激光技术
激光技術
격광기술
LASER TECHNOLOGY
2015年
3期
316-319
,共4页
光电子学%控制系统%高稳定度%低噪声
光電子學%控製繫統%高穩定度%低譟聲
광전자학%공제계통%고은정도%저조성
optoelectronics%control system%high stability%low noise
为了满足高精密测量领域对半导体激光器高稳定度的要求,设计了一种高稳定度、低噪声的半导体激光器控制系统。该控制系统由电流驱动和温度控制两部分组成,电流控制部分采用负反馈控制保持电流稳定,温度控制部分采用高度集成的MAX1978作为主控芯片,驱动半导体制冷器进行温度补偿。经过实验验证,电流在200mA范围内连续可调,电流控制精度高达1μA,在3kHz~100kHz带宽内交流噪声有效值小于300nA,长期温度漂移小于2m℃。结果表明,该系统可用于驱动分布式反馈外腔半导体激光器和分布式布喇格反射半导体激光器。
為瞭滿足高精密測量領域對半導體激光器高穩定度的要求,設計瞭一種高穩定度、低譟聲的半導體激光器控製繫統。該控製繫統由電流驅動和溫度控製兩部分組成,電流控製部分採用負反饋控製保持電流穩定,溫度控製部分採用高度集成的MAX1978作為主控芯片,驅動半導體製冷器進行溫度補償。經過實驗驗證,電流在200mA範圍內連續可調,電流控製精度高達1μA,在3kHz~100kHz帶寬內交流譟聲有效值小于300nA,長期溫度漂移小于2m℃。結果錶明,該繫統可用于驅動分佈式反饋外腔半導體激光器和分佈式佈喇格反射半導體激光器。
위료만족고정밀측량영역대반도체격광기고은정도적요구,설계료일충고은정도、저조성적반도체격광기공제계통。해공제계통유전류구동화온도공제량부분조성,전류공제부분채용부반궤공제보지전류은정,온도공제부분채용고도집성적MAX1978작위주공심편,구동반도체제랭기진행온도보상。경과실험험증,전류재200mA범위내련속가조,전류공제정도고체1μA,재3kHz~100kHz대관내교류조성유효치소우300nA,장기온도표이소우2m℃。결과표명,해계통가용우구동분포식반궤외강반도체격광기화분포식포나격반사반도체격광기。
In order to meet the requirements of high stability of semiconductor laser in high precision measurement field, a semiconductor laser control system with high stability and low noise was proposed .The control system consists of a current driver and temperature controller .A negative feedback was used to maintain the current stability .A highly integrated MAX1978, as main control chip, was used to drive the thermoelectric cooler for temperature compensation .After the experiment verification , current was adjustable in the range of 200mA, current control accuracy was less than 1μA.The effective value of alternating current noise voltage within 3kHz ~100kHz bandwidth was less than 300nA and long-term temperature drift was less than 2m℃.The results show that the system can be used to drive distribibuted feedback external cavity LD lasers and distributed Bragg reflector LD lasers .