红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
8期
2423-2428
,共6页
马晓璐%黄世杰%张一%朱天阳%曹凤娇%赵猛%李培丽
馬曉璐%黃世傑%張一%硃天暘%曹鳳嬌%趙猛%李培麗
마효로%황세걸%장일%주천양%조봉교%조맹%리배려
超宽带(UWB)%通断键控(OOK)%脉冲极性调制(PBM)%脉冲形状调制(PSM)%相位调制器(PM)
超寬帶(UWB)%通斷鍵控(OOK)%脈遲極性調製(PBM)%脈遲形狀調製(PSM)%相位調製器(PM)
초관대(UWB)%통단건공(OOK)%맥충겁성조제(PBM)%맥충형상조제(PSM)%상위조제기(PM)
ultra-wideband(UWB)%on-off keying(OOK)%pulse bi-polar modulation(PBM)%pulse shape modulation(PSM)%phase modulator(PM)
基于相位调制器(PM)级联高斯带通滤波器,提出了一种超宽带(UWB)多功能调制方案,可以实现通断键控(OOK)、脉冲极性调制(PBM)和脉冲形状调制(PSM)。该方案结构简单,只需单个光源,利用率较高,仅改变比特序列发生器(BSG)的编码就可实现三种UWB调制格式间的灵活切换;产生的三种信号只包含一个波长,在光纤中传输时无需复杂的非线性控制和色散管理。使用光通信软件Optisystem进行模拟,研究了光源功率、调制速率以及两支路PM和滤波器系统误差的影响,对OOK、PBM和PSM信号的传输性能进行了分析。结果表明,光源功率和调制速率在一定范围内变化时,可以获得性能最佳的UWB调制信号。
基于相位調製器(PM)級聯高斯帶通濾波器,提齣瞭一種超寬帶(UWB)多功能調製方案,可以實現通斷鍵控(OOK)、脈遲極性調製(PBM)和脈遲形狀調製(PSM)。該方案結構簡單,隻需單箇光源,利用率較高,僅改變比特序列髮生器(BSG)的編碼就可實現三種UWB調製格式間的靈活切換;產生的三種信號隻包含一箇波長,在光纖中傳輸時無需複雜的非線性控製和色散管理。使用光通信軟件Optisystem進行模擬,研究瞭光源功率、調製速率以及兩支路PM和濾波器繫統誤差的影響,對OOK、PBM和PSM信號的傳輸性能進行瞭分析。結果錶明,光源功率和調製速率在一定範圍內變化時,可以穫得性能最佳的UWB調製信號。
기우상위조제기(PM)급련고사대통려파기,제출료일충초관대(UWB)다공능조제방안,가이실현통단건공(OOK)、맥충겁성조제(PBM)화맥충형상조제(PSM)。해방안결구간단,지수단개광원,이용솔교고,부개변비특서렬발생기(BSG)적편마취가실현삼충UWB조제격식간적령활절환;산생적삼충신호지포함일개파장,재광섬중전수시무수복잡적비선성공제화색산관리。사용광통신연건Optisystem진행모의,연구료광원공솔、조제속솔이급량지로PM화려파기계통오차적영향,대OOK、PBM화PSM신호적전수성능진행료분석。결과표명,광원공솔화조제속솔재일정범위내변화시,가이획득성능최가적UWB조제신호。
A UWB multi-functional modulator scheme based on cascade of phase modulation (PM) and filters was presented. This scheme was simple and could switch a variety of UWB modulation format flexibility by simple pre-coding to realize on-off keying (OOK), pulse bi-polar modulation (PBM), and pulse shape modulation (PSM). The generated three kinds of signal contained only a single wavelength, which can be transmitted over optical fiber without complex nonlinear control and dispersion management. By simulating through the software of Optisystem, the impact of light source power, modulation rate, and the system error of two PM modulators and filters on modulated signal was investigated. In addition, the transmission characteristics of modulated signals in single were also discussed. We found that the input power and modulation rate should between a certain range in order to get optimum UWB modulation signals.