抖动和眼图的视觉分析

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1、 抖动和眼图的视觉化分析 什么是抖动？TIE 为信号相对于标准时钟或者标准信号的定时误差TIE 在高速数字系统中即为抖动抖动为实际数据与其理想位置的时间偏差0.0ns 0.990ns 2.000ns 2.980ns 4.000ns-0.010ns 0.000ns -0.020ns TIE 0.000ns 什么是眼图？眼图是怎么形成的？ Random Jitter(随机抖动随机抖动符合高斯型分布直方图(估计 pdf(数学模型 抖动峰峰值=无穷大无界！内部热能现象Flicker Noise, Shot Noise热能的原子与分子振动分子的解体外部的宇宙射线 Deterministic Jitter

2、(确定性抖动 确定性抖动是非高斯分布并且有界 Periodic Jitter(周期性抖动 TIE 随时间的变化是重复的、周期性的Periodic jitter和相位调制(PM是等效的系统时钟（抖动频率在MHz 量级）开关电源（抖动频率在KHz 量级） Duty Cycle distortion(占空比失真上升时间和下降时间不对称或者测试时参考电平选择不当0.0v Inter-Symbol Interference(码间干扰抖动DDJ 或PDJ 数据相关性抖动或码型相关性抖动, 和ISI 的术语是等价的.码型是如何影响随后的比特位的？由于传输链路的效应、反射等 换个角度看抖动，时域 看看我们有了

3、什么视角？ 7/7/201611抖动视觉化时间趋势图直方图告诉了我们分布，但是只有统计特性，缺少了时间信息时间趋势图可以直观告诉我们波形里是否有特定频率的调制下图为5个周期 SSC 30khz 抖动视觉化 Gaussian Random Noise Sinusoidal Jitter7/7/201612 7/7/201613抖动视觉化频谱图从频域上观测抖动 抖动中决定性的频率成分会在谱线上明显超出噪底 哪个眼图好？哪个直方图好？视觉化眼图和抖动的问题？ 浴盆曲线误码率是关键vs. UI张开程度For a given position in the time theres a given pro

4、bability of error “BER ”, Bit Error Ratio1 UI 基于示波器分析的浴盆曲线Rj /Dj与Tj BERAssume bi-modal distribution (dual-Dirac, measure Tj at two BER 抖动类型分析抖动分离为误码产生的根本原因提供了更精确的定位和分析方法抖动分析方法，参照T11 MJSQ，已经被工业界广泛接受Constituent Components of Jitter= Unbounded= Bounded 7/7/201618Jitter Visualization Bathtub PlotNote th

5、e eye closure of System I vs. System II due to the RJ-RJ is unbounded so the closure increases as BER level increasesSystem I has .053UI of RJ with no PJSystem II has .018UI of RJ and .14UI of PJ 5 and 10MhzSystem ISystem ISystem IISystem II Tektronix -Innovators of Jitter Analysis1998First Real-Tim

6、e Scope Based Jitter Analysis Software2002 Invented SW Based PLL Clock Recovery and the Spectral Approach for Jitter Separation2004Invented RT Eye rendering on a Real Time Scope2004-First vendor to support both modeled (Dual-Dirac and measured (Spectral jitter methods2005-Invented measurements with

7、Jitter and Noise reconciliation2011-First scope vendor with BUJ support2015RT Noise Analysis and Sampling BER and PDF Mask Testing 抖动和眼图的视觉化眼图怎么切割的？时钟决定！ TIE 抖动需要参考时钟参考时钟提取的过程就是时钟恢复参考时钟有几种确定的方式:Constant Clock with Minimum Mean Squared ErrorThis is the mathematically “ideal” clockBut, only applicable

8、 when post-processing a finite-length waveformBest for showing very-low-frequency effectsAlso shows very-low-frequency effects of scopes timebasePhase Locked Loop (e.g. Golden PLLTracks low-frequency jitter (e.g. clock driftModels “real world” clock recovery circuits very wellExplicit ClockThe clock

9、 is not recovered, but is directly probedExplicit Clock (SubrateThe clock is directly probed, but must be multiplied up by some integral factor7/7/201621 Importance of Clock RecoveryFrom spec, “The jitter measurement device shall comply with the JTF”.How do I verify JTF?JTF is difference between inp

10、ut clock (ref and input clock(unfilteredUse 1100b or 0011b pattern (proper 50% transition densityCheck 1 LF attenuation, 2 -3 dB corner frequency, and 3 slope7/7/201622JTF vs PLL Loop BandwidthConfiguring the correct PLL settings is key to correctmeasurementsMost standards have a reference/defined C

11、R setupFor example, USB 3.0 uses a Type II with JTF of 4.9MhzType I PLLType I PLL has 20dB of roll off per decadeJTF and PLL Loop Bandwidth are EqualType 2 PLLType II PLL has 40dB of roll off per decadeJTF and PLL Loop Bandwidth are not EqualFor example, USB 3.0 uses a Type 2 PLL with a JTF of 4.9Mh

12、z.The corresponding loop bandwidth is 10.126 MhzSetting the Loop Bandwidth as opposed to JTF will lead to incorrect jitter measurement results7/7/201623PLL Loop Bandwidth vs. Jitter Transfer Function (JTFA: Constant Clock Recovery B: PLL Clock Recovery Ratio of B/A7/7/201624 JTF Filtering Effects ba

13、sed on different PLL bandwidths 7/7/201627f 3dB = 30 kHzf 3dB = 300 kHzf 3dB = 3 MHz Jitter for Busy PeopleHints, Tips and Common Errors Using the Jitter Analysis ToolsIssues manifested in different layers of theprotocol stackCrosstalk, jitter, reflections, skewDisparity, encoding or CRC errorsWhere

14、 do I start debugging?Jitter and Eye Diagram ToolsOscilloscope-based for quick resultsFast jitter measurements withOne Button Jitter WizardCompare timing, jitter, eye, amplitude measurementsUser-definable clock recovery, filters, pass/fail limits, and reference levels More Hints for Successful Jitte

15、r AnalysisClock Recovery has a great deal of influence on jitter results. Think about what youre trying to accomplish.Constant-Clock is the most “unbiased”Often best if youre trying to see very-low-frequency effectsBut it can also show wander in the scopes timebasePLL recovery can model what a real data receiver will seeIt can track and remove low-frequency effects, allowing y