K. Ikeuchi, K. Inagaki, H. Kusamitsu, T. Ito, M. Takamiya, T. Sakurai
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引用次数: 4
摘要
利用电容耦合信号,首次证明了使用0.18 μ m CMOS技术和125 μ m FR4印刷电路板(pcb)实现短至240 μ m高度的电子连接器的可行性。最大数据速率为500 Mbps/引脚和3.6 Gbps/mm2,功耗为670 muW/引脚,即使与FR4板相关的寄生电容很大。与传统电路相比,所提出的自复位电路在相同的寄生电容下发送信号速度提高2.8倍,或在相同的数据速率下允许6倍的寄生电容。
500Mbps, 670μW/pin capacitively coupled receiver with self reset scheme for wireless connectors
Using capacitively coupled signaling, the feasibility of implementing an electronic connector as short as 240 mum in height is demonstrated for the first time using 0.18 mum CMOS technology and 125 mum FR4 printed circuit boards (PCBs). Maximum data rate of 500 Mbps/pin and 3.6 Gbps/mm2 are measured with 670 muW/pin of power consumption even with large parasitic capacitance associated with the FR4 board. Compared to the conventional circuits, the proposed self reset circuit can send signals 2.8x faster at the same parasitic capacitance or allow 6x more parasitic capacitance at the same data rate.
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