论文详情
模数(Analog/Digital,A/D)转换器是地震仪中的一个重要装置,用于将模拟电信号转换成数字信号,该转换器的参数设计基于人们对地震勘探中信号与噪声特性的认识。根据噪声与地震采集系统(检波器+地震仪)的关系对噪声类型进行了划分,标定了不同类型噪声的强度与模数转换位数之间的关系。在此基础上,根据模数转换原理计算了定点32位、24位A/D转换以及浮点15位A/D转换在无噪声和有噪声时的频谱。数值模拟结果证明,目前广泛采用的24位定点A/D转换器适用于当前地震勘探信号,32位定点A/D转换和15位浮点A/D转换对地震数据信噪比的提高并没有太大帮助;在噪声压制技术取得较大进步,将噪声再衰减-30~-40〖KG*9〗dB之前,扩大A/D转换器的动态范围不会显著提高有效弱反射信号的识别能力。
The A/D (Analog/Digital) converter,which converts the analog electric signal to a digital signal,is one of the most important devices in a seismograph.The parameter design of an A/D converter is based on the recognition of the characteristics of signal and noise in seismic exploration.Based on the relationship between noise and a seismic acquisition system,such as a seismograph and geophone,this paper presents a new classification of noise,while calibrating the relationship between the intensity of different types of noise and the bits of an A/D converter.On that basis,the frequency spectra of simulation data from 32-fixed-bit,24-fixed-bit,and 15-floating-bit A/D converters were calculated in the absence and presence of noise.The results showed that the widely used 24-fixed-point A/D converter is suitable for current seismic acquisition,while the 32-fixed-point and 15-floating-point converters are not helpful for improving the SNR of seismic data.Expansion of the dynamic range for A/D converters will not significantly improve its ability to identify a weak reflection signal,unless noise suppression technology sufficiently progresses to attenuate noise by -30 to -40〖KG*9〗dB more than the existing level.