基于先進CMOS工藝的多通道Gbps LVDS接收器
電子技術應用
趙達1,沈丹丹2,王亞軍1,楊亮1,桂江華1,邵健1
1.中電科申泰信息科技有限公司;2.中國電子科技集團公司第五十八研究所
摘要: 在SIP(System In a Package)系統中集成具有LVDS(Low-Voltage Differential Signal)接口的多通道高速模數轉換器(Analog-to-Digital Converter,ADC)時,面臨不同LVDS輸出通道延時不同所導致的數據采集錯誤的問題,為此設計了一個多通道自適應LVDS接收器。通過采用數據時鐘恢復技術產生一個多相位的采樣時鐘,并結合ADC的測試模式來確認每一個通道的采樣相位,能夠自動對每一個通道的延時分別進行調整,以達到對齊各通道采樣相位點,保證數據正確采集的目的。最后,基于先進CMOS工藝進行了接收器的設計、仿真、后端設計實現和流片測試,仿真和流片后的板級測試結果均表明該接收器能夠對通道延遲進行自動調節以對齊采樣相位,且最大的采樣相位調節范圍為±3 bit,信噪比大于65 dB,滿足了設計要求和應用需求。
中圖分類號:TN432 文獻標志碼:A DOI: 10.16157/j.issn.0258-7998.234437
中文引用格式: 趙達,沈丹丹,王亞軍,等. 基于先進CMOS工藝的多通道Gbps LVDS接收器[J]. 電子技術應用,2024,50(5):24-29.
英文引用格式: Zhao Da,Shen Dandan,Wang Yajun,et al. Multi channels Gbps LVDS receiver based on advanced CMOS[J]. Application of Electronic Technique,2024,50(5):24-29.
中文引用格式: 趙達,沈丹丹,王亞軍,等. 基于先進CMOS工藝的多通道Gbps LVDS接收器[J]. 電子技術應用,2024,50(5):24-29.
英文引用格式: Zhao Da,Shen Dandan,Wang Yajun,et al. Multi channels Gbps LVDS receiver based on advanced CMOS[J]. Application of Electronic Technique,2024,50(5):24-29.
Multi channels Gbps LVDS receiver based on advanced CMOS
Zhao Da1,Shen Dandan2,Wang Yajun1,Yang Liang1,Gui Jianghua1,Shao Jian1
1.CETC Suntai Information Technology Co.,Ltd.; 2.No. 58 Research Institute, CETC
Abstract: When integrating multi-channel high-speed ADC (Analog-to-Digital Converter) with LVDS (Low Voltage Differential Signal) interface in SIP (System In a Package) system, it is faced with the problem of clock-to-data skew, data-to-data skew, accumulated clock jitter and so on caused by different LVDS channel with different delays. Therefore, a multi-channel LVDS receiver was designed in this paper which can adaptively adjust the skew of each LVDS channel. The receiver uses data clock recovery technology to generate eight multi-phase sampling clocks, combining with ADC test mode to confirm the sampling phase of each channel, the delay of each channel can be automatically adjusted, aiming to align the sampling phase of channels and ensure the data correct. Finally, the receiver was designed, simulated, and realized based on advanced CMOS technology. The results of simulation and chip test show that the receiver can automatically adjust the delay of each channel to align the sampling phase, the maximum range of sampling phase adjustment is ± 3 bit, and the signal-to-noise ratio is greater than 65 dB, which meets the design requirements and application requirements.
Key words : analog-to-digital converter(ADC);multi-channels LVDS;phase locked loop;clock data recover
引言
模數轉換器(Analog-to-Digital Converter,ADC)作為信號在模擬域和數字域之間的轉換器件,在當前轉換速率越來越高的要求下,對ADC的接口速率也提出了更高的要求。因LVDS(Low-Voltage Differential Signal)具有結構簡單、功耗低、噪聲低、易與其他差分信號進行互操作的特性[1-2],使其在轉換精度在12 bit~16 bit之間、轉換速率在100 MS/s~300 MS/s附近的ADC接口中得到了廣泛的應用[3-5]。
本文基于一個多通道信號處理系統的需求,選用了一款LVDS輸出接口、精度為16位的四通道ADC,其最高采樣速率可達125 MS/s。由于通道數目多,采用SIP(System In a Package)封裝后,LVDS各通道之間的時序誤差比較嚴重,尤其在高低溫環境下更是明顯,這些均加重了后續電路采樣時的設計難度,為此需要研究多通道LVDS的數據接收技術,確保系統正常接收ADC的數據。本文設計了一款基于先進CMOS工藝的多通道LVDS接收單元,以便集成入SoC(System on Chip),實現處理器對ADC數據的讀取和處理。
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作者信息:
趙達1,沈丹丹2,王亞軍1,楊亮1,桂江華1,邵健1
(1.中電科申泰信息科技有限公司,江蘇 無錫 214100;2.中國電子科技集團公司第五十八研究所,江蘇 無錫214035)
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