Cisco CSC-C2FCIT Installation et mise à niveau - Page 22
Parcourez en ligne ou téléchargez le pdf Installation et mise à niveau pour {nom_de_la_catégorie} Cisco CSC-C2FCIT. Cisco CSC-C2FCIT 32 pages. Fddi card and appliques
Installing Cards and Appliques
Figure 15
FDDI D, H, L, P
Connecting the External Fiber-Optic Cables
Following is the procedure for connecting the external FDDI cables. Refer to Figure 6 for an
illustration of the single-mode FDDI connector and to Figure 7 for illustrations of the single-mode
and multimode FDDI connectors.
Warning
appliques when no fiber cable is connected. Avoid exposure and do not stare into open apertures.
This product meets the Class 1 Laser Emission Requirement from CDRH FDDI.
Step 1
Step 2
Table 5
Pin No. Description
1
2
3
4
5
6
22 Installing and Upgrading the CSC-C2FCIT FDDI Card and Appliques
Orientation of the Ribbon Cables on the FDDI Applique
Cables to FDDI
interface card
FDDI A, E, I, M
FDDI B, F, J, N
P4
P3
FDDI applique
Invisible laser radiation may be emitted from the aperture ports of the single-mode
If you are not installing an optical bypass switch, skip to step 3.
Plug the male DIN connector (from the optical bypass switch) into the female DIN
connector on the APP-LMM applique, then plug the fiber-optic MIC cables from the
bypass switch into the PHY-A and PHY-B connectors on the FDDI applique.
Connect the FDDI cables from the network into the PHY-A and PHY-B connectors on the
optical bypass switch. Up to 100 milliamperes of current can be supplied to the optical
bypass switch. A pinout of the DIN connector on the optical bypass switch is listed in
Table 5.
Optical Bypass Switch Pinout
+5V to secondary switch
+5V to primary switch
Ground to enable primary switch
Ground to enable secondary switch
Sense circuit—1 kohm to +5V
Ground—sense circuit return
FDDI C, G, K, O
P2
P1