谐波产生,整流和寿命评估与步进恢复二极管

S. Krakauer
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引用次数: 44

摘要

本文研究了一种称为“阶跃恢复二极管”的pn结器件,因为它在反向恢复过程中的电导率变化近似于阶跃函数。这种二极管从反向存储传导到截止的转变可以在大约一纳秒内发生,并且它可以产生相关的不连续,最高可达约一安培和/或一百伏特。这种阶跃恢复动作可以方便地在千兆周期区域产生富含高次谐波的波形。在许多情况下,它提供了相当大的优势,电路简单和功率处理能力优于替代二极管谐波发生器。本文讨论了影响该二极管与其电路适当配合的因素,并对所能达到的性能进行了评价。作为这种分析的副产品,得到了整流效率的一般评价,这对许多传统整流电路中的传统半导体二极管是有用的。这种分析还导致了一种方便的方法来评估半导体二极管的寿命,这在分数纳秒范围内特别有用,因为它分离了电容效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Harmonic Generation, Rectification, and Lifetime Evaluation with the Step Recovery Diode
This paper deals with a p-n junction device which will be called a "Step Recovery Diode" because its conductivity variation during reverse recovery approximates a step function. The transition from reverse storage conduction to cutoff for this diode can occur in about a nanosecond, and it can produce associated discontinuities up to about an ampere and/or a hundred volts. This step recovery action can be conveniently used to generate waveforms which are very rich in high-order harmonics in the gigacycle region. In many cases it offers considerable advantage in circuit simplicity and power-handling capability over alternative diode harmonic generators. This paper is concerned with the factors that go into the appropriate mating of this diode with its circuit, and with evaluation of the performance that can be achieved. As a by-product of this analysis, a generalized evaluation of rectification efficiency is obtained which is useful for many conventional semiconductor diodes in conventional rectifier circuits. This analysis also leads to a convenient method for evaluating the lifetime of semiconductor diodes, which is particularly useful in the fractional nanosecond range because it separates out capacitive effects.
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