Bandwidth Limits for Neutralized Input Capacity Amplifiers

R. Schoenfeld
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引用次数: 3

Abstract

Criteria for bandwidth limits for neutralized input capacity amplifiers are developed. The behavior of different neutralization schemes is analyzed in terms of the root locus of the system gain function. This technique permits quantitative design and evaluation of the different circuits that have been used. It makes it possible to judge the effectiveness of new approaches to the problem. It is shown that second-order amplifiers may achieve inherently faster response than amplifiers with a single time constant. Using a critically damped criterion, the maximum bandwidth of the second-order amplifier is equal to the cube root of the product of the input circuit bandwidth times the square of the amplifier bandwidth with the input circuit removed. A single time constant amplifier has a maximum bandwidth equal to the square root of the product of the input circuit bandwidth times that of the amplifier alone. It is shown also that one may have to choose between speed of response and excess noise. The noise figure of these systems may increase markedly with bandwidth and increases to a lesser degree with the system complexity.
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中和输入容量放大器的带宽限制
提出了中和输入容量放大器的带宽限制准则。根据系统增益函数的根轨迹分析了不同的中和方案的行为。该技术允许对已使用的不同电路进行定量设计和评估。它使人们有可能判断解决问题的新方法的有效性。结果表明,二阶放大器比单时间常数放大器的响应速度更快。采用临界阻尼准则,二阶放大器的最大带宽等于输入电路带宽乘以去掉输入电路后放大器带宽的平方的立方根。单个时间常数放大器的最大带宽等于输入电路带宽与单独放大器带宽乘积的平方根。它还表明,人们可能不得不在响应速度和过量噪声之间作出选择。这些系统的噪声系数可能随着带宽的增加而显著增加,随着系统复杂性的增加而增加的程度较小。
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