Performance of a baseband carrier-sense circuit for optical packet networks

E. Wong, M. Summerfield
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引用次数: 1

Abstract

We have characterized our baseband carrier-sense circuit (BCSC) for use in future optical CSMA packet networks. The range of received optical power (ROP) for reliable operation at the circuit is bounded at the lower end where transmission collisions occur and at the higher end where transmission efficiency is compromised. A low low-pass filter (LPF) bandwidth benefits sensitivity, while a high LPF bandwidth benefits transmission efficiency. We found that for our BCSC implementation, an optimum LPF bandwidth exists that maximizes the operating range of ROP, but that the bandwidth dependence of this range is less than 1 dB between 100 kHz and 1 MHz.
用于光分组网络的基带载波检测电路的性能
我们已经描述了我们的基带载波检测电路(BCSC)用于未来的光学CSMA分组网络。电路可靠运行的接收光功率(ROP)范围在传输发生碰撞的低端有界,在传输效率受损的高端有界。低带宽低通滤波器(LPF)有利于提高灵敏度,高带宽低通滤波器有利于提高传输效率。我们发现,对于我们的BCSC实现,存在一个最佳的LPF带宽,使ROP的工作范围最大化,但该范围的带宽依赖性在100 kHz和1 MHz之间小于1 dB。
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