A. Litton, A. Erickson, P. Bond, A. Kardo-Susoyev, B. O’Meara
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引用次数: 5
摘要
激光工业对快速上升时间、高重复率电光开关的需求日益增长。Fast Transitions, Inc.及其合作伙伴Megapulse和Moose Hill Enterprises的重点是解决E-O开关驱动器市场的独特需求。这里描述的设备和系统的功能也扩展到其他领域,如条纹相机驱动器,脉冲激光二极管驱动器,火花间隙触发器,微波管驱动器和许多其他。目前生产的驱动系统在性能、尺寸、成本、寿命、可靠性和效率方面都是前所未有的。这些驱动器基于俄罗斯开发的固态器件,称为dsd(漂移阶跃恢复二极管)。该装置可以用非常简单的电路产生低输出阻抗、短、高电压脉冲。最简单地说,DSRD作为一个高压开路开关。驱动电路在相对较低的输入电压下利用感应能量存储,DSRD允许能量从存储电感转移到负载。它的快速开关时间和低结电容使得上升时间在很大程度上取决于存储电感和输出电路的特性。
Low impedance nanosecond and sub-nanosecond risetime pulse generators for electro-optical switch applications
There is a growing demand in the laser industry for fast risetime, high repetition rate electro-optical switches. The focus of Fast Transitions, Inc. and its partners Megapulse and Moose Hill Enterprises has been to address the unique needs of the E-O switch driver market. The capabilities of the devices and systems described here also extend into other areas such as streak camera drivers, pulsed laser diode drivers, spark gap triggers, microwave tube drivers and many others. The driver systems now being produced are unprecedented in their capabilities in terms of performance, size, cost, life, reliability and efficiency. These drivers are based on a Russian developed solid state device known as the DSRD (drift step recovery diode). This device allows the generation of low output impedance, short, high voltage pulses with very simple circuits. Most simply stated, the DSRD operates as a high voltage opening switch. The driving circuits utilize inductive energy storage at relatively low input voltages and the DSRD allows the transfer of energy from the storage inductance to the load. Its fast switching time and low junction capacitance allow the rise time to be largely determined by the characteristics of the storage inductance and output circuit.