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EECS 713 Project Instructor: Prof. Allen Presented by: Chen Jia.

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Presentation on theme: "EECS 713 Project Instructor: Prof. Allen Presented by: Chen Jia."— Presentation transcript:

1 EECS 713 Project Instructor: Prof. Allen Presented by: Chen Jia

2 Definition  Signal integrity (SI): is a set of measures of the quality of an electrical signal. We expect the signal can response time series, electrical level correspondingly.  Was not always a case in earlier days. Challenges for designers  Concerns: why, what, when, and how

3 Why  When SI happens, the noise margin requirement will not be satisfied – logic errors, false switching, system collapses, etc.  In high speed digital system, we are expecting a string that contains bits H(1) and L(0). A continuous voltage waveform. Receivers sample the signal by generating the rising and falling edge of the signal.

4 A Failure in catching rising or falling edge, or misreading an ambiguous logic state may result in an incomplete data transmission or even a failure of transmission. Settle down to non-ambiguous before receiver kicks in

5 We want to see this

6 Not this

7 When

8 Delay  If the signal arrives its destination when it is supposed to.  Delay depends on the length of the transmission line and dielectric constant. In high speed digital system, the length of the transmission lines has the greatest impact of clock skew.

9 Clock skew: is the difference in the arrival time between two sequentially-adjacent registers

10 What  Parameters of PCB and components on it  The arrangement of components layout and high speed trace design  Reflection/crosstalk/power/ground noise  Electromagnetic Compatibility (EMC)  Electromagnetic Interference (EMI)

11 How

12 Solution: crosstalk, reflection  For crosstalk:  1. Reduce the coupling (a solid reference plane, both ground and power plane will do)  2. Change the timing  3. Improve receiver noise margins (as we stated before)  4. Downsize the aggressor nets (prevent large voltages from affecting small ones, not always the case with digital logic)  5. 90 degree routing, avoid parallel layout (to minimize the impact)  6. More…

13 Solutions  For reflections:  Happens when impedance changes while the signal is transmitting.  L> Tr/2Tpd  Tpd: Transport Delay/unit length  Impedance matching:

14 Matching  1. Parallel: load impedance matching (close to load side) 2. Series: source impedance matching (close to source side, R + R s ≥ R L )

15 Summary

16 Reference  http://www.csee.umbc.edu/csee/research/vlsi / http://www.csee.umbc.edu/csee/research/vlsi /  http://www.cc362.com/article/44852226.html http://www.cc362.com/article/44852226.html  http://www.mr-wu.cn/signal-integrity- analysis-for-high-speed-digital-pcb/  http://www.sigcon.com/Pubs/news/6_01.htm

17 Thank you !

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