Fig. 1. Definition of the jitter.
Fig. 2. Diagram of the total jitter.
Fig. 3. Diagram of the sensor data transceiver.
Fig. 4. Test setup for jitter analysis (transmission distance: 0 m, 50 m, 100 m).
Fig. 5. Eye-pattern for received LVDS (single driver) signal through the 100 m cable (measured by a differential probe).
Fig. 6. Jitter measurement result for received LVDS (single driver) signal through the 50 m cable.
Fig. 7. Jitter measurement result for received LVDS (single driver) signal through the 100 m cable.
Fig. 8. LVDS data transmission techniques.
Fig. 9. Diagram of the long distance cable transmission for underwater acoustic sensor data.
Fig. 10. Eye-pattern for received LVDS (parallel driver) signal through 50 m cable (measured by single-ended probes).
Fig. 11. Eye-pattern for received LVDS (parallel driver) signal through 100 m cable (measured by single-ended probes).
Fig. 12. Eye-pattern for received LVDS (pre-emphasis) signal through 100 m cable (measured by a differential probe).
Table 1. Jitter measurement results.
References
- J. Hancock, "Jitter-Understanding it, measuring it, eliminating it; Part 3: Causes of jitter," in HFE PDF Archives (HFE, Available from: https://www.highfrequencyelectronics.com/,2004)
- R. Stephens, "Jitter analysis: The dual-Dirac model, RJ/DJ, and Q-scale," Agilent Technologies Inc., White Paper, 2004.
- P. Heydari, "Analysis of the PLL jitter due to power/ground and substrate noise," IEEE Trans. Cir. Sys. I Reg. Pap. 51, 2404-2416 (2004).
- J. Buckwalter and A. Hajimiri, "A 10 Gb/s Data-Dependent Jitter Equalizer," Proc. IEEE CICC, 39-42 (2004).
- J. Goldie, "LVDS goes the distance," SID Int. Symp. Dige. Tech. Pap.,126-129 (1999).
- INCITS, "Fibre Channel Methodologies for Jitter and Signal Quality Specification," MJSQ, Tech. Rep. Rev. 10.0, 2003.
- J. H. Han, B. H. LEE, J. S. Seol, and J. M. Lee, "Experimental analysis and design of digital telemetry system with LVDS for sonar", J.Acoust. Soc. Kr. Suppl. 2(s), 32, 89-90 (2013).