Ruijie RG-WALL1600-X9300 Installation and operating manual
RG-WALL1600-X9300 Next-Generation Firewall
Hardware Installation and Reference Guide V1.3
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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: https://www.ruijienetworks.com/
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Technical Support Email: service_rj@ruijienetworks.com
Skype: [email protected]
Related Documents
Documents
Description
Cook Book
Describes the various network protocols and their implementation principles
for the device with the detailed configuration 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.
1 Product Introduction
RG-WALL 1600-X9300 is a compact network security device independently developed by Ruijie Networks, and can
function as a high-performance next-generation firewall to ensure security of data centers and enterprise networks.
RG-WALL 1600-X9300 is capable of providing a firewall throughput up to 80 Gbit/s, 11 Gbit/s next-generation anti-threat
performance, control on more than 3,000 applications. It supports a minimum delay of 3 milliseconds, provides a powerful
security protection capability, and meets design requirements for both services and performance.
RG-WALL 1600-X9300 supports redundant backup for power supplies.
1.1 RG-WALL1600-X9300
Specifications
Model
RG-WALL1600-X9300
Management Port
Redundancy
Supported
Power Redundancy
Supported
Operating
temperature
0°C to 40°C
Storage
Temperature
-35°C to 70°C
Operating Humidity
20% to 90% RH (non-condensing)
Weight
Net weight: about 14.7kg
Dimensions
(L x W x H)
554mm x 438mm x 89mm, 2RU
AC Power
100 VAC to 240 VAC, 47-63 Hz
Maximum Current
110V/ 8A, 220V/ 4A
Power Consumption
(Average/Max)
338 W/406 W
Heat Dissipation
1,385 BTU/h
The RG-WALL1600-X9300 is an A-class product and may cause radio disturbance to surroundings. In this case,
users are advised to take proper measures against the disturbance.
Product Appearance
The RG-WALL1600-X9300’s hardware system is composed of the chassis, the power system, system module and the
cooling system.
The power system provides two power supply slots and supports 1+1 power redundancy. Users are recommended
to configure power redundancy.
The system module is fixed inside the chassis with data ports on the front panel, including one USB MGMT port, one
Console port, one redundant USB port, two GE RJ45 management ports, 16 GE SFP ports, 16 GE RJ45 ports and
eight Gigabit SPF ports.
The cooling system is composed of the fan tray and air filter at the back of the chassis.
Figure 1-1 Appearance of the RG-WALL1600-X9300
Front and Back Panels
The RG-WALL1600-X9300's front and back panels are shown in Figure 1-2. See the description for the detailed parts
specified by the numbers in the figure.
Figure 1-2 Front and Back Panels of the RG-WALL1600-X9300
Port
Type
Description
1
USB MGMT
USB-miniB
USB port
2
Console
RJ-45
It is connected to the PC so that you can manage the firewall
through CLI.
3
USB
USB-A
Redundant USB port
4
MGMT
1 & 2
RJ-45
It is applied to Web management on PC. The default IP
address of MGMT interface1 is 192.168.1.200.
5
POWER
Power: 100-240V AC, 8-4A, 50/60Hz
6
SFP Port
1-16
SFP
Gigabit fiber port. It is connected to an SFP transceiver.
7
Ethernet Port
17-32
RJ-45
Gigabit Ethernet switching port
8
SFP+ Port
33-40
SFP+
Gigabit fiber port. It is connected to an SFP+ transceiver.
2 Preparation Before Installation
2.1 Safety Suggestions
To avoid body injury and equipment damage, please carefully read the safety suggestions before you install
RG-WALL1600-X9300.
The following safety suggestions do not cover all possible dangers.
2.1.1 Safety Precautions for Installing the System
Keep the chassis clean, free from any dust.
Do not place the equipment in a walking area.
Do not wear loose clothes or any other things that may be caught by the chassis during installation and
maintenance.
2.1.2 Safety Precautions for Removal
When you handle them, please pay attention to the following requirements:
Avoid moving the equipment frequently.
Turn off all power supplies and unplug all power cables before you remove the equipment.
At least two people are needed to move the equipment. Do not attempt to move the equipment by one people only.
Keep balance when moving the equipment, and avoid injuring your leg and feet or spraining your waist.
The device must be installed and used in the restricted access location.
2.1.3 Electrical Safety
Please observe local regulations and specifications when performing electrical operations. Relevant operators must
be qualified.
Please carefully check for any potential danger in the working area, for example, ungrounded power supply,
unreliable grounding of the power supply and damp/wet ground or floor.
Find out the location of the emergency power supply switch in the room before installation. First cut off the power
supply in case of an accident.
Be sure to make a careful check before you shut down the power supply.
Do not place the equipment in a damp/wet location. Do not let any liquid enter the chassis
Any nonstandard and inaccurate electrical operation can cause an accident such as fire or electrical attack, thus
causing severe even fatal damages to human bodies and equipment.
Direct or indirect touch through a wet object on high-voltage and mains supply can bring a fatal danger.
2.1.4 Static Discharge Damage Prevention
Although much has been done in RG-WALL1600-X9300 to prevent static electricity, great damage may be caused to the
circuitry and equipment when the static electricity exceeds a certain limit. In the communication network of the
RG-WALL1600-X9300, electrostatic induction may come from the following sources: External electric field produced by
the high-voltage supply cable, lightning, etc; Internal systems such as the indoor floor and the entire structure.
To prevent damage from static electricity, you must pay attention to the following:
Properly ground the equipment.
Take dust prevention measures in the room.
Maintain an appropriate humidity.
Always wear an anti-static wrist strap when you touch any circuit board.
Try to hold a circuit board by its edges. Do not touch any components or the PCB.
Use an anti-static shielding bag to properly store the board.
Do not let any clothes touch a circuit board. An antistatic wrist strap can only prevent human static electricity from
damaging the circuit board, but cannot prevent any static electricity on clothes.
For safety, use a multimeter to measure the resistance between yourself and the ground, which should be within the
range from 1 Ωto 10 Ω.
Make sure that the device is properly grounded when the anti-static wrist strap is connected to the ground through
the chassis jack.
2.1.5 Laser Safety
Among the modules supported by RG-WALL1600-X9300, there are a great number of optical modules that are Class I
laser products.
Precautions:
When a fiber transceiver works, ensure that the port has been connected with a fiber or is covered with a dust cap so
as to keep out dust and avoid burning your eyes.
Do not stare into any fiber port.
Do not stare into any fiber port under any circumstances, as this may cause permanent damage to your eyes.
2.2 Installation Site Requirements
RG-WALL1600-X9300 must be used in the room. To ensure normal operation and a prolonged use life of the equipment,
the installation site must meet the following requirements.
2.2.1 Rack Mounting Requirements
To mount the RG-WALL1600-X9300 in a cabinet, verify that the cabinet meets the following conditions:
Install the device in an open cabinet as much as possible. If you install the device inside a closed cabinet, be sure
that the cabinet has a good ventilation and heat dissipation system.
Be sure that the cabinet is firm enough to bear the weight of the RG-WALL1600-X9300 and its installation
accessories.
Be sure that the dimensions of the cabinet is appropriate for installation of the RG-WALL1600-X9300 that can
reserve a certain space for the front, back, left and right panels for heat dissipation.
The cabinet should be properly grounded.
2.2.2 Ventilation Requirements
Figure 2-1 shows the ventilation requirements of the RG-WALL1600-X9300. Keep the device Allow at least 3.8 cm of
clearance around the ventilation openings. After connecting various cables, you should bundle the cables or place them in
the cabling rack to avoid blocking air inlets.
Figure 2-1 RG-WALL1600-X9300 ventilation
2.2.3 Temperature and Humidity Requirements
To ensure the normal operation and a prolonged use life of the RG-WALL1600-X9300, you must maintain an appropriate
temperature and humidity in the equipment room. Too high or low temperature and humidity for a long period of time may
damage the equipment.
In an environment with high relative humidity, the insulating material may have bad insulation or even leak electricity,
and sometimes the materials may suffer from mechanical performance change and metallic parts may get rusted.
On the other hand, in an environment with low relative humidity, the insulating strip may dry and shrink, and static
electricity may occur easily and endanger the circuit on the equipment.
In an environment with high temperature, the equipment is subjected to even greater harm, as its performance may
degrade significantly and its useful life may be shortened in the case of long-term exposure that expedites the aging
process.
Temperature and humidity requirements of the RG-WALL1600-X9300
Temperature
Relative Humidity
0ºC–40ºC
20%–90%
The ambient temperature and humidity are measured at the point that is 1.5m above the floor and 0.4m before the
equipment when there is no protective plate in front or back of the equipment rack.
2.2.4 Cleanness Requirements
Dust poses the top threat to the running of the equipment. The indoor dust falling on the equipment may be adhered by
the static electricity, causing bad contact of the metallic joint. Such electrostatic adherence may occur more easily when
the relative humidity is low, not only affecting the use life of the equipment, but also causing communication faults. The
following table shows the requirements for the dust content and granularity in the equipment room.
Diameter (μm)
0.5
1
3
5
Concentration
(particles/m3)
1.4 x 10
7 x 10
2.4 x 10
1.3 x 10
The air filter of the RG-WALL1600-X9300 must be cleaned at interval to ensure good ventilation and dust prevention.
Apart from dust, the salt, acid and sulfide in the air in the equipment room must also meet strict requirements; as such
poisonous substances may accelerate the corrosion of the metal and the aging of some parts. The equipment room
should be protected from the intrusion of harmful gases (for example, SO2, H2S, NO2, NH₃and Cl2), whose requirements
are listed in the following table.
Gas
Average (mg/m3)
Maximum (mg/m3)
SO2
0.2
1.5
H2S
0.006
0.03
NO2
0.04
0.15
NH₃
0.05
0.15
Cl2
0.01
0.3
2.2.5 Power Requirements
When the RG-WALL1600-X9300 uses the AC power supply:
AC input voltage: 100-240 VAC, 47/63 Hz
2.2.6 System Grounding Requirements
A good grounding system is the basis for the stable and reliable operation of the RG-WALL1600-X9300. It is the key to
prevent lightning stroke and resist interference. Please carefully check the grounding conditions on the installation site
according to the grounding requirements, and perform grounding properly as needed.
Safety Grounding
The equipment using AC power supply must be grounded by using the yellow/green safety grounding cable. Otherwise,
when the insulating resistance decreases the power supply and the enclosure in the equipment, electric shock may occur.
The building installation shall provide a means for connection to protective earth, and the equipment is to be
connected to that means.
Lightning Grounding
The lightning protection system of the facility is a separate system that consists of the lightning rod, down lead conductor
and the connector to the grounding system, which usually shares the power reference ground and yellow/green safety
cable ground. The lightning discharge ground is for the facility only, irrelevant to the equipment.
2.2.7 EMI Consideration
Various interference sources, from either outside or inside the equipment or application system, affect the system in the
conductive ways such as capacitive coupling, inductive coupling, and electromagnetic radiation. There are two types of
electromagnetic interferences: radiated interference and conducted interference, depending on the type of the
propagation path. When the energy, often RF energy, from a component arrives at a sensitive component via the space,
the energy is known as radiated interference. The interference source can be both a part of the interfered system and a
completely electrically isolated unit. Conducted interference results from the electromagnetic wire or signal cable
connection between the source and the sensitive component, along the cable the interference conducts from one unit to
another. Conducted interference often affects the power supply of the equipment, but can be controlled by a filter.
Radiated interference may affect any signal path in the equipment, and is difficult to shield.
Effective measures should be taken for the power system to prevent the interference from the electric grid.
The working ground of the device should be properly separated and kept as far as possible from the grounding
device of the power equipment or the anti-lightning grounding device.
Keep the equipment away from high-power radio transmitter, radar transmitting station, and high-frequency
large-current device.
Measures must be taken to isolate static electricity.
2.3 Precaution for Fiber Connection
Before connecting the fibers, you should ensure that the type of optical connector and the type of fibers match the type of
the fiber port used. Moreover, you should pay attention to the Tx and Rx directions of the fiber. The Tx end of this
equipment should be connected to the Rx end of the peer equipment, and the Rx end of this equipment to the Tx end of
the peer equipment.
2.4 Installation Tool
Common tools
Cross screwdriver, straight screwdriver, related electric and optical cables
Bolts, diagonal pliers, straps
Special-purpose tools
Anti-static tool, anti-static glove, stripping pliers, crimping pliers, crimping pliers for the
crystal head, wire cutter
Fiber optic cleaning tools
Air-laid paper, fiber end microscope
Meter
Multimeter, Errormeter, Optic-power meter
RG-WALL1600-X9300 is not shipped with a tool kit. The tool kit is customer-supplied.
2.5 Unpacking Requirements
Goods Checklist
Installation Kit
Two mounting brackets, modules, USB cables, Ethernet cables, two power cables, Console cables,
12 screws, six rubber pads, two SFP+ transceivers, packing list and optical disk containing tools
and documents.
A normal delivery should contain the above mentioned items, which may differ from the actual delivery, depending
on purchase contracts. Please check your goods carefully against the packing list or purchase contract. If you have
any questions or there are any errors, please contact your distributor.
3 Product Installation
RG-WALL1600-X9300 must be used and fixed in the room.
Make sure you have carefully read part 2 and this part, and be sure that the requirements set forth in part 2 have
been met.
3.1 Installation Procedure
3.2 Installation Verification
The RG-WALL1600-X9300 is complicated equipment, so you must carefully plan and arrange the installation location,
networking mode, power supply, and wiring before installation. Verify the following before installation:
The installation location is of a good air flow.
The installation location meets the temperature and humidity requirements of the equipment.
The qualified power supply is available at the installation location.
The related network cables have already been deployed at the installation location.
The selected power supply meets the system power.
3.3 Cabinet Installation
Precautions
When you install the cabinet, pay attention to the following:
All expansion bolts for fastening the cabinet base to the ground should be installed and tightened in sequence from
bottom up (large plain washer, spring washer, and nut), and the installation holes on the base and the expansion
bolts should be well aligned.
After the cabinet is installed, it should be stable and still.
After the cabinet is installed, it should be vertical to the ground.
When multiple cabinets are put side by side in the room, they should be aligned in a straight line, with an error less
than 5 mm.
The front/back doors of the cabinet should be properly installed. You can open and close them smoothly. The locks
should work normally, and all keys should be complete.
There should be no unnecessary formal labels inside the cabinet and on various boards.
Blank panels should be installed completely.
Fastening screws of various devices in the cabinet of the same model should be ready and tightened.
Various boards of the equipment should be installed securely, and the fastening screws on the panel should be
tightened.
All wiring inlets at the top and bottom of the cabinet should be installed with rodent-resistant nets where the seams
should be no more than 1.5 cm in diameter, to prevent rodents and other small animals from entering the cabinet.
Antistatic wrist straps should be provided in the cabinet.
Installation Steps
1) Plan the available space before installing the cabinet. You must reserve sufficient space for front and back doors for
maintenance.
2) Mount and fasten the cabinet at the designed location as planned.
3) Install the appropriate cable management bracket and cables.
4) Install the tray and wiring layer on the rack according to the configuration of one rack with one cabinet installed or
one rack with multiple cabinets installed.
Guide Rails Installation
Before installing a guide rail, you need to have some knowledge of standard 19-inch cabinets of IEC60297. The height of
standard cabinets is measured in Rack Unit (RU, 1 RU = 44.45 mm (1.75 inch)). 1 RU is equal to the height of three holes
(see Figure 3-1). The hole in the middle is an auxiliary installation hole, and the other holes are standard installation holes.
Note that the space between neighboring standard installation holes is a little smaller than that between an auxiliary
installation hole and its neighboring standard installation hole. When installing a guide rail for the RG-WALL1600-X9300
series, ensure that the plane to carry the chassis should be installed on the plane of delimiters (entire-U delimiter) of the
two neighboring RUs, as shown in Figure 3-1.
Figure 3-1 Guide Rail
Note:
1 and 2 representing 1 RU delimiters
Before installing a guide rail, confirm that the weight capacity of the guide rail meets requirements.
Considering a variety of guide rails, guide rail appearance and installation methods depend on the actual situation.
The RG-WALL1600-X9300 is heavy. To ensure cabinet stability: install the guide rail to as low a position as possible
in the cabinet if one RG-WALL1600-X9300 is installed; install heavier devices in the lower part of the cabinet if
multiple devices are installed.
3.4 Mounting into the Cabinet
Precautions
Before mounting RG-WALL1600-X9300 into the cabinet, first verify that the front and back brackets of the cabinet are at
the right locations. If the bracket is too far forward, the front panel of the equipment may be too close to the front door, so
that the front door cannot be closed when network cables and pigtail fibers are connected. Allow at least 10 mm of
distance between the front panel of the equipment and that of the cabinet after installation. Before mounting into a cabinet,
you need to address the following conditions:
Fasten the cabinet.
Insert various modules in the frame properly.
Remove any obstacle in the frame and the surrounding environment.
Prepare the equipment and move it to the place near the cabinet where you can handle it easily.
Simple Installation Steps
1) Levelly lift the RG-WALL1600-X9300 by two people on both sides, and slowly move it to the front of the cabinet.
2) Levelly lift the RG-WALL1600-X9300 to a position slightly higher than the tray or the slide rail of the cabinet, put the
equipment onto the tray or the slide rail, and push it into the cabinet.
3) Fasten the RG-WALL1600-X9300 onto the cabinet with screws. There are fastening notches on both the sides of the
front panel on the equipment frame. Use screws to fasten them to the fastening bracket of the cabinet. After fastened,
the equipment should be stable and still in the cabinet.
3.5 Connecting the AC Power Supply to the Power Module
Connect AC power cables according to the ID and position instruction on the AC power module.
Precautions
Before connecting the power supply, you must verify that the external power supply matches the power module
installed with this equipment.
Before connecting the power cable, be sure that the switch of the power module is at the OFF position.
The 16A power cable with a standard 3-pin connector should be used for connection.
After connecting the power cable, correctly lock the strip-protection button onto the power cable.
Be sure that the power cables connected are in good contact.
Simple Connection Steps
1) Insert the plug of the power cable into the power module.
2) Connect the other end of the power cable to the corresponding socket or connector.
When installing the unit, use 3-pin power supply cord. The cross-sectional area of each pin is 1.5mm2or 14AWG
minimum.
3.6 Connecting the External Port Cables
Precautions
Correctly distinguish single-mode and multi-mode fibers and ports.
Avoid bends of small radius at the connector.
Simple Connection Steps
1) Connect one end of the RJ45 connector for configuring Ethernet cables to the Ethernet port of the device board and
the other end to the NMS or a control terminal; or connect one end of the standard RJ45 serial port cable to the serial
port of the device board and the other end to the NMS or a control terminal.
2) Insert the single-mode or multi-mode fiber into the appropriate port according to the identification on the panel of the
linecard. Distinguish the Rx/Tx end of the fiber.
3) Insert the twisted pair with the RJ45 port into the appropriate port according to the identification on the panel of the
linecard. Distinguish the crossover cable and straight-through cable.
4) Connect the cables and fibers of each board in sequence.
3.7 Binding the Cables
Precautions
The power cables and other cables should be bound in a visually pleasing way.
When you bind fibers, be sure that the fibers at the connectors have natural bends or bends of large radius.
Do not bind fibers and twisted pairs too tightly, as this may press hard the fibers and affect their useful life and
transmission performance.
Simple Binding Steps
1) Bind the drooping part of the fibers and twisted pairs of each board, and lead them to both sides of the chassis for
convenience.
2) On the both sides of the chassis, fasten the fibers and twisted pairs to the cable management bracket.
3) For the power cables, you should bind them closely along the bottom of the chassis, in a straight line wherever
possible.
3.8 Installation Verification
Verifying the Cabinet
Verify if the external power supply matches the distribution panel of the cabinet.
After installing the equipment, verify if the front/back cabinet doors can be closed.
Verify that the cabinet has been fastened completely, and does not move or tilt.
Verify that the equipment has been installed in the cabinet, and all the cables have been fastened to the cabinet.
Verifying the Cables
Verify that the fibers and twisted pairs match the ports.
Verify that the cables have been bound properly.
Verifying the Power Supply
Verify that the power cables are in good contact and comply with the safety requirements.
Verify that the power module has been fastened onto the equipment with the two captive screws on the panel.
Turn on the power switch and verify that the power module can work normally.
3.9 Installing Swappable Modules (Optional)
Installing SFP+/SFP Module
To avoid damaging components due to operation errors, read this section carefully before installing SFP+/SFP
module.
Preparation
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Take out the SFP+/SFP module you want to install from packing bag. Do not touch the connecting finger on the
module.
3) Turn up the handle of the module into the top bail-clasp latch. Hold both sides of the module and push the module
into place (You can feel that the module is placed in position with a click sound).
To install SFP+/SFP module, take the following steps:
1) Keep the device stable.
2) Remove the dust cap from the SFP slot.
3) Make sure the SFP module is installed properly.
Make sure the SFP module is inserted into the slot in the correct direction until it hits the internal stop and is locked in
place.
Figure 3-2
4) Verify the SFP module is locked in place with the thumb.
5) Pull the SFP module out without rotating the handle outwards. If the SFP module cannot be removed, it is locked in
place. If the SFP module is removed, insert it again and push it to the internal stop.
Do not remove the rubber cap from SFP+/SFP module before connecting fibers.
Do not insert the SFP+/SFP module with a fiber into a slot. Unplug the fiber before installing the module.
Installing SFP+ Cables
Use an SFP+ cable to connect two SFP+ ports. Take the following steps to install the SFP+ module:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Take out the SFP+ module you want to install from the packing bag.
3) Plug the SFP+ cable to the SFP+ port through the connector. Pay attention to the proper direction for connection.
During the operation, make sure that the cable’s bending radius is no less than eight times as much as its diameter.
Installing and Removing 40-Gigabit QSFP+ Module
The 40G QSFP+ module is hot-swappable input/output device that plugs into a 40-Gigabit Ethernet QSFP+ port through
fiber or copper cables.
To avoid damaging components due to operation errors, read this section carefully before installing 40G QSFP+
modules.
Take the following steps to install a 40-Gigabit QSFP+ module:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Push the module gently into the QSFP+ module slot until you hear a click, indicating the module is correctly installed.
Take the following step to remove a 40-Gigabit QSFP+ module:
1) Grasp the tab to gently pull to release the module from the socket.
Installing and Removing 40-Gigabit QSPF+ Copper Module
Take the following steps to install a 40-Gigabit QSPF+ copper module:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Hold the connector of a copper module with one hand and carry the cable to the front panel of the firewall with the
other. Push the module gently into the QSFP+ module slot until you hear a click, indicating the module is correctly
installed.
Take the following step to remove a 40-Gigabit QSFP+ copper module:
1) Grasp the tab to gently pull to release the module from the socket.
3.10 Replacing Swappable Modules (Optional)
Replace a swappable module in any of the following circumstances:
The module is faulty.
The module must be replaced based on networking requirements.
Make sure the optical modules connected to both ends of a fiber are the same type while replacing swappable
optical modules.
Replacing SFP+/SFP Module
Take the following steps to replace SFP+/SFP modules:
1) Wear an anti-static wrist trap close to your skin and have it properly grounded.
2) Pull out optical fibers from SFP+/SFP module.
3) Push down the handle of the module you want to remove and keep it horizontal.
4) Hold the handle and slowly pull out the module.
5) Insert a rubber cap into the module and place the module in a packing bag.
Do not stare into the fiber during the operation to avoid eye injury.
Do not touch the edge connector while removing an SFP+/SFP module.
Replacing SFP+ Cables
Take the following steps to replace an SFP+ cable:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Gently push the connector of an SFP+ cable with your finger. And then pull out horizontally the handle on the end of
the connector so as to unplug the connector from the SFP+ port on the firewall.
During the operation, make sure that the cable’s bending radius is no less than eight times as much as its diameter.
Do not push or pull too strongly. If replacement or installation fails, please check if the operation is correct.
Replacing 40-Gigabit QSFP+ Module
Take the following steps to replace a 40-Gigabit QSFP+ module:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Pull out optical fibers from a 40-Gigabit QSFP+ module.
3) Push down the handle of the module you want to remove and keep it horizontal.
4) Hold the handle and slowly pull out the module.
5) Insert a rubber cap into the module and place the module in a packing bag.
Do not stare into the fiber during the operation to avoid eye injury.
Do not touch the edge connector while replacing a 40-Gigabit QSFP+ module.
Replacing 40-Gigabit QSFP+ Copper Module
Take the following steps to replace a 40-Gigabit QSFP+ copper module:
1) Wear an anti-static wrist strap to your wrist. Make sure it is properly grounded.
2) Hold the cable with one hand and grasp the tab to gently pull to release the module from the socket.
Pull the tab out before unplugging the cables. Otherwise, the module or the slot can be damaged.
Immediately install the dust plug to the module port and the switch fiber port. And do not touch the edge connector or
the switch fiber port.
4 System Debugging
4.1 Establishing the Configuration Environment
The user name and password are admin and firewall respectively.
Establishing the Configuration Environment
Connect the PC to the console port of the device through the Console cable.
Connecting the Console Cable
1) Connect one end of the DB-9 serial connector of the console cable to the serial port of the PC.
2) Connect one end of the Console cable to the Console port of the device.
Setting Terminal Parameters
Start the PC and run the terminal simulation program on the PC, such as Terminal on Windows 3.1 or HyperTerminal
on Windows 95/98/NT/2000/XP.
Set terminal parameters. The parameters are as follows: baud rate 9600, data bit 8, parity check none, stop bit 1,
and flow control as none. Details are as follows:
1) Choose Start > Programs > Accessories > Communications > Hyperterminal. The hyperterminal window
appears.
2) Click Cancel. A window appears as shown in Figure 4-1.
Figure 4-1
3) In the Connectivity Note window, type the name of the new connection and click OK. A window appears as shown in
Figure 4-2. In the Connect Using field, select the serial port you want to use.
Figure 4-2
4) After selecting the serial port, click OK. The Serial Port Parameter Setting window is displayed, as shown in Figure
4-3. Set the baud rate to 9600, data bit to 8, parity check to none, stop bit to 1, and no flow control.
Figure 4-3
5) After setting the serial port parameters, click OK.
Now many PCs do not have Console ports and systems do not support hyperterminals. Therefore, Console-to-USB
cables and terminal emulators (e.g., SecureCRT) are needed.
Parameter Settings
Step 1. Connect both ends of the Console-to-USB cable to the Console port of the device and the USB port of the PC
properly.
Step 2. Right click My Computer and click Management. Choose Device Manager >Port (COM and LPT),and the
COM port number will be displayed.
Step 3. Set terminal parameters. The parameters are as follows: baud rate 9600, data bit 8, parity check none, stop bit 1,
and no flow control.
1) Choose File > Connect,click New Session in the displayed list, and select Serial in the Protocol dropdown list.
Click Next, and the following interface will be displayed.
Figure 4-5
2) Click Next, and the following interface will be displayed.
Figure 4-6
3) After configuring the parameters, click Next, and you can configure the session name. Click OK, and the following
interface will be displayed.
Figure 4-7
4) Click Finish, and the following interface will be displayed.
Figure 4-8
4.2 Power-on Startup
Checking Before Power-on
The device is properly grounded.
The power cable is correctly connected.
The power supply voltage complies with the requirement of the device.
The console cable is correctly connected; the terminal (can be a PC) used for configuration is already started; the
parameters are already configured.
Checking After Power-on (Recommended)
After power-on, you are recommended to perform the following checks to ensure the normal operation of follow-up
configurations.
Check that information appears on the terminal.
Check that the device indicator is normal.
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