Chapter 4 - maintenance and troubleshooting, General maintenance and managing cable links, Checking optical power levels – CANOGA PERKINS 9160 10 Gigabit Ethernet Network Interface Device User Manual
Page 37: Maintenance and troubleshooting -1, General maintenance and managing cable links -1, Checking optical power levels -1, Maintenance and troubleshooting
Maintenance and Troubleshooting
General Maintenance and Managing Cable Links
Well-maintained components and clearly identified cables help assure optimum system operation.
Damaged fiber cables and dirty connectors are a common source of signal loss or attenuation. Single
mode and multimode fiber optics are especially sensitive to contamination. Inspect, clean, and test all
components to maintain optimum performance.
Note: To avoid damage and signal loss, do not over-tighten or force-fit optical connectors.
• To clean the ferrules and end-face surfaces of male fiber couplings, use a lint-free pad saturated
with isopropyl alcohol.
• To clean the female fiber connectors, use canned air.
• To prevent damage and contamination, place protective dust caps on all unused optical
connectors.
Plan to manage the cables to ensure trouble-free operation and maintenance tasks.
• Position and secure the fiber optic cables to prevent excessive bends and damage. Follow the
guidelines for the bend radius for specific fiber cables.
Note: If no minimum bend radius is specified, the typical long-term, low-stress radius is not less
than 15 times the cable diameter (based on Federal Standard FS-1037C).
• Always connect the fiber optic cables in the standard Tx to Rx and Rx to Tx scheme.
• Label each cable near each end with the signal direction, source, and destination to minimize
connection errors.
Checking Optical Power Levels
To ensure the proper performance levels, measure the fiber link loss, or link attenuation, for all fiber
links. Each 9160 is shipped with a document that lists the output power for each laser transmitter. To
determine link attenuation, use either the 9160 Tx source or a hand-held 1310/1550 nm laser source, a
fiber optic test jumper cable (with known loss), and an optical power meter.
Note: For accurate results, warm up each unit for at least 30 minutes before checking power levels.
The transmission laser in the 9160 turns on automatically when the chassis receives power.
9160 10 Gigabit Ethernet Network Interface Device
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