Vubiq Networks Inc. V10G-L Manual De Usuario
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Vubiq HaulPass V10g User Manual
© 2018 Vubiq Networks, Inc. All Rights Reserved
Step 12. Optical Adjustment: Align the terminal optically so that the scope cross-hairs are on the terminal on the
other side of the link.
other side of the link.
Step 13. Coarse Adjustment: Since the terminal is optically aligned, the Bottom LED should change from blinking
Green to blinking White, indicating that it is receiving signal from the other end and an RF link has been created. If it
is not blinking White, adjust the terminal slightly until it does blink White.
Green to blinking White, indicating that it is receiving signal from the other end and an RF link has been created. If it
is not blinking White, adjust the terminal slightly until it does blink White.
Note: The bottom LED will blink Blue instead of White if the Ethernet mode is set to 2.5 Gbps
The remaining 6 LEDs are used for the fine adjustment. They display two alignment bar graph meters
simultaneously.
simultaneously.
The Green bar graph meter correlates to signal strength, with more LEDs indicating a stronger signal. The Green
LEDs, starting with the bottom one, indicate: > 0 dB, > 10 dB, > 20 dB, > 30 dB, and > 35 dB of attenuation of the
incoming signal. The Signal strength in Figure 8 shows that the incoming signal is being attenuated by at least 20
dB.
LEDs, starting with the bottom one, indicate: > 0 dB, > 10 dB, > 20 dB, > 30 dB, and > 35 dB of attenuation of the
incoming signal. The Signal strength in Figure 8 shows that the incoming signal is being attenuated by at least 20
dB.
The Blue bar graph meter indicates signal quality. More LEDs indicate a better RF link. The Blue LEDs, starting with
the bottom one, indicate: >= 1.3 Gbps, >= 2.7 Gbps, >= 4.1 Gbps, >= 5.4 Gbps, >= 6.8 Gbps, and >= 8.21 Gbps
(Blue) or 10 Gbps (White). A 10 Gbps signal will show 5 Blue LEDs and the top LED will be White as shown in
Figure 8.
the bottom one, indicate: >= 1.3 Gbps, >= 2.7 Gbps, >= 4.1 Gbps, >= 5.4 Gbps, >= 6.8 Gbps, and >= 8.21 Gbps
(Blue) or 10 Gbps (White). A 10 Gbps signal will show 5 Blue LEDs and the top LED will be White as shown in
Figure 8.
During the alignment, the 6 LEDs can be Off, Green, Dark Blue, Light Blue (both Green and Blue are on at the same
time), or White. Figure 8 shows that the terminal is in 10 Gbps mode (blinking White status LED), the strength of the
incoming signal is requiring at least 20 dB of attenuation, and the RF signal is operating at 10 Gbps.
time), or White. Figure 8 shows that the terminal is in 10 Gbps mode (blinking White status LED), the strength of the
incoming signal is requiring at least 20 dB of attenuation, and the RF signal is operating at 10 Gbps.
Figure 8. LED Status
Note: During power up and booting, the bottom LED is also used to display Power On Self-Test diagnostic status:
• Dim Green – power is applied. If the LEDs are turned off via the management interface, you will still see the
power LED
• Bright Green – POST is running or no signal from the remote terminal
• Bright Red – The RF section is initializing or Error
• Bright Purple – AGC is active
• Bright Red – The RF section is initializing or Error
• Bright Purple – AGC is active
Step 14. Fine Adjustment: Slowly move the terminal in small increments with settling delays between each
movement, lighting as many Blue LEDs as possible and turning the top LED White. Maximizing the number of Blue
LEDs, dark Blue or light Blue, maximizes the RF signal quality and the RF link data carrying capacity. The Green
signal strength is less important that the Blue signal quality.
movement, lighting as many Blue LEDs as possible and turning the top LED White. Maximizing the number of Blue
LEDs, dark Blue or light Blue, maximizes the RF signal quality and the RF link data carrying capacity. The Green
signal strength is less important that the Blue signal quality.
Step 15. Confirm through a network administrator (or other methods) that data is transmitting across the link.
Step 16. Remove the optical scope and its mounting bracket.