Cisco CATALYST 6509E 9 SLOT 15U CHASSIS NO POWER SUPPLY NO FAN TRAY Specification Guide
B-31
Catalyst 6500 Series Switches Installation Guide
OL-5781-04
Appendix B Transceivers, Module Connectors, and Cable Specifications
Cleaning the Fiber Optic Connectors
Figure B-21 LED Transmission Compared to Laser Transmission
Lasers launch light in a more concentrated fashion. A laser transmitter couples light into only a fraction
of the existing modes or optical pathways present in the fiber-optic cable. (See
of the existing modes or optical pathways present in the fiber-optic cable. (See
The solution is to condition the laser light launched from the source (transmitter) so that it spreads the
light evenly across the diameter of the fiber-optic cable making the launch look more like an LED source
to the cable. The objective is to scramble the modes of light to distribute the power more equally in all
modes and prevent the light from being concentrated in just a few modes.
light evenly across the diameter of the fiber-optic cable making the launch look more like an LED source
to the cable. The objective is to scramble the modes of light to distribute the power more equally in all
modes and prevent the light from being concentrated in just a few modes.
An unconditioned launch, in the worst case, might concentrate all of its light in the center of the
fiber-optic cable, exciting only two or more modes equally.
fiber-optic cable, exciting only two or more modes equally.
A significant variation in the amount of DMD is produced from one MMF cable to the next. No
reasonable test can be performed to survey an installed cable plant to assess the effect of DMD, so you
must use the mode-conditioning patch cords for all uplink modules using MMF when the link span
exceeds 984 feet (300 meters).
reasonable test can be performed to survey an installed cable plant to assess the effect of DMD, so you
must use the mode-conditioning patch cords for all uplink modules using MMF when the link span
exceeds 984 feet (300 meters).
For link spans less than 984 feet (300 meters), you can omit the patch cord. (We do not recommend using
the LX/LH GBIC and MMF without a patch cord for very short link distances of 33 to 328 feet [10 to
100 meters]. The result could be an elevated bit error rate [BER].)
the LX/LH GBIC and MMF without a patch cord for very short link distances of 33 to 328 feet [10 to
100 meters]. The result could be an elevated bit error rate [BER].)
Cleaning the Fiber Optic Connectors
Fiber optic connectors are used to connect two fibers together. When these connectors are used in a
communications system, proper connection becomes a critical factor.
communications system, proper connection becomes a critical factor.
Fiber optic cable connectors can be damaged by improper cleaning and connection procedures. Dirty or
damaged fiber optic connectors can result in communication that is not repeatable or inaccurate.
damaged fiber optic connectors can result in communication that is not repeatable or inaccurate.
Fiber optic connectors differ from electrical or microwave connectors. In a fiber optic system, light is
transmitted through an extremely small fiber core. Because fiber cores are often 62.5 microns or less in
diameter, and dust particles range from a tenth of a micron to several microns in diameter, dust and any
contamination at the end of the fiber core can degrade the performance of the connector interface where
the two cores meet. Therefore, the connector must be precisely aligned, and the connector interface must
be absolutely free of trapped foreign material.
transmitted through an extremely small fiber core. Because fiber cores are often 62.5 microns or less in
diameter, and dust particles range from a tenth of a micron to several microns in diameter, dust and any
contamination at the end of the fiber core can degrade the performance of the connector interface where
the two cores meet. Therefore, the connector must be precisely aligned, and the connector interface must
be absolutely free of trapped foreign material.
Connector loss, or insertion loss, is a critical performance characteristic of a fiber optic connector.
Return loss is also an important factor. Return loss specifies the amount of reflected light; the lower the
reflection, the better the connection. The best physical contact connectors have return losses greater than
-40 dB, although -20 to -30 dB is more common.
Return loss is also an important factor. Return loss specifies the amount of reflected light; the lower the
reflection, the better the connection. The best physical contact connectors have return losses greater than
-40 dB, although -20 to -30 dB is more common.
LED transmission
Laser transmission
12871
LED
Laser