Based on the theoretical analysis and research of dual-loop microwave photonic oscillator(MPO),both the advantage of the dual-loop MPO and the MPO s low phase noise influenced by the laser s relative intensity noise(RIN),the fiber length,and the construction of MPO are studied.
通过对双环微波光子振荡器(DMPO)的理论分析和研究,探讨了双环结构的优点和激光光源的相对强度噪声、光纤的长度以及振荡器的结构对MPO的相位噪声的影响。
Optoelectronic oscillator for generating optical pulse and microwave signal;
基于光电振荡器的光脉冲和电微波信号发生器
Utilizing two-light-sources-injection optoelectronic oscillator,including generator and phase modulator,nonreturn-to-zero(NRZ),return-to-zero(RZ) signal and optical,electrical clock signal are generated simultaneously.
采用双波长注入一包含伪随机码发生器与相位调制器的光电振荡器可以同时得到非归零(NRZ)码,归零(RZ)码以及光,电时钟信号输出。
Based on the summary of the basic principle of optical generation of millimeter wave signals, the working principle of intensity modulation, optically injection locking, optical heterodyne and optoelectronic oscillator are indroduced.
在概述光生毫米波基本原理的基础上,介绍了产生毫米波的强度调制技术、光注入锁定技术、光外差技术及光电振荡器等四种方案的基本原理。
Generation of Multi-Wavelength Optical Pulses and Electrical Clock Signal Utilizing Optoelectronic Oscillator with Single Light Source
利用单光源光电振荡器实现多波长光脉冲与电时钟信号产生
meissner oscillator
(电感反馈振荡器) 迈斯纳振荡器
Photo-stimulated discharge measurement system based on optical parametric oscillator
光参量振荡器激发的光激电流测量系统
nonregenerative laser oscillator
非再生式激光振荡器
tunable laser local oscillator
可调谐激光本机振荡器
pump saturation in optical parametric oscillators
光参量振荡器泵浦饱和
transitron oscillator circuit
负跨导管振荡器电路
collector controlled oscillator
集电极控制的振荡器
electromechanical low-frequency control oscillator
机电低频控制振荡器
voltage controlled avalanche oscillator
电压控制雪崩振荡器
voltage controlled crystal oscillator
可控电压晶体振荡器
antiparasitic resistor
寄生振荡抑制电阻器
clapp oscillator
电容反馈改进型振荡器
wide-band voltage tunable oscillator
宽带电压调谐振荡器
pulse-controlled tube oscillator
脉冲控制电子管振荡器
Hartley type oscillator
电感耦合三点振荡器
RF oscillator high-voltage supply
射频振荡器型高压电源
It is well known that to start oscillation, every electronic oscillator, including of course the laser, must have a gain slightly in excess of the loses.
如所周知,每一个电子振荡器,当然包括激光器在内,都必须有稍大于损耗的增益才能开始振荡。