传统方法 短跨距(Short Reach)10Gb/s发射机的传统设计方法,一直是采用由50Ω激光二极管激励器(laser diode driver, LDD)供电的直接调制激光器(direct modulation laser, DML)模块。
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Laser Diode Driver(激光二极管驱动器)激光二极管驱动器方面,我们推荐PLD10000,这款二极管驱动器拥有高性能的特性,而且有两方面显著的提高:低电压情况下运行+5v(直...
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传统方法 短跨距(Short Reach)10Gb/s发射机的传统设计方法,一直是采用由50Ω激光二极管激励器(laser diode driver, LDD)供电的直接调制激光器(direct modulation laser, DML)模块。
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laser diode driver ldd 激光驱动器
a laser diode driver 激光驱动电路
q-cw pulsed laser diode driver 脉冲二极管激光电源
Laser diode pulse driver LD脉冲驱动
laser r diode driver 激光二极管激励器
Thirdly the analysis of the laser diode driver circuit's principle was made. The laser actuation driver circuit was designed and the simulation analysis of the circuit was made.
然后对半导体激光器驱动电路的原理进行了分析,设计了激光器的驱动电路并进行了仿真分析。
参考来源 - 军用大气激光通信系统特性及应用研究And it including two critical parts which are 4:1 multiplexer circuit(MUX) and the laser diode driver(LDD). The LDD is used to provide enough gain to magnify input signal.
作为光发射芯片的关键电路,激光驱动器电路的作用是提供一定的增益,放大复接器输出的高速信号,驱动后面的激光二极管。
参考来源 - 10Gb/s GaAs/SiGe激光驱动器设计·2,447,543篇论文数据,部分数据来源于NoteExpress
This paper introduces a new high power Q - CW pulsed laser diode driver.
介绍一种高功率脉冲二极管激光电源。
It is necessary to design the laser diode driver in the laser ignition system.
激光点火系统中需要设计激光二极管驱动电路。
The design of protect circuit is a key aspect of high power laser diode driver.
大功率半导体激光器驱动电源的关键是保护电路的设计。
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