Inertial Seismograph Design-Limitations in Principle and Practice (Or How Not to Build a Sensitive Seismograph)

B. S. Melton, D. P. Johnson
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引用次数: 8

Abstract

Seismograph design is discussed in the general terms of band pass, control of response characteristics through mechanical and electrical modifications of the system, and the limitations imposed on sensitivity when some seemingly innocuous numbers are ignored. Earth vibration amplitudes of one Angstrom or less, and power-sensing levels as low as 10-20 watts are considered, implying that instrumental noise levels should be even lower under some circumstances. A discussion of transducer elements leads to the conclusion that the incorporation of a galvanometer into the motion-amplifying system offers at least as good a system as can be devised by other means. The concept of a platform stabilized against seismic disturbances is outlined as an interesting and probably important sidelight on seismograph design. Remarks on mechanical construction are included as guidance to designers because certain details, such as spring proportions, lever systems, crossed flexure plate hinges and suspension members with controlled regions of bending have been found extremely effective while other details of design have produced elusive troubles. Some design features are illustrated in the construction of certain seismographs in whose design the authors have an interest. The problem of level sensitivity for horizontal component seismometers is outlined to show its basic nature, and some possible solutions.
惯性地震仪设计的原理与实践限制(或如何不造灵敏地震仪)
从带通、通过对系统进行机械和电气修改来控制响应特性以及忽略一些看似无害的数字时对灵敏度的限制等方面讨论了地震仪的设计。考虑到地球振动振幅为1埃或更小,功率感应电平低至10-20瓦,这意味着在某些情况下,仪器噪声水平应该更低。对换能器元件的讨论得出结论,在运动放大系统中加入振镜至少可以提供与其他方法设计的系统一样好的系统。在地震仪设计中,一个稳定的平台的概念被概述为一个有趣的,可能是重要的侧面。对机械结构的评论包括作为设计师的指导,因为某些细节,如弹簧比例,杠杆系统,交叉弯曲板铰链和具有弯曲控制区域的悬架构件被发现非常有效,而其他细节的设计则产生了难以捉摸的麻烦。介绍了笔者感兴趣的某些地震仪的设计特点。概述了水平分量地震仪的水平灵敏度问题,说明了它的基本性质和一些可能的解决办法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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