량개빈단。재1.9 GHz화2.4 GHz빈솔점상,천선적회파손모분별위-39.4 dB화-20.8 dB,최대증익분별체도1.4 dBi화2.9 dBi,측시여방진결과기본문합。해천선함지평면재내적척촌위5 cm×5 cm,실현성본저,가동시접수량개빈단적사빈능량,유효지확전료빈솔괄응범위,제고료능량접수효솔。
With the technical development of ultra-low power consumption chip technology, the power con-sumption of wireless sensor node is reduced to a micro-watt(μW) magnitude, so it is possible for the sen-sor node to power itself by collecting ambient wireless energy. The paper describes a small energy-collec-ting antenna for wireless sensor node. With microstrip slot structure and based on the slot antenna theory, this antenna is simulated and optimized by full-wave electromagnetic field tools, and the general rules for the relations between resonance frequency and size are acquired. By slotting and feeding microstrip on the small FR4 PCB, the antenna can work at the dual-frequency of GSM and ISM, and has the return losses of-31. 6 dB and -20. 8 dB respectively at 1. 9GHz and 2. 4 GHz, the maxim gain of the antenna is 1. 5 dBi and 2. 9 dBi respectively. The measurement results of antenna fairly agree with the simulation results. The antenna including the ground plane is 5 cmí5 cm in size and low in cost. Meanwhile, this antenna can re-ceive RF energy at dual-frequency, thus could effectively expand the frequency range and improve the ef-ficiency of the energy collection.
