新型PD協議芯片BMC解碼電路的設計與驗證
2021年電子技術應用第11期
張萬榮,王飛虎
北京工業大學 信息學部,北京100000
摘要: 提出了一種新型PD協議芯片BMC解碼電路。在傳統BMC解碼電路的基礎上,首先,將計數器從解碼模塊中分離出來并在解碼模塊內新增狀態機,通過改變狀態機的跳轉條件實現了對單比特周期突變25%的BMC信號的解碼;然后,新增的FIR濾波器使得Threshold值隨Cnt值線性變化,實現了對周期多次連續變化的BMC信號成功解碼;最后,利用Synopsys公司的Verilog Compiled Simulator進行仿真驗證,證明了新方案可以對周期相差25%的相鄰兩位BMC信號解碼,可以對周期以6.25%增加的連續十位進行解碼。
中圖分類號: TN91
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.211493
中文引用格式: 張萬榮,王飛虎. 新型PD協議芯片BMC解碼電路的設計與驗證[J].電子技術應用,2021,47(11):29-32,38.
英文引用格式: Zhang Wanrong,Wang Feihu. Design and verification of BMC decoding circuit for new PD protocol chip[J]. Application of Electronic Technique,2021,47(11):29-32,38.
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.211493
中文引用格式: 張萬榮,王飛虎. 新型PD協議芯片BMC解碼電路的設計與驗證[J].電子技術應用,2021,47(11):29-32,38.
英文引用格式: Zhang Wanrong,Wang Feihu. Design and verification of BMC decoding circuit for new PD protocol chip[J]. Application of Electronic Technique,2021,47(11):29-32,38.
Design and verification of BMC decoding circuit for new PD protocol chip
Zhang Wanrong,Wang Feihu
Faculty of Information Technology,Beijing University of Technology,Beijing 100000,China
Abstract: This paper presents a new type of biphase mark coding(BMC) decoding circuit for PD protocol chip. Based on the traditional BMC decoding circuit, firstly, the counter is separated from the decoding module, and a state machine is added in the decoding module. By changing the jump condition of the state machine, the BMC signal with single bit period mutation of 25% is decoded. Then, a finite impulse response(FIR)filter is added to make the threshold value change linearly with the value of Cnt, so that the BMC signal with multiple continuous cycles can be decoded. Finally, the Verilog Compiled Simulator of Synopsys company is used for simulation verification, which proves that the new scheme can decode two adjacent BMC signals with a period difference of 25%, and decode ten consecutive BMC signals with a period increase of 6.25%.
Key words : BMC decoding;USB PD protocol;FIR;fast charging protocol chip
0 引言
近年來,隨著移動設備快速充電功率的不斷提高,USB標準化組織(Universal Serial Bus Implementers Forum,USB-IF)制定了基于BMC編碼的USB功率傳輸(Universal Serial Bus Power Deliver,USB PD)3.0協議,該協議相比于Qualcomm公司的快速充電(Quick Charge,QC)協議、Samsung公司的自適應快速充電(Adaptive Fast Charge,AFC)協議等快充協議具有只占用一根通信線,協議內容可拓展性強等優點,已成為應用最廣的快充協議[1-3]。BMC解碼模塊是USB PD 3.0協議芯片的核心模塊[4-6]。隨著手機快充功率突破120 W,峰值電流可達到6.25 A,電流大范圍變化帶來的地電位漂移現象愈發嚴重,地電位漂移導致BMC信號在傳輸過程中周期多次連續變化使得BMC信號周期累計變化范圍可達3.3 μs的±30%[7];隨著USB線中數據傳輸速率提高到20 Gb/s使,USB線包內的電磁環境更加惡劣,從而使得BMC信號在傳輸過程中受到大量高頻噪聲干擾而導致周期單次大幅度突變[8]。為解決上述問題,近年來人們提出了一些對BMC解碼模塊優化的方案,文獻[9]提出了一種解碼電路能夠成功解碼周期在3.3 μs±25%范圍內變化的BMC信號,但是當BMC信號周期累計變化到±30%時不能成功解碼,而是通過錯誤反饋機制強制USB PD 3.0協議芯片回到初始狀態。
本文詳細內容請下載:http://www.jysgc.com/resource/share/2000003821。
作者信息:
張萬榮,王飛虎
(北京工業大學 信息學部,北京100000)
此內容為AET網站原創,未經授權禁止轉載。