Interaction between device technologies and computer communication networks circuits

Conference Proceeding IEEE Pacific Rim Conference on Communications, Computers and Signal Processing Pub Date : 1989-06-01 DOI:10.1109/PACRIM.1989.48322

M. Deen, R. Hardy, S. Stapleton, R. Fortier

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Abstract

The interactions between high-speed solid-state devices and computer communication networks and circuits are discussed, and it shown that the performances of these circuits are critically dependent on those of the devices. The implementation with three different technologies of the digital XOR phase detector, a crucial element in PLL clock recovery circuits, was investigated in detail. From MSPICE simulations, it was found that the GaAs-based phase detector has superior speed, reduced logic voltage levels, reduced noise margins, and higher power dissipation compared to the CMOS implementation. The ECL XOR circuit can operate at higher frequencies, but it also has reduced logic levels and the highest power dissipation compared to either the CMOS or GaAs XOR gate. Since both ECL and GaAs circuits use nonconventional voltage levels, with the resulting nonconventional input and output logic voltages, appropriate modifications in the interface circuit with the other computer communications networks are needed.<>

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设备技术与计算机通信网络电路之间的相互作用

讨论了高速固态器件与计算机通信网络和电路之间的相互作用，表明这些电路的性能严重依赖于器件的性能。详细研究了锁相环时钟恢复电路中数字异或鉴相器的三种不同技术实现。从MSPICE仿真中发现，与CMOS实现相比，基于gaas的鉴相器具有更高的速度，更低的逻辑电压水平，更低的噪声裕度和更高的功耗。ECL XOR电路可以在更高的频率下工作，但与CMOS或GaAs XOR门相比，它也具有更低的逻辑电平和最高的功耗。由于ECL和GaAs电路都使用非常规的电压电平，从而产生非常规的输入和输出逻辑电压，因此需要在与其他计算机通信网络的接口电路中进行适当的修改

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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Conference Proceeding IEEE Pacific Rim Conference on Communications, Computers and Signal Processing

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