J. Bausch, T. Kistner, A. Moreau, S. Sauvage, S. Milanini
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引用次数: 7
摘要
考虑到室内电力线通信(PLC),在150 kHz以下的频率范围内可以找到一个有趣的机会。自1991年以来,3khz和148.5 kHz之间的范围由CENELEC EN 50065规范调节。它分为四个波段(A、B、C和D),其中上面的三个波段是开放给私人使用的。为了向几乎所有家用电器提供互联网连接,正在开发的技术将使用95千赫到148.5千赫之间的频率范围。不幸的是,EN 50065在发布时缺乏对电气装置非常具体的通道特性的了解。因此,按照规范,通信设备的ehs标准和相应的测试程序(称为Orphelec测试)也在很大程度上采纳了不足之处。本文提出了一种合格信道模型及其硬件和软件实现方法。此外,考虑到所有典型的信道特性,给出了信道仿真器的实现。最后,介绍了一个合格的测试程序,提供了不同通信系统之间的可比性。
Advanced "Orphelec" test equipment and novel test procedures
Considering indoor power line communications (PLC) an interesting opportunity can be found in the frequency range below 150 kHz. The range between 3 kHz and 148.5 kHz is regulated by the Norm CENELEC EN 50065 since 1991. It is split into four bands (A, B, C and D) where the upper three bands are open for private use. In order to provide Internet connectivity to practically every household appliance, there are technologies under development, which will use the frequency range between 95 kHz and 148.5 kHz. Unfortunately, the EN 50065 was released with a lack of knowledge about the very specific channel properties of electrical installations. Thus, following the norm, also the EHS-standard and according test procedures (named Orphelec test) of communications equipment adopted the deficiencies to a great extent. In this paper a qualified channel model and its implementation in hard- and software is presented. Further on, a realisation of a channel emulator is given, considering all typical channel properties. Finally, a qualified test procedure providing comparability between different communication systems is introduced.
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