Instruction manual
3. Preparation of Interface Cables and Terminals
55
Port/Slot Transceiver Interface Cable Connector
Multiple-terminal mode optical
fiber
(core/cladding diameter = 62.5
µm/125 µ020m)
SFP-SX 2 1000BASE-SX2 Multiple-terminal mode optical
fiber
(core/cladding diameter = 50
µm/125 µm)
Multiple-terminal mode optical
fiber
(core/cladding diameter = 62.5
µm/125 µm)
SFP-LX 1000BASE-LX Multi-mode fiber optic cable
#3
(core/cladding diameter = 50
µm/125 µm)
Multi-mode fiber optic cable
#3
(core/cladding diameter = 62.5
µm/125 µm)
Single-terminal mode optical
fiber
(core/cladding diameter = 10
µm/125 µm)
SFP-LH 1000BASE-LH Single-terminal mode optical
fiber
(core/cladding diameter = 10
µm/125 µm)
Single-terminal mode optical
fiber
(core/cladding diameter = 8
µm/125 µm)
SFP-BX1U 1000BASE-BX10-U Single-terminal mode optical
fiber
(core/cladding diameter = 10
µm/125 µm)
LC1 core
Connector
SFP-BX1D 1000BASE-BX10-D
SFP-BX4U 1000BASE-BX40-U
SFP-BX4D 1000BASE-BX40-D
CONSOLE port
-
RS-232C RS-232C crossover cable D-sub
(9-pin)
#1: Category 5 or higher UTP cable is recommended for the PoE connection.
#2: When connecting a 30.0 W or higher powered device, use an enhanced category
5 or higher UTP cable.
#3: When using 1000BASE-LX with multi-mode fiber optic cable, depending on the
kind of fiber optic cable, the BER (bit error rate) might increase. In such cases, use of
mode-conditioning patch cords can clear the communication problem.