Overview of ultrawideband systems

T. Sarkar, E. Mokole, M. S. Palma
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Abstract

Conventionally, the design of antennas is narrowband and little attention is paid to the phase responses of the devices as functions of frequency. Even the use of the term broadband is misleading as one essentially takes a narrow band signal and sweeps it across the band of interest. In fact, it is not necessary to pay too much attention to the phase for narrowband signals, as the role played by the frequency factor is that of a scalar multiplier. However, if one now wants to use multiple frequencies and attempts to relate the data obtained at each frequency, then this frequency term can no longer be ignored. Depending on the application, this scale factor can actually have significant variations, which also depend on the size and the shape of the bandwidth over which the performance of the system is observed. In the time domain, the effect of this frequency term creates havoc as it provides a highly nonlinear operation and hence must be studied carefully. By broadband we mean temporal signals with good signal integrity. When it comes to waveform diversity, which implicitly assumes time-dependent phenomena, it is not possible to do any meaningful system design unless the effects of the antennas are taken into account. These effects will be illustrated in terms of the responses of the antennas and on the applicability of the current popular methodology of time reversal for the vector electromagnetic problem.
超宽带系统概述
传统上,天线的设计是窄带的,很少关注器件的相位响应作为频率的函数。甚至使用“宽带”一词也会产生误导,因为人们本质上是把一个窄带信号扫过感兴趣的频带。实际上,对于窄带信号,没有必要过分关注相位,因为频率因子所起的作用是标量乘法器的作用。然而,如果现在想要使用多个频率,并试图将每个频率上获得的数据联系起来,那么这个频率项就不能再被忽略了。根据应用程序的不同,这个比例因子实际上可能有很大的变化,这也取决于观察系统性能的带宽的大小和形状。在时域,这个频率项的影响造成了严重破坏,因为它提供了一个高度非线性的操作,因此必须仔细研究。我们所说的宽带是指具有良好信号完整性的时间信号。当涉及到波形分集时,它隐含地假设了时变现象,除非考虑到天线的影响,否则不可能做任何有意义的系统设计。这些影响将在天线的响应和当前流行的时间反转方法对矢量电磁问题的适用性方面加以说明。
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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