Ruijie FE-SFP-LX-MM1310 Installation and operating manual
Ruijie Transceiver Modules
Installation and Reference Guide V3.0
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Preface
Thank you for using our products. This manual will guide you through the installation of the device.
This manual describes the functional and physical features and provides the device installation steps, hardware
troubleshooting, module technical specifications, and specifications and usage guidelines for cables and connectors.
Audience
It is intended for the users who have some experience in installing and maintaining network hardware. At the same time, it
is assumed that the users are already familiar with the related terms and concepts.
Obtaining Technical Assistance
Ruijie Networks Website: http://www.ruijienetworks.com/
Service Email: service_rj@ruijienetworks.com
Technical Support: http://www.ruijienetworks.com/service.aspx
Technical Support Hotline: +86-4008-111-000
Related Documents
Documents
Description
Configuration Guide
Describes network protocols and related mechanisms that supported by the
product, with configuration examples.
Command Reference
Describes the related configuration commands, including command modes,
parameter descriptions, usage guides, and related examples.
Symbol Conventions
Means reader take note. Notes contain helpful suggestions or references.
Means reader be careful. In this situation, you might do something that could result in equipment damage
or loss of data.
Installation and Reference Guide Mini-GBIC and SFP Modules
Mini-GBIC and SFP Modules
Overview
The SFP (Small Form-Factor Pluggable) transceiver modules are classified into two models: optical SFP modules
including duplex SFP modules shown in Figure 1-1 and BIDI SFP modules in Figure 1-2, and copper SFP modules in
Figure 1-3. The BIDI SFP module applies different wavelengths in transmission and reception. In such way, the optical
signal gets bidirectional transmission in the same optical fiber. The SFP module is an input/output device that supports hot
swapping. When installed into the Ethernet port, the SFP is responsible for connecting the port and optical fiber network.
The SFP module can be described as a smaller version of the Giga Bitrate Interface Converter (GBIC), also referred to as
a mini-GBIC. In addition to applications to the Gigabit Ethernet port, the SFP also supports transceiver applications on FE
ports and STM-1 SDH ports. 1000Base-T SFP uses existing copper wires to implement the full-duplex Gigabit
connections between high-end workstations and power distribution rooms.
Figure 1-1 Dual-fiber SFP Module
Figure 1-2 BIDI SFP Module
Figure 1-3 Copper SFP Module
Installation and Reference Guide Mini-GBIC and SFP Modules
Figure 1-4 Dual-fiber SFP(SGMII) Module
The schematic diagrams are for your reference only. The product appearance is subject to the actual model.
Models and Specifications
Table 1-1 Existing Models of the Optical SFP Module.
Rate
Standard
SFP Product Model
Ethernet
FE
Long wavelength / long distance
100Base-FX
FE-SFP-LX-MM1310
FE-SFP-LX-MM1310-SGMII
FE-SFP-LH15-SM1310
FE-eSFP-LH15-SM1310
FE-SFP-LH20-SM1310-SGMII
FE-SFP-LX20-SM1310-BIDI
FE-SFP-LX20-SM1550-BIDI
Ethernet
GE
Short wavelength
1000Base-SX
SFP-MM850
MINI-GBIC-SX-MM850
GE-eSFP-SX-MM850
GE-SFP-SX
GE-SX-MM850
GE-SFP-SX-SM1550-BIDI
GE-SFP-SX-SM1310-BIDI
Long wavelength / long distance
1000Base-LX/LH
SFP-SM1310
MINI-GBIC-LX-SM1310
Installation and Reference Guide Mini-GBIC and SFP Modules
GE-SFP-LX
GE-LX-SM1310
GE-eSFP-LX-SM1310
SFP-S4-R1000P1 v1
MINI-GBIC-LH40-SM1310
GE-SFP-LX20-SM1310-BIDI
GE-SFP-LX20-SM1550-BIDI
Long wavelength / extended
distance
1000Base-ZX
MINI-GBIC-ZX50-SM1550
MINI-GBIC-ZX80-SM1550
MINI-GBIC-ZX100-SM1550
GE-SFP-ZX
GE-SFP-ZX V2
SDH interface
155.52Mbps
Short wavelength
SDH155-SFP-SX-MM850
SDH155-SFP-SX-MM1310
Long wavelength / long distance
SDH155-SFP-LH15-SM1310
Long wavelength / extended
distance
SDH155-SFP-LH40-SM1310
SDH155-SFP-LH80-SM1550
Table 1-2 Models of the Copper SFP Module.
Standard
1000Base-T SFP Product Model
1000Base-T
MINI-GBIC-GT
1000Base-T
GE-SFP-GT
The types/models of MINI-GBIC and SFP modules are being updated. If more accurate models of the
module are required, please contact Ruijie marketing staff or technical support engineers.
Table 1-3 Pairing Models of the SFP BIDI Module
Rate/Distance
Paring Models
100M/20km
FE-SFP-LX20-SM1310-BIDI
FE-SFP-LX20-SM1550-BIDI
1000M/500m
GE-SFP-SX-SM1310-BIDI
GE-SFP-SX-SM1550-BIDI
1000M/20km
GE-SFP-LX20-SM1310-BIDI
GE-SFP-LX20-SM1550-BIDI
Installation and Reference Guide Mini-GBIC and SFP Modules
BIDI modules must be used in pairs. If FE-SFP-LX20-SM1310-BIDI is used at one end, then
FE-SFP-LX20-SM1550-BIDI must be applied to the other end.
Table 1-4 Temperature/Humidity Requirements of Dual-fiber SFP Modules and Copper SFP Modules
Operating Temperature
0ºC to 70ºC
Storage Temperature
-40ºC to 85ºC
Relative Humidity
10% to 90%
Table 1-5 Temperature/Humidity Requirements of BIDI SFPModules
Operating Temperature
-40ºC to 85ºC
Storage Temperature
-40ºC to 85ºC
Relative Humidity
5% to 95%
Models and Technical Specifications
Table 1-6 Models and Technical Specifications of the SFP Module
SFP Model
Wavelength
(nm)
Optical
Fiber
Type
DDM
(Yes/No)
Intensity of
Transmitted Light
/ dBm
Intensity of
Received Light /
dBm
MIN
MAX
MAX
MIN
FE-SFP-LX-MM1310
1310
MMF
Yes
-22
-14
-30
-14
FE-SFP-LX-MM1310-SGMII
1310
MMF
No
-20
-15
-28
-8
FE-SFP-LH15-SM1310
1310
SMF
Yes
-15
-8
-28
-8
FE-SFP-LH20-SM1310-SGMII
1310
SMF
No
-15
-8
-28
-8
FE-SFP-LX20-SM1310-BIDI
1310TX/1550RX
SMF
Yes
-15
-7
-28
-8
FE-SFP-LX20-SM1550-BIDI
1550TX/1310RX
SMF
Yes
-15
-7
-28
-8
FE-eSFP-LH15-SM1310
1310
SMF
Yes
-15
-8
-28
-8
MINI-GBIC-SX-MM850
850
MMF
No
-9.5
0
-17
0
SFP-MM850
850
MMF
No
-9.5
0
-17
0
GE-SX-MM850
850
MMF
No
-9.5
0
-17
0
GE-eSFP-SX-MM850
850
MMF
Yes
-9.5
-3
-17
0
GE-eSFP-LX-SM1310
1310
SMF
Yes
-9.5
-3
-20
-3
SFP-S4-R1000P1 v1
1310
SMF
Yes
-9.5
-3
-20
-3
MINI-GBIC-LX-SM1310
1310
SMF
No
-9
-3
-19
-3
SFP-SM1310
1310
SMF
No
-9
-3
-19
-3
GE-LX-SM1310
1310
SMF
No
-9
-3
-19
-3
MINI-GBIC-LH40-SM1310
1310
SMF
Yes
-5
0
-23
-3
GE-SFP-SX-SM1310-BIDI
1310
MMF
No
-10
-5
-17
-3
Installation and Reference Guide Mini-GBIC and SFP Modules
GE-SFP-SX-SM1550-BIDI
1550
MMF
No
-10
-5
-17
-3
GE-SFP-LX20-SM1310-BIDI
1310TX/1550RX
SMF
Yes
-9
-3
-20
-3
GE-SFP-LX20-SM1550-BIDI
1550TX/1310RX
SMF
Yes
-9
-3
-20
-3
MINI-GBIC-ZX50-SM1550
1550
SMF
Yes
-5
0
-22
-3
MINI-GBIC-ZX80-SM1550
1550
SMF
Yes
-2
5
-23
-1
MINI-GBIC-ZX100-SM1550
1550
SMF
Yes
0
5
-30
-9
SDH155-SFP-SX-MM850
850
MMF
No
-10
-4
-25
0
SDH155-SFP-SX-MM1310
1310
MMF
No
-20
-14
-30
-14
SDH155-SFP-LH15-SM1310
1310
SMF
No
-15
-8
-28
-8
SDH155-SFP-LH40-SM1310
1310
SMF
No
-5
0
-34
-8
SDH155-SFP-LH80-SM1550
1550
SMF
No
-5
0
-34
-8
Mini-GBIC-GT
NA
RJ45
cable
No
NA
NA
NA
NA
GE-SFP-SX
850
MMF
No
-9.5
-3
-17
0
GE-SFP-ZX
850
MMF
Yes
-9.5
0
-17
0
GE-SFP-ZX V2
1310
SMF
No
-9
-3
-19
-3
GE-SFP-LX
1310
SMF
No
-9.5
-3
-20
-3
GE-SFP-GT
NA
RJ45
cable
No
NA
NA
NA
NA
Based on the specifications of received light intensity, install an attenuator at the link to avoid damage to
the following optical modules when using short optical fibers: FE-SFP-LX20-SM1310-BIDI,
FE-SFP-LX20-SM1550-BIDI, MINI-GBIC-LH40, MINI-GBIC-ZX50-SM1550, MINI-GBIC-ZX80-SM1550,
MINI-GBIC-ZX100-SM1550, SDH155-SFP-LH40-SM1310 and SDH155-SFP-LH80-SM1550
The optical module is a laser device. Please take care of your eyes and do not look into the laser beam
directly.
To keep the optical module clean, please make sure that the dust cap is mounted when it is not connected
to a fiber cable.
The SFP module does not support auto-negotiation to 100Mbps.
Table 1-7 Module Cabling Specifications
SFP Model
Connector
Type
Optical Fiber
Type
Core Specification
(um)
Maximum Cabling
Distance
FE-SFP-LX-MM1310
LC
MMF
62.5/125
2km
Installation and Reference Guide Mini-GBIC and SFP Modules
FE-SFP-LX-MM1310-SGMII
LC
MMF
62.5/125
2km
FE-SFP-LH15-SM1310
LC
SMF
9/125
15km
FE-SFP-LH20-SM1310-SGMII
LC
SMF
9/125
20km
FE-SFP-LX20-SM1310-BIDI
LC
SMF
9/125
20km
FE-SFP-LX20-SM1550-BIDI
LC
SMF
9/125
20km
FE-eSFP-LH15-SM1310
LC
SMF
9/125
15km
MINI-GBIC-SX-MM850
LC
MMF
50/125
500m
SFP-MM850
LC
MMF
50/125
500m
GE-SX-MM850
LC
SMF
50/125
500m
GE-eSFP-SX-MM850
LC
MMF
62.5/125
275m
50/125
550m
GE-eSFP-LX-SM1310
LC
SMF
9/125
10km
SFP-S4-R1000P1 v1
LC
SMF
9/125
10km
MINI-GBIC-LX-SM1310
LC
SMF
9/125
10km
SFP-SM1310
LC
SMF
9/125
10km
GE-LX-SM1310
LC
SMF
9/125
10km
MINI-GBIC-LH40-SM1310
LC
SMF
9/125
40km
GE-SFP-SX-SM1310-BIDI
LC
MMF
50/125
500m
GE-SFP-SX-SM1550-BIDI
LC
MMF
50/125
500m
GE-SFP-LX20-SM1310-BIDI
LC
SMF
9/125
20km
GE-SFP-LX20-SM1550-BIDI
LC
SMF
9/125
20km
MINI-GBIC-ZX50-SM1550
LC
SMF
9/125
50km
MINI-GBIC-ZX80-SM1550
LC
SMF
9/125
80km
MINI-GBIC-ZX100-SM1550
LC
SMF
9/125
100km
SDH155-SFP-SX-MM850
LC
MMF
62.5/125
500m
SDH155-SFP-SX-MM1310
LC
MMF
62.5/125
2km
SDH155-SFP-LH15-SM1310
LC
SMF
9/125
15km
SDH155-SFP-LH40-SM1310
LC
SMF
9/125
40km
SDH155-SFP-LH80-SM1310
LC
SMF
9/125
80km
GE-SFP-SX
LC
MMF
62.5/125
275m
50/125
550m
GE-SFP-LX
LC
SMF
9/125
10km
GE-SFP-ZX
LC
MMF
50/125
500m
GE-SFP-ZX V2
LC
SMF
9/125
10km
MINI-GBIC-GT
RJ45 cable
Standard Cat-5 and above unshielded or
shielded twist pairs
100m
GE-SFP-GT
RJ45 cable
Standard Cat-5 and above unshielded or
shielded twist pairs
100m
Module Specifications
Wavelength
Installation and Reference Guide Mini-GBIC and SFP Modules
Wavelength means the optical wave band for transmission of light signal. Currently, the commonly used XFP optical
modules have three centre wavelengths: 850 nm, 1310 nm and 1550 nm. Usually, the wave band of 850 nm is for
short-distance transmission and the wave bands of 1310 nm and 1550 nm are for long-distance transmission.
Optical Fiber Type
Optical fibers are classified into two types: single-mode and multimode fibers according to the transmission mode of light
in fibers.
A multimodefiber (MMF) has a larger core and transmits light of various modes. But it has a higher modal dispersion. The
modal dispersion grows with the increase of transmission distance. The transmission distance of multimode fibers is
associated with the transmission rate, core diameter, and modal bandwidth.
A single-mode fiber (SMF) has a smaller core and can transmit one mode of light. Therefore, it has a lower modal
dispersion and is applicable to remote communication.
Connector Type
Optical fibers are joined by optical fiber connectors to form fiber jumpers. A fiber jumper is connected to optical modules
through an optical fiber connector, so that the optical channel is detachable for the convenience of debugging and
maintenance of the optical system. Fiber connectors are in many types. The commonly used lucent connectors (LCs) are
shown in Figure 1-5 and Figure1- 6
Figure 1-5 Single-core LC Connector
Figure 1-6 Dual-core LC Connector
DDM
Digital Diagnostic Monitor (DDM) is widely used in optical modules to dynamically measure the temperature, intensity of
transmitted and received light, voltage, and laser bias current of themodule. You can run commands to get the monitoring
result in the host system that supports display of DDM information.
Intensity of Transmitted Light
Intensity of transmitted light refers to the optical output power transmitted from the optical module. The unit is dBm.
Installation and Reference Guide Mini-GBIC and SFP Modules
Intensity of Received Light
Intensity of received light refers to the optical input power received by the optical module. The unit is dBm. If the actual
received light intensity is less than the minimum value, the module may fail in connection or lose many frames. If the
actual received light intensity is greater than the maximum value, the module may be damaged.
Module Installation Precautions
Preparation before Installation
Before installation, electron static discharge (ESD) protection is needed. To avoid damages to the SFP modules and
electronic devices in the equipment caused by the static electricity generated during the installation, please wear the
anti-static wrist strap around the wrist and tighten the lock; make sure that the anti-static wrist strap has a good contact
with the skin and is well grounded.
Wearing jack type anti-static wrist strap, for example, is as shown in Figure 1-7:
Figure 1-7 Schematic Diagram for Wearing Jack Type Anti-static Wrist Strap
Installing the SFP Module
1. Reveal the handle of the SFP module to lock against the snap on top of the module, and pinch the both sides of the
SFP module to push it levelly and slowly into the optical module slot until the optical module firmly connects to the slot
(there would be a click sound if the optical module is correctly connected to the slot), as shown in Figure 1-8:
Figure 1-8 Installing the SFP Optical Module
2. When you connect the SFP module to the optical fiber network, use the optical fiber jumper. Based on the connector
type of the interconnecting ports, choose the jumper with corresponding connectors.
3. After installing the module of the optical fiber jumper, the switch port indicator “LINK/ACT” will be on; otherwise, check
that the optical fiber jumper is correctly connected.
Installation and Reference Guide Mini-GBIC and SFP Modules
4. If the optical fiber jumper is correctly connected, check whether the connected SFPmodules are properly matched.
5. Precautions during installing:
The optical module cannot be inserted inversely. If the optical module cannot be inserted to the end along one
direction, do not forcibly to push it in and please try another direction.
It is recommended that before installing the fiber-optic lines, not remove the protecting rubber on the optical port of
optical modules.
It is recommended not insert the fiber SFP module with optical fiber directly into the slot. Please proceed with the
installation after the optical fiber is pulled out.
In the process of installing the SFP module, please do not directly touch the connecting finger part of the SFP
modules by hand.
Please do not crush, twist, fold fiber or over bend the fiber, otherwise it may lead to reduced system performance or
loss of transmitted data.
BIDI SFP modules must be used in pairs. For instance, If FE-SFP-LX20-SM1310-BIDI is used at one end, and then
FE-SFP-LX20-SM1550-BIDI must be applied to the other end.
Removing the SFP Module
1. Pull out the optical fiber line.
2. Pull the SFP module handle downward to the horizontal position, gently pull the snap, and then pull out the SFP module
smoothly. As shown in the Figure 1-9.
Figure 1-9 Schematic Diagram for Pulling out the SFP Optical Module
Precautions for removing
Please pull out the optical fiber before removing the optical module.
Please do not forcibly pull out the module without pulling down the handle of the optical module first so as not to
cause any damage.
Please put the dust caps on the detached module and device optical ports immediately to avoid dirt.
Installation and Reference Guide 10G XFP Modules
10G XFP Modules
Overview
Ruijie Networks provides the following 10G XFP transceiver modules: 10GBASE-SR-XFP. The 10G XFP transceiver is an
input/output device that supports hot swapping. When installed into the 10G Ethernet XFP port or slot, the 10G XFP
transceiver is responsible for connecting the port and optical fiber network. The appearance of XFP module is shown in
Figure 2-1.
Figure 2-1 XFP Modules
The schematic diagrams are for your reference only. The product appearance is subject to the actual model.
Models and Technical Specifications
Table 2-1 XFP Module Models
Model
Wavelength
(nm)
Optical
Fiber Type
DDM
(Yes/No)
Intensity of
Transmitted
Light/dBm
Intensity of
Received
Light/dBm
Min
Max
Min
Max
10GBASE-SR-XFP
850
MMF
Yes
-5
-1
-7.5
0.5
The optical module is a laser device. Please take care of your eyes and do not look into the laser beam directly.
To keep the optical module clean, please make sure that thedust cap is mounted when it is not connected to a fiber cable.
Table 2-2 Module Cabling Specifications
Model
Connector
Type
Optical
Fiber Type
Core
Specification
(um)
Modal
Bandwidth
(MHz.km)
Maximum
Cabling
Distance
Installation and Reference Guide 10G XFP Modules
10GBASE-SR-XFP
LC
MMF
62.5 /125
200(OM1)
160
33m
22m
50/125
2000(OM3)
500(OM2)
400(OM1)
300m
82m
66m
Module Specifications
Wavelength
Wavelength means the wave band for transmission of light signal. Currently, the commonly used XFP optical modules
have three centre wavelengths: 850 nm, 1310 nm and 1550 nm. Usually, the wave band of 850 nm is for short-distance
transmission and the wave bands of 1310 nm and 1550 nm are for long-distance transmission.
Optical Fiber Type
Optical fibers are classified into two types: single-mode and multimode fibers according to the transmission mode of light
in fibers.
A multimodefiber (MMF) has a larger core and transmits light of various modes. But it has a higher modal dispersion. The
modal dispersion grows with the increase of transmission distance. The transmission distance of multimode fibers is
associated with the transmission rate, core diameter, and modal bandwidth.
A single-mode fiber (SMF) has a smaller core and can transmit one mode of light. Therefore, it has a lower modal
dispersion and is applicable to remote communication.
Connector Type
Optical fibers are joined by optical fiber connectors to form fiber jumpers. A fiber jumper is connected to optical modules
through an optical fiber connector, so that the optical channel is detachable for the convenience of debugging and
maintenance of the optical system. Fiber connectors are in many types. The commonly used lucent connectors (LCs) are
shown in Figure 2-2 and Figure 2-3.
Figure 2-2 Single-core LC Connector
Figure 2-3 Dual-core LC Connector
Installation and Reference Guide 10G XFP Modules
DDM
Digital Diagnostic Monitor (DDM) is widely used in optical modules to dynamically measure the temperature, intensity of
transmitted and received light, voltage, and laser bias current of the module. You can run commands to get the monitoring
result in the host system that supports display of DDM information.
Intensity of Transmitted Light
Intensity of transmitted light refers to the optical output power transmitted from the optical module. The unit is dBm.
Intensity of Received Light
Intensity of received light refers to the optical input power received by the optical module. The unit is dBm. If the actual
received light intensity is less than the minimum value, the module may fail in connection or lose many frames. If the
actual received light intensity is greater than the maximum value, the module may be damaged.
Module Installation Precautions
Preparation before Installation
Before installation, electron static discharge (ESD) protection is needed. To avoid damages to the XFP modules and
electronic devices in the equipment caused by the static electricity generated during the installation, please wear the
anti-static wrist strap around the wrist and tighten the lock; make sure that the anti-static wrist strap has a good contact
with the skin and is well grounded.
Wearing jack type anti-static wrist strap, for example, is as shown in Figure 2-4:
Figure 2-4 Schematic Diagram for Wearing Jack Type Anti-static Wrist Strap
Installation and Reference Guide 10G XFP Modules
Installing the XFP Module
1. Reveal the handle of the XFP module to lock against the snap on top of the module, and pinch the both sides of the
XFP module to push it levelly and slowly into the optical module slot until the optical module firmly connects to the slot
(there would be a click sound if the optical module is correctly connected to the slot), as shown in Figure 2-5:
Figure 2-5 Installing the XFP Optical Module
2 When you connect the XFP module to the optical fiber network, use the optical fiber jumper. Based on the connector
type of the interconnecting ports, choose the jumper with corresponding connectors.
3. After installing the module of the optical fiber jumper, the switch port indicator “LINK/ACT” will be on; otherwise, check
that the optical fiber jumper is correctly connected.
4. Precautions during installing:
The optical module cannot be inserted inversely. If the optical module cannot be inserted to the end along one
direction, do not forcibly push it in and please try another direction.
It is recommended that before installing the fiber-optic lines, not remove the protecting rubber on the optical port of
optical modules.
It is recommended not insert the fiber XFP module with optical fiber directly into the slot. Please proceed with the
installation after the optical fiber is pulled out.
In the process of installing the XFP module, please do not directly touch the connecting finger part of the XFP
modules by hand.
Please do not crush, twist, fold fiber or over bend the fiber, otherwise it may lead to reduced system performance or
loss of transmitted data.
Removing the XFP Module
1. Pull out the optical fiber line.
2. Pull the XFP module handle downward to the horizontal position, gently pull the snap, and then pull out the XFP module
smoothly. As shown in the Figure 2-6.
Figure 2-6 Schematic Diagram for Pulling out the XFP Optical Module
Installation and Reference Guide 10G XFP Modules
Precautions for removing
Please pull out the optical fiber before removing the optical module.
Please do not forcibly pull out the module without pulling down the handle of the optical module first so as not to
cause any damage.
Please put the dust caps on the detached module and device optical ports immediately to avoid dirt.
Installation and Reference Guide 10G SFP+ Modules
10G SFP+ Modules
Overview
The 10G SFP+ transceiver module of Ruijie Networks is composed of an SFP+ optical module, an SFP+ copper cable
module or an SFP+ AOC cable, as shown in Figure 3-1 and Figure 3-2. The XG-SFP-SR-MM850, XG-SFP-LR-SM1310,
XG-SFP-ER-SM1550 and XG-SFP-ZR-SM1550 are optical modules. The XG-SFP-CU1/3/5M are passive copper cable
modules. The XG-SFP-AOC1/3/5/10/20M are active copper cable modules. XG-SFP-SR-MM850-I and
XG-SFP-LR-SM131-I are industrial-specific optical modules. The 10G SFP+ transceiver is an input/output device that
supports hot swapping.When connected to a 10G SFP+ Ethernet port or slot through the optical fiber or copper cable, the
10G SFP+ transceiver implements 10G Ethernet transmission.
Figure 3-1 SFP+ Optical Module
Figure 3-2 SFP+ Copper Cable Module
Figure 3-3 SFP+ AOC Cable Module
Installation and Reference Guide 10G SFP+ Modules
The schematic diagrams are for your reference only. The product appearance is subject to the actual model.
Models and Technical Specifications
Table 3-1 SFP+ Optical Module
Model
Wavelength
(nm)
DDM
(Yes/No)
Optical
Fiber
Type
Intensity of
Transmitted
Light/dBm
Intensity of Received
Light/dBm
Min
Max
Min
Max
XG-SFP-SR-MM850
850
Yes
MMF
-7.3
-1
-9.9
-1
XG-SFP-SR-MM850-I
850
Yes
MMF
-7.3
-1
-9.9
-1
XG-SFP-ZR V1
850
Yes
MMF
-7.3
-1
-9.9
-1
XG-SR-MM850
850
Yes
MMF
-7.3
-1
-9.9
-1
SFP+MM850
850
Yes
MMF
-7.3
-1
-9.9
-1
SFP-M3-R1000P1
850
Yes
MMF
-7.3
-1
-9.9
-1
XG-SFP-LR-SM1270-BIDI
1270
No
SMF
-6.5
0.5
-14.4
0.5
XG-SFP-LR-SM1330-BIDI
1330
No
SMF
-6.5
0.5
-14.4
0.5
XG-LR-SM1310
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
XG-SFP-LR-SM1310
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
SFP+SM1310
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
XG-SFP-LR-SM1310-I
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
SFP-S1-R1000P1
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
SFP-S4-R1000P1 v2
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
XG-SFP-ER-SM1550
1550
Yes
SMF
-4.7
4
-11.3
-1
XG-SFP-ZR-SM1550
1550
Yes
SMF
0
4
-24
-7
XS-SFP-SR
850
Yes
MMF
-7.3
-1
-9.9
-1
XS-SFP-LR
1310
Yes
SMF
-8.2
0.5
-14.4
0.5
Installation and Reference Guide 10G SFP+ Modules
Do not use short-distance optical fiber connection for the XG-SFP-ER-SM1550 and XG-SFP-ZR-SM1550
to avoid overloading on the optical transceiver. If the optical power of the module receiver end is greater than or
equal to -1 dBm, install an attenuator at the receiver end so that the optical power can be less than -1 dBm.
The optical module is a laser device. Please take care of your eyes and do not look into the laser beam
directly.
To keep the optical module clean, please make sure that the dust cap is mounted when it is not connected
to a fiber cable.
The 10G SFP+ optical module does not support auto-negotiation to 1000Mbps.
Table 3-2 10G SFP+ Module Cabling Specifications
Model
Connect
or Type
Optical
Fiber
Type
Core
Specification
(um)
Modal Bandwidth
(MHz.km)
Maximum
Cabling Distance
XG-SFP-SR-MM850
LC
MMF
50/125
2000(OM3)
300m
XG-SFP-SR-MM850-I
LC
MMF
50/125
2000(OM3)
300m
XG-SFP-ZR V1
LC
MMF
50/125
2000(OM3)
300m
XG-SR-MM850
LC
MMF
50/125
2000(OM3)
300m
SFP+MM850
LC
MMF
50/125
2000(OM3)
300m
SFP-M3-R1000P1
LC
MMF
50/125
2000(OM3)
300m
XG-SFP-LR-SM1270-BIDI
LC
SMF
9/125
N/A
10km
XG-SFP-LR-SM1330-BIDI
LC
SMF
9/125
N/A
10km
XG-SFP-LR-SM1310
LC
SMF
9/125
N/A
10km
SFP+SM1310
LC
SMF
9/125
N/A
10km
XG-SFP-LR-SM1310-I
LC
SMF
9/125
N/A
10km
SFP-S1-R1000P1
LC
SMF
9/125
N/A
10km
SFP-S4-R1000P1 v2
LC
SMF
9/125
N/A
10km
XG-SFP-ER-SM1550
LC
SMF
9/125
N/A
40km
XG-SFP-ZR-SM1550
LC
SMF
9/125
N/A
80km
XS-SFP-SR
LC
MMF
62.5/125
200(OM1)
160
33m
26m
50/125
2000(OM3)
500(OM2)
400(OM1)
300m
82m
66m
XS-SFP-LR
LC
SMF
9/125
N/A
10km
Table 3-3 10G SFP+ Copper Module Model
This manual suits for next models
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