中圖分類號： TN914
文獻標識碼： A
DOI：10.16157/j.issn.0258-7998.200521
中文引用格式： 陳曉敏，薛志超，張志龍，等. 低電壓差分信號長線傳輸的優化設計[J].電子技術應用，2020，46(11)：104-108.
英文引用格式： Chen Xiaomin，Xue Zhichao，Zhang Zhilong，et al. Optimal design of long-line transmission with low voltage differential signal[J]. Application of Electronic Technique，2020，46(11)：104-108.

Optimal design of long-line transmission with low voltage differential signal

Abstract： The noise and attenuation that affect the signal integrity are analyzed and verified. The hardware physical layer adopts pre-emphasis and equalization processing technology. The impedance matching optimization and double electrical isolation are designed to improve the signal transmission quality. At the software link layer, a two-level ping-pong buffer is designed to optimize transmission efficiency. The feedback retransmission mechanism based on cyclic redundancy check is improved to ensure that the system realizes the function of data error detection and retransmission, and can adapt to more abnormal link conditions.It has been verified that when the optimized transmission length is 100 m, the system can achieve a high reliable transmission of 180 Mb/s, which meets the technical requirements of engineering applications.

Key words : low voltage differential signal；signal integrity；pre-emphasis；ping-pong；feedback retransmission mechanism