QTech QSW-8200-28T-AC, QSW-8200-52T-AC, QSW-8200-28T-AC-DC, QSW-8200-28T-POEAC-DC, QSW-8200-28F-AC-DC User Manual

USER MANUAL

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Content

CHAPTER 1 INTRODUCTION 4

1.1 Overview 4

1.2 Introduction to Product 5

1.2.1 Product Overview 5

1.2.2 Features and Benefits 5

1.3 Physical Specifications 6

1.4 Description of Hardware 8

1.4.1 Front Panel 8

1.4.2 Back Panel 9

1.4.3 DC Power/PoE Power Input 11

1.4.4 Status LEDs 12

1.4.5 Front Panel Interface Description 15

1.4.6 QSW-2SFP+ / QSW-2GB Extended Module Description 16

CHAPTER 2 HARDWARE INSTALLATION 19

2.1 Installation Notice 19

2.1.1 Environmental Requirements 19

2.1.1.1 Dust and Particles 19

2.1.1.2 Temperature and Humidity 20

2.1.1.3 Power Supply 21

2.1.1.4 Preventing Electrostatic Discharge Damage 21

2.1.1.5 Anti-interference 21

2.1.1.6 Rack Configuration 22

2.1.2 Installation Notice 22

2.1.3 Security Warnings 22

2.2 Installation Preparation 23

2.2.1 Verify the Package Contents 23

2.2.2 Required Tools and Utilities 23

2.3 Installation Guide 24

2.3.1 Installing the Switch 24

2.3.2 Connecting Console 25

2.3.3 SFP Transceiver Installation 26

2.3.4 QSW-2SFP+ extended module Installation 26

2.3.5 QSW-2GB Extended module Installation 26

2.3.6 Copper Cable/Fiber Cable Connection 27

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2.3.7 AC Power Supply Connection 28

2.3.8 DC Power Supply Connection 28

2.3.9 PoE Power Supply Connection 29

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Chapter 1 INTRODUCTION

1.1 Overview

QSW-8200 series switches are ethernet switch. QSW-8200 series switches are intelligent
network management switch used by the network environment which needs the high
performance, the bigger port density and the convenient installation.

QSW-8200 series switches include the type are as follows:

Name

Type

Description

QSW-8200
series

QSW-8200-52T-AC

44 copper ports＋4 Combo ports＋2
10Gb extended ports

QSW-8200-52T-AC-DC

44 copper ports＋4 Combo ports＋2
10Gb extended cards ＋DC power

QSW-8200-52T-POE­AC-DC

44 copper ports＋4 Combo ports＋2
10Gb extended cards ＋PoE

QSW-8200-28T-AC

20 copper ports＋4 Combo ports＋2
10Gb extended cards

QSW-8200-28T-AC-DC

20 copper ports＋4 Combo ports＋2
10Gb extended cards ＋DC power

QSW-8200-28T-POE­AC-DC

20 copper ports＋4 Combo ports＋2
10Gb extended cards ＋PoE

QSW-8200-28F-AC-DC

12 fiber ports＋12 Combo ports＋2
extended cards ＋DC power

QSW-8200-28F-AC

12 fiber ports＋12 Combo ports＋2
extended cards

QSW-8200-52F-AC-DC

44 fiber ports＋4 Combo ports＋2
extended cards ＋DC power

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1.2 Introduction to Product

1.2.1 Product Overview

QSW-8200 series switches include QSW-8200-52T-AC, QSW-8200-52T-AC-DC, QSW-8200-52T­POE-AC-DC, QSW-8200-28T-AC, QSW-8200-28T-AC-DC, QSW-8200-28T-POE-AC-DC, QSW-8200­28F-AC-DC, QSW-8200-28F-AC and QSW-8200-52F-AC-DC switches. QSW-8200-52T-AC-DC and
QSW-8200-52T-POE-AC-DC supply the consistent signal interface with QSW-8200-52T-AC, the
difference is QSW-8200-52T-AC-DC implements 48V DC input, QSW-8200-52T-POE-AC-DC
supplies 48 ports for exporting PoE power supply, and the max output power of each port is
15W. QSW-8200-28T-AC-DC and QSW-8200-28T-POE-AC-DC supply the consistent signal
interface with QSW-8200-28T-AC, the difference is QSW-8200-28T-AC-DC implements 48V DC
input, QSW-8200-28T-POE-AC-DC supplies 24 ports for exporting PoE power supply, and the
max output power of each port is 30W, Front panel of QSW-8200-28F-AC-DC supplies 12
1000M-fiber-ports and 12 Combo ports. Front panel of QSW-8200-52F-AC-DC supplies 44
1000M-fiber-ports and 4 Combo ports. The back panel of QSW-8200-28F-AC-DC and QSW­8200-28F-AC support 2 slots with extended cards. QSW-8200-28F-AC-DC and QSW-8200-52F­AC-DC, can input 48V DC power; QSW-8200-28F-AC does not have the DC input interface.

1.2.2 Features and Benefits

 Various Interfaces

QSW-8200-52T-AC, QSW-8200-52T-AC-DC and QSW-8200-52T-POE-AC-DC provide 44 fixed
1000Mb fiber ports, 4 1000Mb COMBO ports (1000Mb fiber SFP ports/1000Mb copper ports)
and 2 10Gb slots with 2 ports.

QSW-8200-28T-AC, QSW-8200-28T-AC-DC and QSW-8200-28T-POE-AC-DC provide 20 fixed
1000Mb copper ports, 4 1000Mb COMBO ports (1000Mb fiber SFP ports/1000Mb copper
ports) and 2 10Gb slots with 2 ports.

QSW-8200-28F-AC-DC, QSW-8200-28F-AC provides 12 1000Mb fiber ports, 12 1000Mb Combo
ports (1000Mb fiber SFP ports/1000Mb copper ports) and 2 slots with the extended cards.

QSW-8200-52F-AC-DC provides 44 fixed 1000Mb fiber ports, 4 1000Mb Combo ports (1000Mb
fiber SFP ports/1000Mb copper ports) and 2 slots with the extended cards.

 Secure Power Supply

QSW-8200 series switches provide DC power backup, support 220V AC input, 48V DC input or
220V AC, 48V DC input simultaneously.

 Support 10Gb Ethernet

10Gb Ethernet which adopts full-duplex technology instead of low-speed, half-duplex
CSMA/CD protocol, is a big leap in the evolution of Ethernet. 10Gb Ethernet can be deployed in
star or ring topologies. QSW-8200 series switches provide broad bandwidth and powerful
processing capacity. It is suitable for metropolitan networks and wide area networks. Using

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QSW-8200 series switches, users can simplify network structures and reduce cost of network
construction.

 Networking Protocols

QSW-8200 series switches support 802.1d/w/s, 802.1Q, 802.1p, 802.3ad, 802.3x, GVRP, DHCP
and SNTP etc; support IPv6 protocol. All these protocols supported enable QSW-8200 series
switches to meet the requirements of complex network constructions.

Note: For QSW-8200-28F-AC-DC and QSW-8200-28F-AC, v4 unicast route only support static
RIP, multicast route only support IGMP snooping, not support multicast route protocol; v6
unicast route only support static RIPng, multicast only support MLDv1/v2 snooping, not
support multicast route protocol.

 ACL

QSW-8200 series switches support comprehensively ACL policies. The traffic can be classified
by source/destination IP addresses, source/destination MAC addresses, IP protocols, TCP/UDP,
IP precedence, time ranges and ToS. And various policies can be conducted to forward the

traffic. By implementing ACL policies, users can filter the virus packets such as “Worm.Blaster”,
“Worm.Sasser” and “Red Code” etc. QSW-8200 series switch also support IEEE802.1x port

based access authentication, which can be deployed with RADIUS, to ensure the port level
security and block illegal users.

 QoS

QSW-8200 series switches fully support DiffServ Module. Users can specify a queue bandwidth
on each port. WDRR/SP/SWDRR scheduling is also supported. QSW-8200 series support the
port trust. Users can configure trusted CoS, DSCP, IP precedence and port priority. User can

also modify packet’s DSCP and COS values. The traffic can be classified by port, VLAN, DSCP, IP
precedence and ACL table. User can also modify packet’s DSCP and IP precedence values. Users

can specify different bandwidths for voice/data/video to customize different qualities of
service.

 Perfect Web Management.

QSW-8200 series support SNMP, In-band and Out-of band Management, CLI and WEB interface
and RMON. It can mail the correlative sensitive information to the administrator abide by
SMTP protocol. QSW-8200 series support SSH protocol, ensure the configuration management
security of the switch. It adopts the Qtech centralized web management system ‘LinkManager’
for unified management expedienty and compactly.

1.3 Physical Specifications

Item

QSW-8200-28F­AC-DC / QSW­8200-28F-AC

QSW-8200-52F­AC-DC

QSW-8200-28T-AC/
QSW-8200-28T-AC­DC/ QSW-8200-28T­POE-AC-DC

QSW-8200-52T­AC / QSW-8200­52T-AC-DC /
QSW-8200-52T-

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POE-AC-DC

Dimension
(W * H * D)
（mm）

440×324×44

Weight

<6kg

Fixed ports

12 SFP fiber
ports

12 1000Mb
Combo ports

2 interfaces with
extended card

44 SFP fiber ports

4 1000Mb Combo
ports

2 interfaces with
extended card

20 100/1000Base-TX
auto negotiation
ethernet ports

4 1000Mb Combo
ports

2 interfaces with
extended card

44
100/1000Base­TX auto
negotiation
ethernet ports

4 1000Mb
Combo ports

2 interfaces with
extended card

Managemen
t ports

1 Console port

System
power

QSW-8200 series support AC/DC power input:

 AC input:

The rating voltage range: 100V~240V AC; 50/60HZ

The max voltage range: 90V~264V AC; 47HZ～63HZ

 DC input:

48V DC input, -48V～-60V/DC; 2.5A

Output
power
supply of
PoE

Do not support

Do not support

Support

Support

The max
Power
Consumptio
n

65W

65W

35W (without PoE)

65W (without
PoE)

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Fan

Support automatic timing

Operating
Temperatur
e

0℃~50℃

Relative
Humidity

10％~90％

Table 1-1 Physical Specifications

1.4 Description of Hardware

1.4.1 Front Panel

QSW-8200-28T-AC series Ethernet switches provide 20 100/1000Base-TX auto negotiation
ehternet ports, 4 1000Mb Combo ports, 6 function indicators and 1 Console port.

Fig 1-1 Front Panel of QSW-8200-28T-AC

Fig 1-2 Front Panel of QSW-8200-28T-AC-DC

Fig 1-3 Front Panel of QSW-8200-28T-POE-AC-DC

QSW-8200-52T-AC series Ethernet switches provide 44 100/1000Base-TX auto negotiation
ehternet ports, 4 1000Mb Combo ports, 6 function indicators and 1 Console port.

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Fig 1-4 Front Panel of QSW-8200-52T-AC

Fig 1-5 Front Panel of QSW-8200-52T-AC-DC

Fig 1-6 Front Panel of QSW-8200-52T-POE-AC-DC

QSW-8200-28F-AC-DC/ QSW-8200-28F-AC Ethernet switch provides 12 1000Mb fiber ports, 12
1000Mb Combo ports, 8 function LEDs and 1 Console port.

Fig 1-7 Front Panel of QSW-8200-28F-AC-DC

Fig 1-8 Front Panel of QSW-8200-28F-AC

QSW-8200-52F-AC-DC ehternet switch provides 44 1000Mb fiber ports, 4 1000Mb Combo
ports, 8 function LEDs and 1 Console port.

Fig 1-9 Front Panel of QSW-8200-52F-AC-DC

1.4.2 Back Panel

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QSW-8200-28T-AC supplies 2 plug-in interfaces, 1 48V DC input power interface, 1 input power
interface of PoE and 1 220V input power interface.

Fig 1-10 Back Panel of QSW-8200-28T-AC

Fig 1-11 Back Panel of QSW-8200-28T-AC-DC

Fig 1-12 Back Panel of QSW-8200-28T-POE-AC-DC

Back Panel of QSW-8200-52T-AC is same with QSW-8200-28T-AC, it supplies 2 plug-in
interfaces, 1 48V input power interface, 1 input power interface of PoE and 1 220V input
power interface.

Fig 1-13 Back Panel of QSW-8200-52T-AC

Fig 1-14 Back Panel of QSW-8200-52T-AC-DC

Fig 1-15 Back Panel of QSW-8200-52T-POE-AC-DC

QSW-8200-28F-AC-DC supplies 2 interfaces with the extended card, 1 interface with -48V DC
power input and 1 interface with 220V AC power input.

Fig 1-16 Back Panel of QSW-8200-28F-AC-DC

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QSW-8200-28F-AC supplies 2 interfaces with the extended card, and 1 interface with 220V AC
power input.

Fig 1-17 Back Panel of QSW-8200-28F-AC

Back Panel of QSW-8200-52F-AC-DC is same with QSW-8200-28F-AC-DC, it supplies 2
interfaces for the extended card, 1 interface with -48V DC power input and 1 interface with
220V AC power input.

Fig 1-18 Back Panel of QSW-8200-52F-AC-DC

1.4.3 DC Power/PoE Power Input

QSW-8200 supports AC/DC input power backup and PoE output power. pin-outs signal of DC
power and PoE power are distributed as below:

Fig 1-19 Pin-outs Distribution of DC Input and PoE Power Input for QSW-8200

DC power has 3 pin-outs:

PIN1: GND Ground connection

PIN2: -48V DC power cathode input

PIN3: 0V DC power positive electrode input

PoE has 5 pin-outs:

PIN1: GND Ground connection

PIN2: -52V DC power cathode input

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PIN3: -52V DC power cathode input

PIN4: 0V DC power positive electrode input

PIN5: 0V DC power positive electrode input

1.4.4 Status LEDs

LEDs of QSW-8200 show the corresponding state.

In mainboard of QSW-8200-28T-AC/ QSW-8200-28T-AC-DC/ QSW-8200-28T-POE-AC-DC/ QSW­8200-52T-AC/ QSW-8200-52T-AC-DC/ QSW-8200-52T-AC-DC/ QSW-8200-52T-POE-AC-DC the
LEDs include two parts, one is 24/48 1000M interface LEDs, they show each port state at RJ45
plug-in, each port corresponds a LED with double colors.

Table 1-2 Port LEDs

LED

Status

Description

Red

On

PoE power output
Off

no PoE power output
Blink

Send or receive the data

Green

On

Port in link state

Off

Port not in link state

Blink

Send or receive the data

The other is system LEDs, they are used to show the work status of the system at the right of
front panel.

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Table 1-3 System LEDs

Panel Symbol

Status

Description

PWR
On (Green)

Power is operating normally
Off

Power is abnormally

DIAG

On (Green, blink)

System is loading

On (Green)

System is operating normally

ALM

On (Green)

System is malfunctioning

Off

System is operating normally

RPS

On (Green)

System is using DC power

Off

System does not use DC power

M1

On (Green)

M1 is in place

Off

M1 is not in place

M2

On (Green)

M2 is in place

Off

M2 is not in place

LEDs of QSW-8200-28F-AC-DC/ QSW-8200-28F-AC / QSW-8200-52F-AC-DC show the
corresponding state. There are two kinds of LEDs on front panel, one of its kinds is fiber/copper
LEDs of port transceiver, they are at RJ45 linker or SFP linker. Each port of RJ45 linker
corresponds a LED with double colors, each port of SFP linker corresponds two LEDs, detailed
descriptions are shown in the following tables.

Table 1-4 RJ45 Port LEDs

LED

Status

Description

Green

On

port is at link state

Off

port is not at link state

Blink

Send or receive the data

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Table 1-5 SFP Port LEDs

LED

Status

Description

Left LED

On

SFP port is at link state
Off

SFP port is not at link state

Blink

There is no this state

Right LED

On

There is no this state

Off

No data is received or sent

Blink

Send or receive the data

Note: For QSW-8200-52F-AC-DC, there are four LEDs with the number from the buttom up on
the left of RJ45 linker, the number is from 1 to 4, and they correspond four ports of RJ45 linker
respectively.

The other of its kind is system LEDs, system LEDs of QSW-8200-28F-AC-DC / QSW-8200-28F-AC
and QSW-8200-52F-AC-DC are at the right of the front panel. They are corresponding name for
system LEDs with 2*4 array. They are used to show the work stateand the port state of the
extended card.

Table 1-6 System LEDs

Panel Symbol

Status

Description

PWR
On (Green)

Power is operating normally
Off

Power is abnormally

DIAG

On (Green, blink)

System is loading

On (Green)

System is operating normally

ALM

On (Green)

System is malfunctioning

Off

System is operating normally

DC

On (Green)

System is using DC power

Off

System does not use DC power

M1-1

On (Green)

Port1 of M1 is at link state

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On (Green, Blink)

Port1 of M1 is receiving or sending
the data

Off

Port1 of M1 is not at link state

M1-2

On (Green)

Port2 of M1 is at link state

On (Green, Blink)

Port2 of M1 is receiving or sending
the data

Off

Port2 of M1 is not at link state

On (Orange)

Port2 of M1 is not at link state, but
M1 is in place

M2-1

On (Green)

Port1 of M2 is at link state

On (Green, Blink)

Port1 of M2 is receiving or sending
the data

Off

Port1 of M2 is not at link state

M2-2

On (Green)

Port2 of M2 is at link state

On (Green, Blink)

Port2 of M2 is receiving or sending
the data

Off

Port2 of M2 is not at link state

On (Orange)

Port2 of M2 is not at link state, but
M2 is in place

1.4.5 Front Panel Interface Description

QSW-8200 series switches provide RJ-45 1000Mb copper port and the interface of SFP 1000Mb
fiber transceivers.

Each interface description is shown in the following:

Table 1-7 QSW-8200 interface description

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Port mode

Spec

RJ-45 port

 10/100/1000Mbps auto negotiation
 MDI/MDI-X cable mode auto negotiation
 5 kinds of UTP: 100 m

SFP

 SFP-SX-L transceiver

1000Base-SX SFP(850nm,MMF,550m)

 SFP-LX-L transceiver

1000Base-LX SFP(1310nm, SMF, 10km or MMF, 550m)

 SFP-LX-20-L transceiver

1310nm lightwave, 9/125um single mode fiber: 20km

 SFP-LX-40 transceiver

9/125um single mode fiber: 40km

 SFP-LH-70-L transceiver

9/125um single mode fiber: 70km

 SFP-LH-120-L transceiver

9/125um single mode fiber: 120km

SFP-GT

 SFP-GT module

1000Base-T SFP interface card module, RJ-45 interface

1.4.6 QSW-2SFP+ / QSW-2GB Extended Module Description

QSW-8200 series switches provide 2 10GB extended slots to install 2 QSW-2SFP+ or QSW-2GB
extended modules.

Extended module model

QSW-8200 series switch

Extended module description

QSW-2SFP+

Support 10Gb / 1Gb

Double 10Gb / 1Gb ports
compatible module

QSW-2GB

Support

Double 1Gb ports module

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Each of the extended modules’ panel diagram is shown follows:

Figure 1-20 panel diagram of QSW-2SFP+

Figure 1-21 panel diagram of QSW-2GB

Back panel diagram of the switch with extended modules is shown in the following:

Figure 1-22 The back panel with extended modules for QSW-8200-28T-AC / QSW-8200-52T-AC

Figure 1-23 The back panel with extended modules for QSW-8200-28T-AC-DC / QSW-8200-52T-AC­DC

Figure 1-24 The back panel with extended modules for QSW-8200-28T-POE-AC-DC / QSW-8200-52T­POE-AC-DC

Figure 1-25 The back panel with extended modules for QSW-8200-28F-AC-DC / QSW-8200-28F-AC /
QSW-8200-52F-AC-DC

Extended module‘s LED description is the following:

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Table 1-8 10Gb extended module LED description

QSW-8200 series switch supports the following SFP+ transceivers:

Table 1-9 QSW-8200 series SFP+ transceivers description

Spec

SFP+

 SFP+-LR transceiver

10GBase-LR SFP+(1310nm, SMF, 10km)

 SFP+-SR transceiver

10GBase-SR SFP+(850nm, 62.5μm MMF 32m,
50μm 500MHz/km MMF 85m, 50μm

2000MHz/km MMF 300m)

LED

Status

Description

Link/Activity

Green

Ports are at the link state of 10G

Blink(Green)

Ports are at the active state of 10G

Off

No link or the link is failure

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Chapter 2 HARDWARE INSTALLATION

2.1 Installation Notice

To ensure the proper operation of QSW-8200 series and your physical security, please read
carefully the following installation guide.

2.1.1 Environmental Requirements

 The switch must be installed in a clean area. Otherwise, the switch may be damaged by

electrostatic adherence.

 Maintain the temperature within 0 to 50 °C and the humidity within 10% to 95%, non-

condensing.

 The switch must be put in a dry and cool place. Leave sufficient spacing around the switch

for good air circulation.

 The switch must work in the right range of power input (AC power: 90 ~ 264V (50Hz), DC

power: -40 ~ -60V)

 The switch must be well grounded in order to avoid ESD damage and physical injury of

people.

 The switch should avoid the sunlight perpendicular incidence. Keep the switch away from

heat sources and strong electromagnetic interference sources.

 The switch must be mounted to a standard 19’’ rack or placed on a clean level desktop.

2.1.1.1 Dust and Particles

Dust is harmful to the safe operation of QSW-8200 series. Dust can lead to electrostatic
adherence, especially likely under low relative humidity, causing poor contact of metal
connectors or contacts. Electrostatic adherence will result in not only reduced product
lifespan, but also increased chance of communication failures. The recommended value for
dust content and particle diameter in the site is shown below:

Max Diameter (µm)

0.5 1 3

5

Max Density

(particles/m³)

1.4×105

7×105

2.4×105

1.3×105

Table 2-1 Environmental Requirements: Dust

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In addition, salt, acid and sulfide in the air are also harmful to the switch. Such harmful gases
will aggravate metal corrosion and the aging of some parts. The site should avoid harmful
gases, such as SO2, H2S, NO2, NH3 and Cl2, etc. The table below details the threshold value.

Gas

Average (mg/m³)

Max (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

Table 2-2 Environmental Requirements: Particles

2.1.1.2 Temperature and Humidity

Although the switch is designed to use 4 fans, the site should still maintain a desirable
temperature and humidity. High-humidity conditions can cause electrical resistance
degradation or even electric leakage, degradation of mechanical properties and corrosion of
internal components. Extreme low relative humidity may cause the insulation spacer to
contract, making the fastening screw insecure. Furthermore, in dry environments, static
electricity is liable to be produced and cause harm to internal circuits. Temperature extremes
can cause reduced reliability and premature aging of insulation materials, thus reducing the
switch’s working lifespan. In the hot summer, it is recommended to use air-conditioners to cool
down the site. And the cold winter, it is recommenced to use heaters.

The recommended temperature and humidity are shown below:

Temperature:

Relative humidity

Long term
condition

Short term
condition

Long term
condition

Short term
condition

15 ~ 30°C

0 ~ 50°C

40 ~ 65%

10 ~ 95%

Table 2-3 Environmental Requirements: Temperature and Humidity

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Caution!

A sample of ambient temperature and humidity should be taken at 1.5m above the floor and

0.4m in front of the switch rack, with no protective panel covering the front and rear of the
rack. Short term working conditions refer to a maximum of 48 hours of continued operation
and an annual cumulative total of less than 15 days. Formidable operation conditions refers to
the ambient temperature and relative humidity value that may occur during an air­conditioning system failure, and normal operation conditions should be recovered within 5
hours.

2.1.1.3 Power Supply

Before powering on the power supply, please check the power input to ensure proper
grounding of the power supply system. The input source for the switch should be reliable and

secure; a voltage adaptor can be used if necessary. The building’s circuit protection system

should include in the circuit a fuse or circuit-breaker of no greater than 240 V, 10 A. It is
recommended to use a UPS for more reliable power supplying. .

Caution!

Improper power supply system grounding, extreme fluctuation of the input source, and
transients (or spikes) can result in larger error rate, or even hardware damage!

2.1.1.4 Preventing Electrostatic Discharge Damage

Static electric discharges can cause damage to internal circuits, even the entire switch. Follow
these guidelines for avoiding ESD damage:

 Ensure proper earth grounding of the device;
 Perform regular cleaning to reduce dust;
 Maintain proper temperature and humidity;
 Always wear an ESD wrist strap and antistatic uniform when in contact with circuit boards.

2.1.1.5 Anti-interference

All sources of interference, whether from the device/system itself or the outside environment,
will affect operations in various ways, such as capacitive coupling, inductive coupling,
electromagnetic radiation, common impedance (including the grounding system) and
cables/lines (power cables, signal lines, and output lines). The following should be noted:

 Precautions should be taken to prevent power source interruptions;
 Provide the system with a dedicated grounding, rather than sharing the grounding with

the electronic equipment or lightning protection devices;

 Keep away from high power radio transmitters, radar transmitters, and high frequency

strong circuit devices;

 Provide electromagnetic shielding if necessary.

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2.1.1.6 Rack Configuration

The dimensions of the QSW-8200 series is designed to be mounted on a standard 19’’ rack,
please ensure good ventilation for the rack.

 Every device in the rack will generate heat during operation, therefore vent and fans must

be provided for an enclosed rack, and devices should not be stacked closely.

 When mounting devices in an open rack, care should be taken to prevent the rack frame

from obstructing the switch ventilation openings. Be sure to check the positioning of the
switch after installation to avoid the aforementioned.

Caution！

If a standard 19’’ rack is not available, the QSW-8200 series can be placed on a clean level
desktop, leave a clearance of 100mm around the switch for ventilation, and do not place
anything on top of the switch.

2.1.2 Installation Notice

 Read through the installation instruction carefully before operating on the system. Make

sure the installation materials and tools are prepared. And make sure the installation site
is well prepared.

 During the installation, users must use the brackets and screws provided in the accessory

kit. Users should use the proper tools to perform the installation. Users should always
wear antistatic uniform and ESD wrist straps. Users should use standard cables and
connecters.

 After the installation, users should clean the site. Before powering on the switch, users

should ensure the switch is well grounded. Users should maintain the switch regularly to
extend the lifespan of the switch.

2.1.3 Security Warnings

 When using SFP transceiver, do not stare directly at the fiber bore when the switch is in

operation. Otherwise the laser may hurt your eyes.

 Do not attempt to conduct the operations which can damage the switch or which can

cause physical injury.

 Do not install, move or disclose the switch and its modules when the switch is in

operation.

 Do not open the switch shell.
 Do not drop metals into the switch. It can cause short-circuit.
 Do not touch the power plug and power socket.
 Do not place the tinder near the switch.

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 Do not configure the switch alone in a dangerous situation,
 Use standard power sockets which have overload and leakage protection.
 Inspect and maintain the site and the switch regularly.
 Have the emergence power switch on the site. In case of emergence, switch off the power

immediately.

Caution!

Potential risk include: Electric leakage, Power supply arcing, Power line breakage, Imperfect
earth, Overload circuit and Electrical short circuit. If electric shock, fire, electrical short circuit
occurs, please cut off the electricity supply and alarm rapidly. Rescue the injured person in the
contingency under inherently safe, give the injured person proper first aid treatment according
to the injury state, and seek help from the Medical Emergency using various ways.

2.2 Installation Preparation

2.2.1 Verify the Package Contents

Please unpack the shipping package and verify carefully the contents inside.

2.2.2 Required Tools and Utilities

The required tools and utilities are shown below:

 Cross screwdrivers
 Flat-blade screwdriver
 ESD wrist strap
 Antistatic uniform

Caution!

Users should prepare the required tools and utilities by themselves.

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2.3 Installation Guide

2.3.1 Installing the Switch

Fig 2-1 QSW-8200-28T-AC series installation sketch map on the rack

Fig 2-2 QSW-8200-52T-AC series installation sketch map on the rack

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Please mount QSW-8200 series on the 19’’ rack as below:

1. Attach the 2 brackets on the QSW-8200 series with screws provided in the accessory
kit.

2. Put the bracket-mounted switch smoothly into a standard 19’’ rack. Fasten the QSW­8200 series to the rack with the screws provided. Leave enough space around the switch for
good air circulation.

Caution!

The brackets are used to fix the switch on the rack. They can’t serve as a bearing. Please place

a rack shelf under the switch. Do not place anything on top of the switch. Do not block the
blowholes on the switch to ensure the proper operation of the switch.

2.3.2 Connecting Console

QSW-8200 series provides a Mini-USB serial console port.

Fig 2-2 Connecting Console to QSW-8200

The connection procedure is listed below:

1. Find the console cable provided in the accessory kit. Attach the Mini-USB end to console

port of the switch.

2. Connect the other side of the console cable to a character terminal (PC).

3. Power on the switch and the character terminal. Configure the switch through the

character terminal.

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2.3.3 SFP Transceiver Installation

QSW-8200 series provide multiple 1000Mb SFP transceiver slots.

The procedure for installing the SFP transceiver is shown below:

Step 1: Put on a ESD wrist strap (or antistatic gloves).

Step 2: Insert the SFP transceiver to the guide rail inside the fiber interface line card. Do not
put the SFP transceiver up-side-down.

Step 3: Push the SFP transceiver along the guide rail gently until you feel the transceiver snap
into place at the bottom of the line card.

Note: the SFP transceiver is hot swappable.

Caution!

Do not stare directly at the 2 fiber bore in the SFP transceiver when the switch is in operation,
otherwise the laser may hurt your eyes.

2.3.4 QSW-2SFP+ extended module Installation

QSW-8200 series provide 10Gb slots. The procedure for installing the QSW-2SFP+ module and
the SFP+ 10Gb fiber transceiver is shown below:

Step 1: Put on an ESD wrist strap (or antistatic gloves).

Step 2: Insert the QSW-2SFP+ module to the guide rail inside the 10Gb module slot.

Step 3: Push the QSW-2SFP+ module along the guide rail gently until it comes into contact with
the machine panel.

Step 4: Insert the SFP+ transceiver to the guide rail inside the QSW-2SFP+. Do not put the SFP+
transceiver up-side-down.

Step 5: Push the SFP+ transceiver along the guide rail gently until it comes into contact with the
QSW-2SFP+.

Note: the 2SFP+ extended module does not support hot swappable. QSW-2SFP+ extended

module can insert SFP+ fiber transceiver.

2.3.5 QSW-2GB Extended module Installation

QSW-8200 series provide 10Gb slots. The procedure for installing the QSW-2GB module and
the SFP 1Gb fiber transceiver is shown below:

Step 1: Put on an ESD wrist strap (or antistatic gloves).

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Step 2: Insert the QSW-2GB module to the guide rail inside the 10Gb module slot.

Step 3: Push the QSW-2GB module along the guide rail gently until it comes into contact with
the machine panel.

Step 4: Insert the SFP transceiver to the guide rail inside the QSW-2GB. Do not put the SFP
transceiver up-side-down.

Step 5: Push the SFP transceiver along the guide rail gently until it comes into contact with the
QSW-2GB.

Note: the 2GB extended module does not support hot swappable.

Caution!

Do not stare directly at the 2 fiber bores in the fiber transceiver when the switch is in
operation, otherwise the laser may hurt your eyes.

2.3.6 Copper Cable/Fiber Cable Connection

Copper cables should be connected as below:

Step 1: Insert one end of the Ethernet cable to the RJ-45 Ethernet port in the switch copper
cable line card;

Step 2: Insert the other end of the Ethernet cable to the RJ-45 Ethernet port of other device;

Step 3: Check all status indicators for the corresponding ports; a lighted LED indicates that the
link has been established, otherwise the link is not ready and the cable should be examined.

Caution!

Please verify the sign above the port to ensure using the right port. Connecting to wrong ports
might damage the switch.

Fiber cables should be connected as below:

Step 1: Remove the protective plug from the SFP/SFP+ fiber transceiver bore; Remove the
protective cap from one end of the fiber cable. Keep the fiber end clean and neat.

Step 2: Attach one end of the fiber cable to the SFP/SFP+ transceiver, and attach the other end

to the transceiver of the corresponding devices. Note: The SFP/SFP+ transceiver’s TX port

should be connected to the RX port of the corresponding device, and vice versa.

Step 3: Check the fiber port status indicator, a lighted LED indicates that the link has been
established; otherwise the link is not ready and should be examined.

Caution!

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Please verify the sign above the port to ensure using the other ports. Connecting to wrong
ports might damage the transceiver or the other ports. When connecting other devices
through a fiber cable to the switch, the output power of the fiber cable must not exceed the
maximum received power of the corresponding modules. Otherwise, it will damage the fiber
transceiver. Do not stare at the fiber bore when the switch is in operation. That may hurt your
eyes.

2.3.7 AC Power Supply Connection

QSW-8200 use 220V AC power supply by default. Please read the power input specification for
the detailed information.

AC Power supply connection procedure is described as below:

1. Insert one end of the power cable provided in the accessory kit into the power source socket
(with overload and leakage protection), and the other end to the power socket in the back
panel of the switch.

2. Check the power status indicator in the front panel of the switch. The corresponding power
indicator should light. QSW-8200 is self-adjustable for the input voltage. As soon as the input
voltage is in the range printed on the switch surface, the switch can operate correctly.

3. When the switch is powered on, it executes self-test procedure and startups.

Caution!

The input voltage must be within the required range, otherwise the switch can be damaged or
malfunction. Do not open the switch shell without permission. It can cause physical injury.

2.3.8 DC Power Supply Connection

Please read the power input specification for the detailed information. Connection procedure
is described as below:

1. Insert DC power linker provided in the accessory kit into DC power source socket in the back
panel of the switch.

2. Check whether the power status indicator is light in the front panel of the switch.

3. When the switch is powered on, it executes self-test procedure and startups.

Caution!

The input voltage must be within the required range, otherwise the switch can be damaged or
malfunction. Do not open the switch shell without permission. It can cause physical injury.

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2.3.9 PoE Power Supply Connection

When using PoE function of QSW-8200, it needs to connect the external PoE power with 5
holes socket. The connection procedure is described as below:

1. Insert one end of PoE power cable provided in the accessory kit into the external PoE power
(with overload and leakage protection), and the other end to PoE power socket in the back
panel of the switch.

2. Connect PD device to the front port of QSW-8200.

3. Check whether PD device is powered and the port indicator status shows the power supply
normally.

Caution!

The input voltage must be within the required range, otherwise the switch can be damaged or
malfunction. PoE power supply of the front port is disabled when the switch is power-off or is
not started. If there is any problem, do not open the switch shell without permission. It can
cause physical injury.