Grundlagen der Digitaltechnik - Ing. H. Heuermann - FH Aachen
Grundlagen der Digitaltechnik - Ing. H. Heuermann - FH Aachen
Grundlagen der Digitaltechnik - Ing. H. Heuermann - FH Aachen
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6.6 Mo<strong>der</strong>nste CML-Gatterbausteine 115<br />
NB7L86M<br />
Voltage (45 mV/div)<br />
DDJ = 1.2 ps*<br />
Voltage (45 mV/div)<br />
DDJ = 1.2 ps*<br />
Time (72 ps/div)<br />
Time (72 ps/div)<br />
Figure 8. Typical Output Waveform at 2.488 Gb/s<br />
with PRBS 2^23 1 (V inpp = 75 mV)<br />
Figure 9. Typical Output Waveform at 2.488 Gb/s<br />
with PRBS 2^23 1 (V inpp = 400 mV)<br />
*Input signal DDJ = 10 ps<br />
Voltage (45 mV/div)<br />
DDJ = 2 ps**<br />
Voltage (45 mV/div)<br />
DDJ = 2 ps**<br />
Time (20 ps/div)<br />
Time (20 ps/div)<br />
Figure 10. Typical Output Waveform at 10 Gb/s<br />
with PRBS 2^23 1 (V inpp = 75 mV)<br />
Figure 11. Typical Output Waveform at 10 Gb/s<br />
with PRBS 2^23 1 (V inpp = 400 mV)<br />
**Input signal DDJ = 12 ps<br />
Voltage (45 mV/div)<br />
DDJ = 4 ps***<br />
Voltage (45 mV/div)<br />
DDJ = 4 ps***<br />
Time (16 ps/div)<br />
Time (16 ps/div)<br />
Figure 12. Typical Output Waveform at 12 Gb/s<br />
with PRBS 2^23 1 (V inpp = 75 mV)<br />
Figure 13. Typical Output Waveform at 12 Gb/s<br />
with PRBS 2^23 1 (V inpp = 400 mV)<br />
***Input signal DDJ = 14 ps