Vubiq Networks Inc. V10G-L Benutzerhandbuch
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Vubiq HaulPass V10g User Manual
© 2018 Vubiq Networks, Inc. All Rights Reserved
4.0 Alignment Details
For basic alignment procedures, please refer to Section 3.4. Provided below are additional alignment details.
4.1 HaulPass V10g Throughput
Figure 10 is a graph illustrating HaulPass V10g throughput. It shows what to expect in the way of throughput,
modulation and profile.
modulation and profile.
Figure 10. HaulPass V10g Throughput, Modulation and Profile Graph
4.2 Alignment Procedure
To align the V10g, first align optically via the scope as described in Section 3.4. This is the course alignment.
The next step is LED alignment. This is the fine adjustment. Most customers will not need to do anything past
optical alignment and checking the LEDs. Table 2 shows the expected throughput and expected LEDs.
optical alignment and checking the LEDs. Table 2 shows the expected throughput and expected LEDs.
Table 2. V10g Expected Throughput and Expected LEDs
Profile
Modulation
(QAM/PSK)
(QAM/PSK)
MBaud
User Bit
Rate
(Gbps)
Rate
(Gbps)
Minimum
Normalized
MSE (SNR)
Normalized
MSE (SNR)
LEDs to expect (Heartbeat will be White in 10G
mode and Blue in 2.5G mode)
mode and Blue in 2.5G mode)
0
128-QAM
1599
10.0
-24.6
All remaining LEDs will be blue with the last one
being white
being white
1
64-QAM
1599
8.2
-21.8
All remaining LEDs will be blue
2
32-QAM
1599
6.8
-18.8
Five LEDs will be blue
3
16-QAM
1599
5.4
-15.8
Four LEDs will be blue
4
8-PSK
1599
4.1
-12.8
Three LEDs will be blue
5
QPSK
1599
2.7
-10.8
Two LEDs will be blue
6
BPSK
1599
1.3
-7.8
One LED will be blue
7
BPSK
800
0.6
-4.8
No other LEDs will be blue
8
BPSK
400
0.3
-3.0
No other LEDs will be blue