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。
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。
Aim To develop a laser diode modulated driver power for synthesis heterodyne interference.
目的为半导体激光器合成外差干涉研制一调制驱动电源。
After the introduction of the characteristics of semiconductor laser diode, the bias current supply of the laser driver and the automatic power control (APC) function were analyzed.
简要介绍了半导体激光器的温度特性的后,分析了激光驱动器偏置电流提供和自动功率控制(APC)功能。
The driver maintains precision laser diode current or stable photodiode current regulation.
该驱动器保持高精度激光二极管电流或稳定的光电二极管电流调整。
Every drive board can drive a diode laser. The function of control unit single chip in the driver board is to control the aging process of 16 laser diodes in current mode or in output power mode.
驱动板的控制单元-单片机实现对16个半导体激光器的老化过程进行监控,从而使激光器工作在上位机所指定的恒流状态或者恒功状态下。
The design of a laser diode(LD) driver that can generate multi-waveforms for the modulation of drive current was present in this paper.
设计了一种能对输出电流实现多种波形调制的半导体激光二极管(LD)驱动电源。
A laser Diode (LD) driver based on switching power is proposed according to the LD driver characteristics.
针对半导体激光器(LD)的驱动特性,设计了一种基于开关电源的LD驱动电路。
A laser Diode (LD) driver based on switching power is proposed according to the LD driver characteristics.
针对半导体激光器(LD)的驱动特性,设计了一种基于开关电源的LD驱动电路。
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