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ZXR10 5900E SeriesEasy-Maintenance MPLS Routing Switch
Hardware Manual
ZTE CORPORATIONNo. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://support.zte.com.cnE-mail: [email protected]
LEGAL INFORMATIONCopyright © 2014 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
use of or reliance on the information contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit the ZTE technical support website http://support.zte.com.cn to inquire for related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
R1.0 2015-03-10 First edition
Serial Number: SJ-20150114102049-001
Publishing Date: 2015-03-10 (R1.0)
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ContentsAbout This Manual ......................................................................................... I
Chapter 1 Safety Instructions.................................................................... 1-11.1 Safety Precautions ............................................................................................. 1-1
1.2 Safety Signs ...................................................................................................... 1-1
Chapter 2 Product Introduction ................................................................ 2-12.1 Overview ........................................................................................................... 2-1
2.2 Functions........................................................................................................... 2-3
2.3 Technical Specifications...................................................................................... 2-4
Chapter 3 Hardware Introduction.............................................................. 3-13.1 Hardware Structure ............................................................................................ 3-1
3.1.1 ZXR10 5916E .......................................................................................... 3-2
3.1.2 ZXR10 5928E .......................................................................................... 3-5
3.1.3 ZXR10 5928E-FI ...................................................................................... 3-9
3.1.4 ZXR10 5952E ........................................................................................ 3-12
3.1.5 Uplink Daughter Card ............................................................................. 3-19
3.1.6 Power Supply Module............................................................................. 3-23
3.1.7 Fan Module............................................................................................ 3-29
3.1.8 Monitoring Interface................................................................................ 3-30
3.1.9 Clock Module ......................................................................................... 3-31
3.1.10 Optical Module ..................................................................................... 3-33
3.2 Cables............................................................................................................. 3-36
3.2.1 Power Cable .......................................................................................... 3-36
3.2.2 Protective Earth Cable............................................................................ 3-37
3.2.3 Serial Console Cable.............................................................................. 3-40
3.2.4 Network Cable ....................................................................................... 3-41
3.2.5 Optical Fiber .......................................................................................... 3-43
3.2.6 GPS Cable ............................................................................................ 3-45
Chapter 4 Hardware Installation................................................................ 4-14.1 Installing the ZXR10 5900E on a Desktop ............................................................ 4-1
4.2 Installing the ZXR10 5900E in a Cabinet.............................................................. 4-3
4.3 Cable Installation................................................................................................ 4-6
4.3.1 Installation Specifications and Steps.......................................................... 4-6
4.3.2 Power-on and Power-off Procedures ......................................................... 4-7
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4.4 (Optional) Lightning Arrester for AC Power Supply ............................................... 4-8
Appendix A Protocols and Standards..................................................... A-1
Figures............................................................................................................. I
Tables ............................................................................................................ III
Glossary .........................................................................................................V
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About This ManualPurposeThis manual describes the hardware of the ZXR10 5900E series easy-maintenance MPLSrouting switches and how to install the ZXR10 5900E. The ZXR10 5900E includes thefollowing types:
l ZXR10 5916E easy-maintenance MPLS routing switchl ZXR10 5928E easy-maintenance MPLS routing switchl ZXR10 5928E-FI easy-maintenance MPLS routing switchl ZXR10 5952E easy-maintenance MPLS routing switch
Intended AudienceThis manual is intended for network planning engineers.
What Is in This ManualThis manual contains the following chapters:
Chapter 1, Safety InstructionsDescribes safety precautions and safety signs for the ZXR10
5900E.
Chapter 2, Product Introduction Provides an overview about the ZXR10 5900E.
Chapter 3, Hardware Introduction Describes the structure of the ZXR10 5900E.
Chapter 4, Hardware Installation Describes how to install the ZXR10 5900E.
Appendix A, Protocols and
Standards
Describes the protocols and standards of the ZXR10 5900E.
ConventionsThis manual uses the following typographical conventions:
Italics Variables in commands. It may also refer to other related manuals and documents.
Bold Menus, menu options, function names, input fields, option button names, check boxes,
drop-down lists, dialog box names, window names, parameters, and commands.
Constant
width
Text that you type, program codes, filenames, directory names, and function names.
[ ] Optional parameters.
{ } Mandatory parameters.
| Separates individual parameter in series of parameters.
Note: provides additional information about a certain topic.
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Chapter 1Safety InstructionsTable of ContentsSafety Precautions .....................................................................................................1-1Safety Signs...............................................................................................................1-1
1.1 Safety PrecautionsOnly duly trained and qualified personnel can install, operate, and maintain the equipment.
During the equipment installation, operation and maintenance, users must comply withlocal safety specifications and related instructions. Failure to comply may result in personalinjury or damage to the equipment. The safety instructions mentioned in this manual areonly a supplement to local safety specifications.
Running the debug command improperly may affect the equipment performance, so it isnot recommended to run the debug command when the equipment operates properly. Thedebug all command opens all debug processes, so it should not be used on the equipmentthat is operating services.
ZTE Corporation bears no responsibility for consequences resulting from violationof the general specifications for safety operations or the safety rules for designing,manufacturing, and using the equipment.
1.2 Safety SignsUsers should pay attention to the following safety signs during the installation, operation,and maintenance of the equipment:
Warning!
Indicates a potentially hazardous situation. Failure to comply can result in serious injury,equipment damage, or interruption of major services.
Caution!
indicates a potentially hazardous situation. Failure to comply can result in moderate injury,equipment damage, or interruption of minor services.
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Chapter 2Product IntroductionTable of Contents
Overview....................................................................................................................2-1Functions ...................................................................................................................2-3Technical Specifications .............................................................................................2-4
2.1 OverviewIntroductionThe ZXR10 5900E series switches are layer-3 GE convergence switches developed byZTE. The ZXR10 5900E connects services to the IP bearer network and uses a unifiedplatform for the access of data, voice, video, and mobile services.
The ZXR10 5900E is divided into the following types:
l ZXR10 5916E: provides 12 GE electrical interfaces, one expansion slot, one 100Mbps management port, one Console port, and two alarm ports.Figure 2-1 showsthe overview of the ZXR10 5916E.
Figure 2-1 Overview of the ZXR10 5916E
l ZXR10 5928E: provides 24 GE electrical interfaces, one expansion slot, one 100Mbps management port, one Console port, and two alarm ports.Figure 2-2 showsthe overview of the ZXR10 5928E.
Figure 2-2 Overview of the ZXR10 5928E
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l ZXR10 5928E-FI: provides 24 GE SFP interfaces, one expansion slot, one 100 Mbpsmanagement port, one Console port, and two alarm ports.Figure 2-3 shows theoverview of the ZXR10 5928E-FI.
Figure 2-3 Overview of the ZXR10 5928E-FI
l ZXR10 5952E: provides 16 GE optical or electrical interfaces, four line card slots,one expansion slot, one 100 Mbps management port, one Console port, and twoalarm ports. Each line card supports eight GE optical or electrical ports.2.1 shows theoverview of the ZXR10 5952E (With a Main Control Board Providing Optical Ports)and shows the overview of the ZXR10 5952E (With a Main Control Board ProvidingElectrical Ports).
Figure 2-4 Overview of the ZXR10 5952E (With a Main Control Board ProvidingOptical Ports)
Figure 2-5 Overview of the ZXR10 5952E (With a Main Control Board ProvidingElectrical Ports)
The ZXR10 5900E has five types of daughter cards, and the port configurations are asfollows:l Four GE electrical ports
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l Four GE SFP optical portsl Four GE SFP optical ports (supporting 1588v2 and syncE)l Four 10-GE optical ports (supporting 1588v2 and syncE)l Two 10-GE optical ports (supporting 1588v2 and syncE)
FeaturesThe ZXR10 5900E uses special advanced core chips, which ensures service expansionand value-adding, extends its service life, and ensures a high yield. Its compact structureneeds a small space, and the dual power supply modules ensure high reliability and reducethe operation and maintenance costs. Besides, the ZXR10 5900E provides the followingfeatures:
l Large capacity and high service performance, ensuring high network upgrade anddeployment efficiency
l Improving user experience in high-quality videosl Integrated service platforml Carrier-class reliability, improving the disaster recovery abilityl Considerable operation and maintenance design, reducing the operation and
maintenance costsl Environmentally-friendly design
2.2 FunctionsThe ZXR10 5900E supports the following functions:
1. Physical portl Supports configurations of the port rate, dual duplex mode, and auto sensingl Supports port mirroringl Prevents broadcast stormsl Supports line diagnosis, analysis, and test
2. VLANl Supports port-based VLANl Supports IEEE 802.1Q, allowing up to 4000 VLANsl Supports PVLANl Supports SVLANl Supports SuperVLAN
3. Layer-2 protocolsl Supports STP, RSTP, and MSTPl Supports static trunk and LACPl Supports IGMP Snooping
4. Routing protocolsl Supports unicast protocols, including static routing, RIP v1/v2, OSPF, IS-IS, and
BGPl Supports multicast protocols, including IGMP v1/v2, PIM-SM, and MSDP
5. ACLl Supports standard ACL, extended ACL, layer-2 ACL, and hybrid ACL
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l Supports ACL time segment restriction6. QoS
l Supports 802.1pl Supports queue scheduling modes of SP and WRRl Supports traffic monitoringl Supports flow-based redirectionl Supports flow mirroring and traffic statistics
7. Access authenticationl Supports RADIUS clientsl Supports DHCP relay and DHCP server deployment
8. Reliabilityl Supports VRRPl Supports routing load sharing
9. Network managementl Supports CLI configuration model Supports configuration through the console port, Telnet, and SSHl Supports SNMP and RMON
10. Monitoring interfacel Supports three dry-contact signal inputsl Supports five dry-contact signal outputs
11. Clock synchronization (supported only by the ZXR10 5916E, 5928E, and 5928E-FI)l Supports the 1588v2 precision time protocoll Supports SyncEl Supports the SSM protocol
2.3 Technical SpecificationsFor technical specifications of the ZXR10 5900E, refer to Table 2-1.
Table 2-1 ZXR10 5900E Technical Specifications
Item ZXR10 5916E ZXR10 5928E ZXR10 5928E-FI ZXR10 5952E
Dimensions (H × W
× D)
43.6 mm × 442 mm
× 220 mm
43.6 mm × 442 mm
× 220 mm
43.6 mm × 442 mm
× 220 mm
88.1 mm × 442 mm
× 220 mm
Weight 4.8 kg 4.8 kg 4.8 kg 10 kg
Power supply AC: 100 V to 240 V,
50 Hz to 60 Hz
DC (single input):
-38 V to -72 V
DC (dual input): -40
V to -57 V
AC: 100 V to 240 V,
50 Hz to 60 Hz
DC: -38 V to -72 V
DC (dual input): -40
V to -57 V
AC: 100 V to 240 V,
50 Hz to 60 Hz
DC: -38 V to -72 V
DC (dual input): -40
V to -57 V
AC: 100 V to 240 V,
50 Hz to 60 Hz
DC: -40 V to -57 V
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Item ZXR10 5916E ZXR10 5928E ZXR10 5928E-FI ZXR10 5952E
Power consumption l Typical power
consumption:
38 W
l Maximum power
consumption:
68 W
l Typical power
consumption:
43 W
l Maximum power
consumption:
76 W
l Typical power
consumption:
35 W
l Maximum power
consumption:
64 W
l Typical power
consumption:
53 W
l Maximum power
consumption:
122 W
Ambient temperature Operational ambient temperature:
l Long term: -5 ℃ to +50 ℃l Short term: -5 ℃ to +55 ℃Storage temperature: -40 ℃ to +70 ℃
Relative humidity 10% to 90% (non-condensing)
Switching capacity 104 Gbps 128 Gbps 128 Gbps 176 Gbps
Packet forwarding
rate
77.38 Mpps 95.24 Mpps 95.24 Mpps 130.95 Mpps
Memory 512 MB
Environmental
specification
Reduction of Hazardous Substances (RoHS)
Lightning protection AC power supply lightning protection: 1 kV
Reliability MTBF: > 200000 hours
MTTR: < 30 minutes
EMC:
l CE marking
l FCC Part 15 (CFR 47) Class A
l CISPR22 Class A
l EN 55022 Class A
l ETSI EN 300 386
l EN55024 (CISPR24)
l IEC 61000-3-2
l IEC 61000-3-3
Safety:
l UL 60950 3rd Edition
l IEC 60950
l EN 60950
l EN60825–1+A1 and EN60825–2
l CSA C22.2 No 60950 3rd Edition
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Chapter 3Hardware IntroductionTable of Contents
Hardware Structure ....................................................................................................3-1Cables......................................................................................................................3-36
3.1 Hardware StructureThe ZXR10 5900E hardware includes a box, power supply modules, a fan module,Ethernet switching boards, and a daughter card.
BoxThe ZXR10 5916E/5928E/5928E-FI uses a 1U (1U = 43.6mm) high box. On the front panelof the ZXR10 5916E/5928E/5928E-FI, there are one expansion card slot, two RJ45 poweralarm ports, one mode button, one system indicator, one management port, one Consoleport, and multiple service ports and port indicators. The ZXR10 5916E/5928E/5928E-FIsupports the PWRI+GEIB synchronous Ethernet mode and PWRI+PWRII AC/DC powersupply modules. Both the AC and DC power supply modules support 1+1 redundancy andare hot swappable. The GEIB is hot swappable.
The ZXR10 5952E consists of one main control board, one backplane, line cards (up tofour slots), one uplink daughter card, one fan module, and power supply modules. It uses a2U high box. On the front panel, there are one expansion card slot, two RJ45 power alarmports, one mode button, one system indicator, one management port, one Console port,two AC/DC power supply modules, and multiple service ports and port indicators. Boththe AC and DC power supply modules support 1+1 redundancy and are hot swappable.The GEIB is hot swappable.
Power Supply ModuleThe ZXR10 5900E uses independent power supply modules and supports both AC andDC power supplies. Both the AC and DC power supply modules support 1+1 redundancy,which are installed on the front panel and are hot swappable.
Fan ModuleThe ZXR10 5900E uses active air cooling for heat dissipation. The fan module is installedin the left position of the switch.
The ZXR10 5916E/5928E/5928E-FI uses a fixed fan module, while the ZXR10 5952E usesa hot-swappable fan module. The ZXR10 5900E fan module can automatically adjust
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the fan speed based on the switch temperature, and features low noise and low powerconsumption.
Ethernet Switching BoardEthernet switching boards are the core components of the ZXR105916E/5928E/5928E-FI/5952E, which provide the switching and forwarding functions.
Daughter CardDifferent types of daughter cards are provided for the ZXR10 5900E series switches tomeet differentiated application requirements. The daughter cards are not hot swappable.
3.1.1 ZXR10 5916E
OverviewThe ZXR10 5916E is 1U (1U = 43.6mm) high. It provides 12 GE electrical ports (RJ45) thatsupport CAT 5 (or higher) twisted pairs. It supports the 59EC-BITS-GPS clock module,and uplink daughter cards such as 59EC-4GE-SF, 59EC-4GE-SF-C, 59EC-4GE-RJ,59EC-4XG-SF-C, and 59EC-2XG-SF-C.
For an overview of the ZXR10 5916E, see Figure 3-1.
Figure 3-1 ZXR10 5916E
InterfacesFor a description of the ZXR10 5916E interfaces, refer to Table 3-1.
Table 3-1 ZXR10 5916E Interface Descriptions
Name Quantity Description
100/1000Base-T Ethernet port 12 These Ethernet ports are fixed.
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Name Quantity Description
Console port 1 RJ45 interface for equipment configuration
and management.
100Base-Tx management port 1 1. This interface can be used for
managing the device remotely based
on SNMP.
2. This interface can be used for
downloading boot files or version files.
ALARM IN/OUT 2 Used for power alarm input/output.
Daughter card slot 1 Supports the following daughter cards:
59EC-4GE-SF, 59EC-4GE-SF-C,
59EC-4GE-RJ, 59EC-4XG-SF-C,
59EC-2XG-SF-C.
IndicatorsThe ZXR10 5916E provides the following indicators:
l One SYS/ALM indicator (indicating the system operation) and one MNG indicator(indicating the management port operation)
l Twelve port indicators for the twelve 10/100/1000Base-T ports (one indicator for eachport, indicating the port operation)
l One FAULT/RUN indicator (indicating the power supply operation)
The indicators are described as follows:
l System indicators
For a description of the ZXR10 5916E system indicators, refer to Table 3-2.
Table 3-2 ZXR10 5916E System Indicator Descriptions
Indicator Not Lit Green Red
SYS/ALM The switch is powered
off.
Flashing: The switch
operates properly.
Lit: A fault occurs to
the switch.
Lit: The link is
established.
MNG The link is not
established.
Flashing: The link is
active.
-
l Port indicators
There is an M_button on the front panel for mode selection. When a mode is selected,the corresponding indicators are lit.
For a description of the ZXR10 5916E port indicators, refer to Table 3-3.
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Table 3-3 ZXR10 5916E Port Indicator Descriptions
Indicator Position M_buttonFunction Option
Status Description
Not Lit The link is not
established.
Lit (green) The link is established.
None/LINK
Flashing
(green)
Data is being
transmitted.
Lit (green) The port rate is the same
as the default rate.
SPD
Lit (yellow) The port rate is not the
same as the default rate.
Lit (green) The port is in full-duplex
state.
DUP
Lit (yellow) The port is in half-duplex
state.
Not Lit The STP state of the port
is "disable".
Lit (green) The STP state of the port
is "forward".
STAT
Lit (yellow) Others.
CPU% Lit (green) The switch uses the
indicators of ports 1–12
to show the current CPU
usage, and each port
indicates 8.33%.
MEM% Lit (green) The switch uses the
indicators of ports 1–12
to show the current
memory usage, and
each port indicates
8.33%.
↑BW% Lit (green) The switch uses the
indicators of ports 1–12
to display the outbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
100/1000B-
ase-T port
Above the
port
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Indicator Position M_buttonFunction Option
Status Description
↓BW% Lit (green) The switch uses the
indicators of ports 1–12
to display the inbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
Lit (green) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that the
correct reply is received.
PING
Lit (yellow) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that
the correct reply is not
received.
CRC Lit (yellow) The port provides CRC
error frame statistics.
STORM Lit (yellow) A broadcast storm
occurs on the port.
NoMAC Lit (yellow) No MAC address is
learned on the port.
3.1.2 ZXR10 5928E
OverviewThe ZXR10 5928E is 1U (1U = 43.6mm) high. It provides 24 GE electrical ports (RJ45) thatsupport CAT 5 (or higher) twisted pairs. It supports the 59EC-BITS-GPS clock module,and uplink daughter cards such as 59EC-4GE-SF, 59EC-4GE-SF-C, 59EC-4GE-RJ,59EC-4XG-SF-C, and 59EC-2XG-SF-C.
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For an overview of the ZXR10 5928E, see Figure 3-2.
Figure 3-2 ZXR10 5928E
InterfacesFor a description of the ZXR10 5928E interfaces, refer to Table 3-4.
Table 3-4 ZXR10 5928E Interface Descriptions
Name Quantity Description
100/1000Base-T Ethernet port 24 These Ethernet ports are fixed.
Console port 1 RJ45 interface for equipment configuration
and management.
100Base-Tx management port 1 1. This interface can be used for managing
the device remotely based on SNMP.
2. This interface can be used for
downloading boot files or version files.
ALARM IN/OUT 2 Used for power alarm input/output.
Daughter card slot 1 Supports the following daughter cards:
59EC-4GE-SF, 59EC-4GE-SF-C,
59EC-4GE-RJ, 59EC-4XG-SF-C,
59EC-2XG-SF-C.
IndicatorsThe ZXR10 5928E provides the following indicators:
l One SYS/ALM indicator (indicating the system operation) and one MNG indicator(indicating the management port operation)
l Twenty-four port indicators for the twenty-four 10/100/1000Base-T ports (one indicatorfor each port, indicating the port operation)
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l One FAULT/RUN indicator (indicating the power supply operation)
The indicators are described as follows:
l System indicators
For a description of the ZXR10 5928E system indicators, refer to Table 3-5.
Table 3-5 ZXR10 5928E System Indicator Descriptions
Indicator Not Lit Green Red
SYS/ALM The switch is
powered off.
Flashing: The switch
operates properly.
Lit: A fault occurs to the
switch.
Lit: The link is
established.
MNG The link is not
established.
Flashing: The link is
active.
-
l Port indicators
There is an M_button on the front panel for mode selection. When a mode is selected,the corresponding indicators are lit.
For a description of the ZXR10 5928E port indicators, refer to Table 3-6.
Table 3-6 ZXR10 5928E Port Indicator Descriptions
Indicator Position M_buttonFunction Option
Status Description
Not Lit The link is not
established.
Lit (green) The link is established.
None/LINK
Flashing
(green)
Data is being
transmitted.
Lit (green) The port rate is the same
as the default rate.
SPD
Lit (yellow) The port rate is not the
same as the default rate.
Lit (green) The port is in full-duplex
state.
DUP
Lit (yellow) The port is in half-duplex
state.
Not Lit The STP state of the port
is "disable".
Lit (green) The STP state of the port
is "forward".
STAT
100/1000B-
ase-T port
Above the
port
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Indicator Position M_buttonFunction Option
Status Description
Lit (yellow) Others.
CPU% Lit (green) The switch uses the
indicators of ports 1–20
to show the current CPU
usage, and each port
indicates 5%.
MEM% Lit (green) The switch uses the
indicators of ports 1–20
to show the current
memory usage, and
each port indicates 5%.
↑BW% Lit (green) The switch uses the
indicators of ports 1–20
to display the outbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
↓BW% Lit (green) The switch uses the
indicators of ports 1–20
to display the inbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
Lit (green) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that the
correct reply is received.
PING
Lit (yellow) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
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Indicator Position M_buttonFunction Option
Status Description
the indicators of ports
1–5 to indicate that
the correct reply is not
received.
CRC Lit (yellow) The port provides CRC
error frame statistics.
STORM Lit (yellow) A broadcast storm
occurs on the port.
NoMAC Lit (yellow) No MAC address is
learned on the port.
3.1.3 ZXR10 5928E-FI
OverviewThe ZXR10 5928E-FI is 1U (1U = 43.6mm) high. It provides 24 GE SFP optical portsand supports all the GE optical modules that meet the SFP standard. It also supportsthe 59EC-BITS-GPS clock module, and uplink daughter cards such as 59EC-4GE-SF,59EC-4GE-SF-C, 59EC-4GE-RJ, 59EC-4XG-SF-C, and 59EC-2XG-SF-C.
For an overview of the ZXR10 5928E-FI, see Figure 3-3.
Figure 3-3 ZXR10 5928E-FI
InterfacesFor a description of the ZXR10 5928E-FI interfaces, refer to Table 3-7.
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Table 3-7 ZXR10 5928E-FI Interface Descriptions
Name Quantity Description
100/1000Base-X Ethernet port 24 These Ethernet ports are fixed.
Console port 1 RJ45 interface for equipment configuration
and management.
100Base-Tx management port 1 1. This interface can be used for managing
the device remotely based on SNMP.
2. This interface can be used for
downloading boot files or version files.
ALARM IN/OUT 2 Used for power alarm input/output.
Daughter card slot 1 Supports the following daughter cards:
59EC-4GE-SF, 59EC-4GE-SF-C,
59EC-4GE-RJ, 59EC-4XG-SF-C,
59EC-2XG-SF-C.
IndicatorsThe ZXR10 5928E-FI provides the following indicators:
l One SYS/ALM indicator (indicating the system operation)l Twenty-four port indicators for twenty-four 10/100/1000Base-X ports (one indicator for
each port, indicating the port operation)l One management port indicator (indicating the management port operation)
The indicators are described as follows:
l System indicators
For a description of the ZXR10 5928E-FI system indicators, refer to Table 3-8.
Table 3-8 ZXR10 5928E-FI System Indicator Descriptions
Indicator Not Lit Green Red
SYS/ALM The switch is
powered off.
Flashing: The switch
operates properly.
Lit: A fault occurs to the
switch.
Lit: The link is
established.
MNG The link is not
established.
Flashing: The link is
active.
-
l Port indicators
There is an M_button on the front panel for mode selection. When a mode is selected,the corresponding indicators are lit.
For a description of the ZXR10 5928E-FI port indicators, refer to Table 3-9.
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Table 3-9 ZXR10 5928E-FI Port Indicator Descriptions
Indicator Position M_buttonFunction Option
Status Description
Not Lit The link is not
established.
Lit (green) The link is established.
None/LINK
Flashing
(green)
Data is being
transmitted.
Lit (green) The port rate is the same
as the default rate.
SPD
Lit (yellow) The port rate is not the
same as the default rate.
Lit (green) The port is in full-duplex
state.
DUP
Lit (yellow) The port is in half-duplex
state.
Not Lit The STP state of the port
is "disable".
Lit (green) The STP state of the port
is "forward".
STAT
Lit (yellow) Others.
CPU% Lit (green) The switch uses the
indicators of ports 1–20
to show the current CPU
usage, and each port
indicates 5%.
MEM% Lit (green) The switch uses the
indicators of ports 1–20
to show the current
memory usage, and
each port indicates 5%.
↑BW% Lit (green) The switch uses the
indicators of ports 1–20
to display the outbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
100/1000B-
ase-X port
Above the
port
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Indicator Position M_buttonFunction Option
Status Description
↓BW% Lit (green) The switch uses the
indicators of ports 1–20
to display the inbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
Lit (green) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that the
correct reply is received.
PING
Lit (yellow) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that
the correct reply is not
received.
CRC Lit (yellow) The port provides CRC
error frame statistics.
STORM Lit (yellow) A broadcast storm
occurs on the port.
NoMAC Lit (yellow) No MAC address is
learned on the port.
3.1.4 ZXR10 5952E
OverviewThe ZXR10 5952E is 2U (1U = 43.6mm) high. Its main control board provides 16 fixedGE optical ports or 16 fixed GE electrical ports, depending on the type of the main controlboard. A maximum of four line cards at the user side can provide 32 GE electrical ports or32 GE SFP optical ports. The ZXR10 5952E supports all kinds of GE optical modules that
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meet the SFP standard, and also supports uplink daughter cards such as 59EC-4GE-SF,59EC-4GE-RJ, 59EC-4XG-SF-C, and 59EC-2XG-SF-C.
For an overview of the ZXR10 5952E, see Figure 3-4 and Figure 3-5.
Figure 3-4 ZXR10 5952E (With a Main Control Board Providing Optical Ports)
Figure 3-5 ZXR10 5952E (With a Main Control Board Providing Electrical Ports)
Main Control BoardFor an overview of the main control board with optical ports, see Figure 3-6. It provides 16GE optical ports, two monitoring interfaces, one Console port, and one management port.
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For an overview of the main control board with electrical ports, see Figure 3-7. It provides16 GE electrical ports, two monitoring interfaces, one Console port, and one managementport. Themain control board provides an uplink daughter card slot, which supports multipletypes of uplink daughter cards. There are indicators below the ports of the main controlboard. For a description of the indicators, refer to Indicators.
Figure 3-6 ZXR10 5952E Main Control Board (With Optical Ports)
Figure 3-7 ZXR10 5952E Main Control Board (With Electrical Ports)
InterfacesFor a description of the ZXR10 5952E interfaces, refer to Table 3-10.
Table 3-10 ZXR10 5952E Interface Descriptions
Name Quantity Description
100/1000Base-T Ethernet port or
100/1000Base-X optical port
16 These Ethernet ports are fixed.
Console port 1 RJ45 interface for equipment configuration
and management.
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Name Quantity Description
100Base-Tx management port 1 1. This interface can be used for managing
the device remotely based on SNMP.
2. This interface can be used for
downloading boot files or version files.
ALARM IN/OUT 2 Used for power alarm input/output.
Daughter card slot 1 Supports the following daughter cards:
59EC-4GE-SF, 59EC-4GE-RJ,
59EC-4XG-SF-C, 59EC-2XG-SF-C.
IndicatorsThe ZXR10 5952E provides the following indicators:
l One SYS/ALM indicator (indicating the system operation)l Sixteen port indicators for 16 ports (one indicator for each port) on the main control
board (each line card has eight ports and each port may have one or two indicators)l One management port indicator (indicating the management port operation)l One FAN indicator (indicating the fan module operation)
The indicators are described as follows:
l System indicators
For a description of the ZXR10 5952E system indicators, refer to Table 3-11.
Table 3-11 ZXR10 5952E System Indicator Descriptions
Indicator Not Lit Green Red
SYS/ALM The switch is
powered off.
Flashing: The switch
operates properly.
Lit: A fault occurs to the
switch.
Lit: The link is
established.
MNG The link is not
established.
Flashing: The link is
active.
-
FAN The fan subrack is
not installed.
Flashing: All the fans
operate properly.
Lit: One or multiple fans
operate improperly.
l Port indicators
There is an M_button on the front panel for mode selection. When a mode is selected,the corresponding indicators are lit.
For a description of the ZXR10 5952E port indicators, refer to Table 3-12.
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Table 3-12 ZXR10 5952E Port Indicator Descriptions
Indicator Position M_buttonFunction Option
Status Description
Not Lit The link is not
established.
Lit (green) The link is established.
None/LINK
Flashing
(green)
Data is being
transmitted.
Lit (green) The port rate is the same
as the default rate.
SPD
Lit (yellow) The port rate is not the
same as the default rate.
Lit (green) The port is in full-duplex
state.
DUP
Lit (yellow) The port is in half-duplex
state.
Not Lit The STP state of the port
is "disable".
Lit (green) The STP state of the port
is "forward".
STAT
Lit (yellow) Others.
CPU% Lit (green) The switch uses the
indicators of ports 1–16
to show the current CPU
usage, and each port
indicates 6.25%.
MEM% Lit (green) The switch uses the
indicators of ports 1–16
to show the current
memory usage, and
each port indicates
6.25%.
↑BW% Lit (green) The switch uses the
indicators of ports 1–16
to display the outbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
100/1000B-
ase-T port
Below the
port
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Indicator Position M_buttonFunction Option
Status Description
↓BW% Lit (green) The switch uses the
indicators of ports 1–16
to display the inbound
bandwidth occupancy
ratio of the current uplink
port, taking the current
rate of the uplink port as
the baseline.
Lit (green) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that the
correct reply is received.
PING
Lit (yellow) The switch sends five
ICMP packets to the
network management
center. For each ICMP
packet, the switch uses
the indicators of ports
1–5 to indicate that
the correct reply is not
received.
CRC Lit (yellow) The port provides CRC
error frame statistics.
STORM Lit (yellow) A broadcast storm
occurs on the port.
NoMAC Lit (yellow) No MAC address is
learned on the port.
Line Cards at the User Sidel RS-59EC-8GE-RJ45
The RS-59EC-8GE-RJ45 is a line card for the ZXR10 5952E at the user side, whichprovides eight GE electrical ports. For an overview of the RS-59EC-8GE-RJ45, seeFigure 3-8.
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Figure 3-8 RS-59EC-8GE-RJ45
Each GE electrical port has two indicators, and there are totally 16 indicators on theRS-59EC-8GE-RJ45. For a description of the indicators, refer to Table 3-13.
Table 3-13 RS-59EC-8GE-RJ45 Indicator Descriptions
Indica-tor
Mode Not Lit Green Yellow
Lit: A 1-Gbps link is
established.
Lit: A 100/10-Mbps link is
established.
SPD The link is
not estab-
lished. Flashing: The
1-Gbps link is active.
Flashing: The 100/10-Mbps link
is active.
Lit: A full duplex link
is established.
Lit: A half duplex link is
established.
GE
electri-
cal port
indica-
torDUP The link is
not estab-
lished. Flashing: The full
duplex link is active.
Flashing: The half duplex link is
active.
l RS-59EC-8GE-SFP
The RS-59EC-8GE-SFP is a line card for the ZXR10 5952E at the user side, whichprovides eight GE optical ports. For an overview of the RS-59EC-8GE-SFP, seeFigure 3-9.
Figure 3-9 RS-59EC-8GE-SFP
Each GE optical port has one indicator, and there are totally eight indicators on theRS-59EC-8GE-SFP. For a description of the indicators, refer to Table 3-14.
Table 3-14 RS-59EC-8GE-SFP Indicator Descriptions
Indicator Mode Not Lit Green
Lit: A 1-Gbps link is established.SPD The link is not
established. Flashing: The 1-Gbps link is active.
Lit: A full duplex link is established.
GE optical
port indicator
DUP The link is not
established. Flashing: The full duplex link is
active.
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3.1.5 Uplink Daughter CardThe ZXR10 5900E supports uplink daughter cards to implement uplink data transmission.The following daughter cards are supported:
l 59EC-4XG-SF-Cl 59EC-2XG-SF-Cl 59EC-4GE-SFl 59EC-4GE-SF-Cl 59EC-4GE-RJ
59EC-4XG-SF-C
Caution!
The 59EC-4XG-SF-C is not hot swappable.
The 59EC-4XG-SF-C provides four 10-GE uplink optical ports which support synchronousEthernet and IEEE 1588. For an overview of the 59EC-4XG-SF-C, see Figure 3-10.
Figure 3-10 59EC-4XG-SF-C
The 59EC-4XG-SF-C provides one indicator for each of the four 10-GE optical ports. Fora description of the indicators, refer to Table 3-15.
Table 3-15 59EC-4XG-SF-C Indicator Descriptions
Indicator Mode Not Lit Green Yellow
Lit: A 10-Gbps link is
established.
Lit: A 1-Gbps link is
established.
SPD The link is not
established.
Flashing: The
10-Gbps link is active.
Flashing: The 1-Gbps
link is active.
Lit: A full duplex link is
established.
Lit: A half duplex link
is established.
10-GE optical
port indicator
DUP The link is not
established.
Flashing: The full
duplex link is active.
Flashing: The half
duplex link is active.
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59EC-2XG-SF-C
Caution!
The 59EC-2XG-SF-C is not hot swappable.
The 59EC-2XG-SF-C provides two 10-GE uplink optical ports which support synchronousEthernet and IEEE 1588. For an overview of the 59EC-2XG-SF-C, see Figure 3-11.
Figure 3-11 59EC-2XG-SF-C
The 59EC-2XG-SF-C provides one indicator for each of the two 10-GE optical ports. Fora description of the indicators, refer to Table 3-16.
Table 3-16 59EC-2XG-SF-C Indicator Descriptions
Indicator Mode Not Lit Green Yellow
Lit: A 10-Gbps link is
established.
Lit: A 1-Gbps link is
established.
SPD The link
is not
established. Flashing: The 10-Gbps
link is active.
Flashing: The 1-Gbps
link is active.
Lit: A full duplex link is
established.
Lit: A half duplex link is
established.
10-GE optical
port indicator
DUP The link
is not
established. Flashing: The full duplex
link is active.
Flashing: The half
duplex link is active.
59EC-4GE-SF
Caution!
The 59EC-4GE-SF is not hot swappable.
The 59EC-4GE-SF provides four GE uplink optical ports. For an overview of the59EC-4GE-SF, see Figure 3-12.
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Figure 3-12 59EC-4GE-SF
The 59EC-4GE-SF provides four indicators for each of the four GE optical ports. For adescription of the indicators, refer to Table 3-17.
Table 3-17 59EC-4GE-SF Indicator Descriptions
Indicator Mode Not Lit Green
Lit: A 1-Gbps link is established.SPD The link is not
established. Flashing: The 1-Gbps link is
active.
Lit: A full duplex link is
established.
GE optical port
indicator
DUP The link is not
established.
Flashing: The full duplex link is
active.
59EC-4GE-SF-C
Caution!
The 59EC-4GE-SF-C is not hot swappable.
The 59EC-4GE-SF-C provides four GE uplink optical ports which support synchronousEthernet and IEEE 1588. For an overview of the 59EC-4GE-SF-C, see Figure 3-13.
Figure 3-13 59EC-4GE-SF-C
The 59EC-4GE-SF-C provides four indicators for each of the four GE optical ports. For adescription of the indicators, refer to Table 3-18.
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Table 3-18 59EC-4GE-SF-C Indicator Descriptions
Indicator Mode Not Lit Green
Lit: A 1-Gbps link is established.SPD The link is not
established. Flashing: The 1-Gbps link is
active.
Lit: A full duplex link is
established.
GE optical port
indicator
DUP The link is not
established.
Flashing: The full duplex link is
active.
59EC-4GE-RJ
Caution!
The 59EC-4GE-RJ is not hot swappable.
The 59EC-4GE-RJ provides four GE uplink electrical ports. For an overview of the59EC-4GE-RJ, see Figure 3-14.
Figure 3-14 59EC-4GE-RJ
The 59EC-4GE-RJ provides four indicators for each of the four GE electrical ports. For adescription of the indicators, refer to Table 3-19.
Table 3-19 59EC-4GE-RJ Indicator Descriptions
Indicator Mode Not Lit Green Yellow
Lit: A 1-Gbps link is
established.
Lit: A 100/10-Mbps link is
established.
SPD The link is
not estab-
lished. Flashing: The 1-Gbps
link is active.
Flashing: The 100/10-Mbps
link is active.
Lit: A full duplex link is
established.
Lit: A half duplex link is
established.
GE electrical port
indicator
DUP The link is
not estab-
lished. Flashing: The full
duplex link is active.
Flashing: The half duplex
link is active.
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3.1.6 Power Supply Module
Power Supply Module of the ZXR10 5916E/5928E/5928E-FIThe ZXR10 5916E/5928E/5928E-FI supports both AC and DC power supplies. Themaximum output power can reach 100 W. The following types of power supply modulesare supported:
l Figure 3-15 shows an overview of the RS-59EC-PWR-AC10 power supply module(with AC input and DC output).
Figure 3-15 RS-59EC-PWR-AC10
l Figure 3-16 shows an overview of the RS-59EC-PWR-DC10 power supply module(with single DC input and DC output).
Figure 3-16 RS-59EC-PWR-DC10
l Figure 3-17 shows an overview of the RS-59EC-PWR2-DC10 power supply module(with dual DC inputs and DC output).
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Figure 3-17 RS-59EC-PWR2-DC10
For a description of the power supply module features, refer to Table 3-20.
Table 3-20 ZXR10 5916E/5928E/5928E-FI Power Supply Module Features
Feature Description
Protection Input overcurrent protection, input undervoltage
protection, output overvoltage protection, output
short-circuit protection, and overtemperature
protection.
Redundancy The two power supply modules can operate
in parallel for 1+1 redundancy with loading
balancing.
Hot swappable One of the power supply modules (1+1) can be
removed or installed while the switch operates
properly.
Note:
The power supply module has no power switch, so it is recommended to install/removethe module after the power cable is disconnected.
For a description of the power supply module specifications, refer to Table 3-21.
Table 3-21 ZXR10 5916E/5928E/5928E-FI Power Supply Module Specifications
Parameter RS-59EC-PWR-AC10 RS-59EC-PWR-DC10 RS-59EC-PWR2-DC10
Rated input voltage
range
100 V to 240 V AC, 50
Hz to 60 Hz
-38 V to -72 V DC -40 V – 57 V DC
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Parameter RS-59EC-PWR-AC10 RS-59EC-PWR-DC10 RS-59EC-PWR2-DC10
Output voltage 12 V 12 V 12 V
Maximum output
current
8.5 A 8.5 A 8.5 A
Maximum output power 100 W 100 W 100 W
Dimensions (W × H ×
D)
65 mm × 38 mm × 186
mm
65 mm × 38 mm × 186
mm
65 mm × 38 mm × 186
mm
Operating temperature -10 ℃ to 55 ℃ -10 ℃ to 55 ℃ -10 ℃ to 55 ℃
Relative humidity 5% to 95% 5% to 95% 5% to 95%
For an overview of the 59EC-PWR-AC10 power supply module interface, see Figure 3-18.
Figure 3-18 59EC-PWR-AC10 Power Supply Module Interface
For an overview of the 59EC-PWR-DC10 power supply module interface, see Figure 3-19.
Figure 3-19 59EC-PWR-DC10 Power Supply Module Interface
For an overview of the RS-59EC-PWR2-DC10 power supply module interface, see Figure3-20.
Figure 3-20 RS-59EC-PWR2-DC10 Power Supply Module Interface
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The RS-59EC-PWR-AC10/RS-59EC-PWR-DC10/RS-59EC-PWR2-DC10 power supplymodule has two power indicators, which are described as follows:
l If the RUN indicator is lit (green), it indicates that the power supply module operatesproperly.
l If the FAULT indicator is lit (red), it indicates that the power supply module has a faultor is in the protection status.
l If neither the RUN indicator nor the FAULT indicator is lit, it indicates that there is nocurrent input.
Power Supply Module of the ZXR10 5952EThe ZXR10 5952E supports both AC and DC power supplies. The maximum output powercan reach 100 W. The following types of power supply modules are supported:
l Figure 3-21 shows an overview of the RS-59EC-PWR-AC20 power supply module(with AC input and DC output).
Figure 3-21 RS-59EC-PWR-AC20
l Figure 3-22 shows an overview of the RS-59EC-PWR-DC20 power supply module(with DC input and DC output).
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Figure 3-22 RS-59EC-PWR-DC20
For a description of the power supply module features, refer to Table 3-22.
Table 3-22 ZXR10 5952E Power Supply Module Features
Feature Description
Protection Input overcurrent protection, input undervoltage
protection, output overvoltage protection, output
short-circuit protection, and overtemperature
protection.
Redundancy The two power supply modules can operate
in parallel for 1+1 redundancy with loading
balancing.
Hot swappable One of the power supply modules (1+1) can
be removed or installed while the switch still
operates properly.
Note:
The power supply module has no power switch, so it is recommended to install/removethe module after the power cable is disconnected.
For a description of the power supply module specifications, refer to Table 3-23.
Table 3-23 ZXR10 5952E Power Supply Module Specifications
Parameter RS-59EC-PWR-AC20 RS-59EC-PWR-DC20
Rated input voltage range 100 V to 240 V AC, 50 Hz to 60
Hz
-40 V to -57 V DC
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Parameter RS-59EC-PWR-AC20 RS-59EC-PWR-DC20
Output voltage 12 V 12 V
Maximum output current 17 A 17 A
Maximum output power 200 W 200 W
Dimensions (W × H × D) 90 mm × 42 mm × 205 mm 90 mm × 42 mm × 205 mm
Operating temperature -10 ℃ to 55 ℃ -10 ℃ to 55 ℃
Relative humidity 5% to 95% 5% to 95%
For an overview of the RS-59EC-PWR-AC20 power supply module interface, see Figure3-23.
Figure 3-23 RS-59EC-PWR-AC20 Power Supply Module Interface
For an overview of the RS-59EC-PWR-DC20 power supply module interface, see Figure3-24.
Figure 3-24 RS-59EC-PWR-DC20 Power Supply Module Interface
The RS-59EC-PWR-AC20/RS-59EC-PWR-DC20 power supply module has two powerindicators, which are described as follows:
l If the RUN indicator is lit (green), it indicates that the power supply module operatesproperly.
l If the FAULT indicator is lit (red), it indicates that the power supply module has a faultor is in the protection status.
l If neither the RUN indicator nor the FAULT indicator is lit, it indicates that there is nocurrent input.
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3.1.7 Fan Module
Fan Module of the ZXR10 5916E/5928E/5928E-FIThe ZXR10 5916E/5928E/5928E-FI provides four independent fans operating at aconstant speed for heat dissipation.
Figure 3-25 shows the air channels (using the ZXR10 5916E as an example).
Figure 3-25 Air Channels
For an overview of the ZXR10 5916E/5928E/5928E-FI fan module, see Figure 3-26.
Figure 3-26 ZXR10 5916E/5928E/5928E-FI Fan Module
For a description of the fan module specifications, refer to Table 3-24.
Table 3-24 ZXR10 5916E/5928E/5928E-FI Fan Module Specifications
Parameter Description
Maximum air flow rate 20 CFM
Noise 2 dB
Fan Module of the ZXR10 5952EThe ZXR10 5952E fan module provides six independent speed-adjustable fans for heatdissipation. The fan module is hot swappable, and features fan speed adjustment and lowpower consumption.
Figure 3-27 shows the air channels of the ZXR10 5952E (configured with an main controlboard with optical ports).
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Figure 3-27 ZXR10 5952E Air Channels
For an overview of the ZXR10 5952E fan module, see Figure 3-28.
Figure 3-28 ZXR10 5952E Fan Module
For a description of the fan module specifications, refer to Table 3-25.
Table 3-25 ZXR10 5952E Fan Module Specifications
Parameter Description
Dimensions 33 mm × 84 mm × 210 mm
Fan weight 300 g
Maximum air flow rate 60 CFM
Operating voltage 12 V
Noise Maximum noise (operating at the full speed): 71
dB
Under the room temperature: 49.9 dB
3.1.8 Monitoring InterfaceThe ZXR10 5900E provides two RJ45 ports as the monitoring interfaces. If a deviceconnected to the switch has an alarm, the alarm can be reported to the networkmanagement system through the monitoring interfaces. The ALARM IN port is used for
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alarm input to the switch, and the ALARM OUT port is used for controlling the device (forexample, shutting down the device if an alarm is given on this device).
For an overview of the ZXR10 5916E/ZXR10 5928E/ZXR10 5928E-FI monitoringinterfaces, see Figure 3-29.
Figure 3-29 ZXR10 5916E/ZXR10 5928E/ZXR10 5928E-FI Monitoring Interface
For an overview of the ZXR10 5952E monitoring interfaces, see Figure 3-30.
Figure 3-30 ZXR10 5952E Monitoring Interface
3.1.9 Clock ModuleThe ZXR10 5928E and ZXR10 5928E-FI support the 59EC-BITS-GPS clock module whichis installed into the right power supply slot. Figure 3-31 shows the position of the clockmodule on the switch.
Figure 3-31 Clock Module Position
The 59EC-BITS-GPS clock module supports the following:
l Synchronization with GPSl Synchronization with a BITS clock (2 Mbits or 2 MHz)l IEEE 1588v2 and synchronous Ethernet
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l SyncE based on clock recovery in the physical layerl Switchover between different clock sourcesl Stratum 2 holdover
The clock module provides one-channel BITS input (BITS IN), one-channel BITS output(BITS OUT), one-channel GPS input (PPS&TOD IN), and one-channel GPS output(PPS&TOD OUT). For an overview of the 59EC-BITS-GPS, see Figure 3-32.
Figure 3-32 59EC-BITS-GPS
The 59EC-BITS-GPS provides one green indicator and one yellow indicator for each ofthe PPS&TOD IN and PPS&TOD OUT interfaces, and one indicator for each of the BITSIN and BITS OUT interfaces. For a description of the indicators, refer to Table 3-26.
Table 3-26 59EC-BITS-GPS Indicator Descriptions
Indicator Not Lit Green Yellow
PPS&TOD IN Powered off, no GPS
input, GPS unlocked,
or faulty
Flashing (once per
second): The GPS
input is normal.
-
PPS&TOD OUT Powered off, no GPS
output, or faulty
Flashing (once per
second): The GPS
output is normal.
-
BITS IN Powered off, no 2-Mbits
input, or faulty
Lit: The BITS IN is
configured to operate
in 2-Mbits mode, and
there is 2-Mbits input.
Lit: The BITS IN is
configured to operate
in 2-MHz mode.
BITS OUT Powered off, or faulty Lit: The BITS OUT is
configured to operate
in 2-Mbits mode, and
there is 2-Mbits output.
Lit: The BITS OUT is
configured to operate
in 2-MHz mode, and
there is 2-MHz output.
• "-" : not defined.
The PPS&TOD IN and PPS&TOD OUT interfaces use RJ45 connectors and support GPSinput and output (RS422 signal level). For the wiring sequence of the RJ45 connectors,refer to Table 3-27.
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Table 3-27 Wiring Sequence of the RJ45 Connectors
PIN PPS&TOD IN PPS&TOD OUT
1 NC NC
2 NC NC
3 PPS_N PPS_N
4 RS422_GND RS422_GND
5 RS422_GND RS422_GND
6 PPS_P PPS_P
7 TOD_N TOD_N
8 TOD_P TOD_P
• "NC" : means no connection.
3.1.10 Optical Module
OverviewFor the types of hot-swappable optical modules of the ZXR10 5900E, refer to Table 3-28.
Table 3-28 Optical Module Types
Type Example
Small Form-factor Pluggable (SFP)
Small Form-factor Pluggable Plus (SFP+)
SFP AttributesFor the attributes of the SFP optical module, refer to Table 3-29.
Table 3-29 SFP Attributes
Module Trans-missionDistance
CentralWave-length
Minimumopticalpower fortransmis-sion
Maximumopticalpower fortransmis-sion
Receiv-ing sen-sitivity
Overloadopticalpower
Fibertype
SFP-GE-
RJ45
100 m — — — — — —
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Module Trans-missionDistance
CentralWave-length
Minimumopticalpower fortransmis-sion
Maximumopticalpower fortransmis-sion
Receiv-ing sen-sitivity
Overloadopticalpower
Fibertype
SFP-GE-
M500
550 m 850 -9.5 -4 -17 -3 LC-SFP
SFP-GE-
S10K
10 km 1310 -9 -3 -20 -3 LC-SFP
SFP-GE-
S40K
40 km 1310 -4.5 5 -22 -3 LC-SFP
SFP-GE-
S40K-
1550
40 km 1550 -5 0 -23 -3 LC-SFP
SFP-GE-
S80K
80 km 1550 0 5 -22 -3 0 LC-SFP
SFP-GE-
S120K
120 km 1550 0 5 -30 -10 LC-SFP
SFP-
SDA-GE-
S10K
10 km 1310 -9 -3 -19.5 -3 LC-SFP
SFP-
SDB-GE-
S10K
10 km 1310 -9 -3 -19.5 -3 LC-SFP
SFP-
SDA-GE-
S40K
40 km 1310 -2 3 -23 -3 LC-SFP
SFP-
SDB-GE-
S40K
40 km 1310 -2 3 -23 -3 LC-SFP
SFP-
FX/OC3-
M2K
2 km 1310 -19 -14 -30 -10 LC-SFP
SFP-
FX/OC3-
S15K
15 km 1310 -14 -8 -31 -8 LC-SFP
SFP-
FX/OC3-
S40K
40 km 1310 -4 0 -37 -10 LC-SFP
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Module Trans-missionDistance
CentralWave-length
Minimumopticalpower fortransmis-sion
Maximumopticalpower fortransmis-sion
Receiv-ing sen-sitivity
Overloadopticalpower
Fibertype
SFP-
FX/OC3-
S80K
80 km 1510 -3 3 -37 -10 LC-SFP
SFP-
SDA-FE-
S15K
15 km 1310 -14 -8 -31 -8 LC-SFP
SFP-
SDB-FE-
S15K
15 km 1550 -14 -8 -31 -8 LC-SFP
SFP-
SDA-FE-
S40K
40 km 1550 -4 0 -34 -3 LC-SFP
SFP-
SDB-FE-
S40K
40 km 1310 -4 0 -34 -3 LC-SFP
SFP+ AttributesFor the attributes of the SFP+ optical module, refer to Table 3-30.
Table 3-30 SFP+ Attributes
Module Trans-missionDistance
CentralWave-length
Minimumopticalpower fortransmis-sion
Maximumopticalpower fortransmis-sion
Receiv-ing sen-sitivity
Overloadopticalpower
Fibertype
SFP+-
10G-M
300 m 850 -5 dbm -1 dbm -11.1 dbm 0.5 dbm LC-SFP
SFP+-
10G-
S10K
10 km 1310 -8.2 dbm 0.5 dbm -12.6 dbm 0.5 dbm LC-SFP
SFP+-
10G-
S40K
40 km 1550 -4.7 dbm 4 dbm -15.8 dbm -1 dbm LC-SFP
SFP+-
10G-
S80K
80 km 1550 0 4 -24 -7 LC-SFP
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3.2 Cables
3.2.1 Power CablePower cables can be divided into the following types in accordance with different powermodules: AC power cable and DC power cable. These power cables are described asfollows:
l AC Power Cable
For an overview of the AC power cable for the ZXR10 5900E, see Figure 3-33.
Figure 3-33 AC Power Cable
1. 10 A 3-pin flat maleplug
2. 3 × 0.75 mm2
power cable (with3C certification)
3. 10 A T-shaped femaleplug
For the specifications of the AC power cable for the ZXR10 5900E, refer to Table 3-31.
Table 3-31 Technical Specifications of the AC Power Cable
Item Description
10 A 3-pin flat male plugTerminal model
10 A T-shaped female plug
Cable model 3 × 0.75 mm2, with 3C certification
l DC Power Cable
For an overview of the -48 V DC power cable C-PWR-084, see Figure 3-34.
Figure 3-34 DC Power Cable C-PWR-084
For the wiring sequence of the DC power cable, refer to Table 3-32.
Table 3-32 Wiring Sequence of the DC Power Cable
End A End B Power Signal
1 B1 -48 V RTN
2 B2 -48 V
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End A is connected to the -48 V input socket of the switch, and two terminals onend B are connected in accordance with labels pasted on each terminal (end B1 isconnected to -48 V GND of the DC power supply and end B2 is connected to -48 V ofthe DC power supply). For B1 and B2 label descriptions, refer to Table 3-33.
Table 3-33 End B1 and B2 Label Descriptions
End B1 End B2
-48 V RTN -48 V
3.2.2 Protective Earth CableThe protective earth cable protects the ZXR10 5900E from the lightning strike andelectromagnetic interference. For an overview of the protective earth cable, see Figure3-35.
Figure 3-35 Protective Earth Cable
Technical SpecificationsFor the technical specifications of the ZXR10 5900E protective earth cable, refer to Table3-34.
Table 3-34 Technical Specifications of the Protective Earth Cable
Parameter Specification
Cross-sectional area of the earth wire 4 mm2
Earthing screw M4
Cable lug diameter 6.3 mm
InstallationThe power input end of the ZXR10 5900E is connected with a noise filter. The switchcentral ground is directly connected to the chassis, which is also called the chassisground (PGND). This chassis ground must be securely connected to the ground so thatthe faradic current and leaked electricity can be safely released to the ground. Thismethod enhances the resistance to electromagnetic interference of the switch. Thecorrect grounding methods are as follows:
1. If a grounding strip is available at the installation site, attach one end of theyellow/green earth wire of the switch to the grounding terminal on the grounding stripand tighten the captive nut, see Figure 3-36.
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Caution!
The fire main pipe and lightning rod of a building are not suitable for grounding theswitch. The protective earth cable of the switch should be connected to the groundingdevice in the equipment room.
Figure 3-36 Grounding the Switch Through a Grounding Strip
1. Grounding terminal 2. Grounding strip
2. If there is no grounding strip but earth near the equipment room that allows a groundingbody to be buried, hammer an angle iron or steel pipe no shorter than 0.5 m into theearth, see Figure 3-37. Weld the yellow-green earth wire of the switch onto the angleiron or steel pipe, and process the joint against erosion.
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Figure 3-37 Grounding the Switch by Burying the Grounding Body into the Earth
1. Grounding terminal2. Ground
3. Angle iron or steeppipe
3. For an AC-powered switch, if none of the above two conditions is available, groundit through the PE wire of the AC power supply, see Figure 3-38. Ensure that the PEwire is properly connected to the ground in the power distribution room or at the ACtransformer side.
Figure 3-38 Grounding Through the AC PE Wire
1. AC input 2. PE wire
4. For a -48V DC-powered switch, if none of the first two conditions is available, groundit through the Return (RTN) wire of the DC power supply, see Figure 3-39. Ensure thatthe -48 V RTN wire is properly connected to the ground at the DC output interface ofthe DC power cabinet.
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Figure 3-39 Grounding Through the RTN Wire
1. Grounding terminal2. PGND ground wire3. PGND bar4. Grounding
5. -48V bar6. RTN bar7. -48VRTN8. -48V
9. AC/DC power cabinet10. DC input
3.2.3 Serial Console CableThe serial console cable is a basic cable for configuring andmaintaining the ZXR10 5900E.
The serial console cable is delivered together with theZXR10 5900E. One end of the cableis a DB9 serial connector (connected to a PC serial port), and the other end is an RJ45port (connected to the Console port of the ZXR10 5900E).
For an overview of the serial console cable, see Figure 3-40.
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Figure 3-40 ZXR10 5900E Serial Console Cable
1. D-type 9-core plasticinjection molded cable plug(hole)
2. Label/self-covering winderlaser print II
3. Horizontal twisted pairSBVVP-2×2
4. 8P8C straight cable crimpplug
For the wiring sequence of the serial console cable, refer to Table 3-35.
Table 3-35 Wiring Sequence of the Serial Console Cable
End A Color End B
2 White 3
3 Blue 6
White 45
Orange 5
4 White 7
6 Green 2
7 White 8
8 Brown 1
3.2.4 Network CableThere are two types of network cables, crossover and straight-through cables.
Straight-through cables are used in the following cases:
l Ethernet connection between a ZXR10 5900E switch and a hubl Ethernet connection between a ZXR10 5900E switch and an Ethernet switchl Ethernet connection between a computer and a hubl Ethernet connection between a computer and an Ethernet switch
Crossover cables are used in the following cases:
l Ethernet connection between two ZXR10 5900E switchesl Ethernet connection between a ZXR10 5900E switch and a computerl Ethernet connection between two hubs
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l Ethernet connection between a hub and an Ethernet switchl Ethernet connection between two Ethernet switchesl Ethernet card connection between two computers
A network cable is composed of two RJ45 connectors and four pairs of twisted pairs. Foran overview of the network cable, see Figure 3-41.
Figure 3-41 Network Cable
1. RJ45 connector 2. Twisted-pair wire 3. Network cable label
For the wiring sequence of the straight-through cable, refer to Table 3-36.
Table 3-36 Wiring Sequence of the Straight-Through Cable
End A Wire Color at End A End B Wire Color at End B
1 White-orange 1 White-orange
2 Orange 2 Orange
3 White-green 3 White-green
4 Blue 4 Blue
5 White-blue 5 White-blue
6 Green 6 Green
7 White-brown 7 White-brown
8 Brown 8 Brown
For the wiring sequence of the crossover cable, refer to Table 3-37.
Table 3-37 Wiring Sequence of the Crossover Cable
End A Wire Color at End A End B Wire Color at End B
1 White-orange 3 White-green
2 Orange 6 Green
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End A Wire Color at End A End B Wire Color at End B
3 White-green 1 White-orange
4 Blue 4 Blue
5 White-blue 5 White-blue
6 Green 2 Orange
7 White-brown 7 White-brown
8 Brown 8 Brown
For the technical specifications of the network cable, refer to Table 3-38.
Table 3-38 Technical Specifications of the Network Cable
Connector Model Specification
8P8C straight cable crimp plug E5088-001023 Rated current: 1.5 A, rated
voltage: 125 V, crimp
AWG24-28# WG round cable
3.2.5 Optical Fiber
OverviewOptical fiber is a communication medium that uses a bundle of thin glass rods to transmitmodulated light signals. There are two types of optical fibers, single-mode optical fiber andmultimode optical fiber. Users can select any type as required.
l Multimode optical fiber: transmits signals by using multiple modes of light. It is usedfor short-distance transmission and is also called the 8.3/125 um fiber.
l Single-mode optical fiber: transmits signals by using a single mode of light. It is usedfor long-distance transmission and is also called the 50/125 um or 62.5/125 um fiber.
Each fiber cable is composed of the fiber core, cladding layer, buffer layer, strengtheninglayer (aramid yarn), and the outer jacket. Fiber core is the optical transmission componentlocated at the cable core. It is normally made of silicon or glass. The chemicalcompositions of the fiber core are partially different from those of the cladding layer, sothat the light entering at a specified angle would be reflected continuously by the fibercore and cladding layer. This means that light remains in the fiber core during the entiretransmission process.
For the cross-sectional area of a fiber cable, see Figure 3-42.
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Figure 3-42 Cross-Sectional Area of a Fiber Cable
Laser Usage SafetyThe ZXR10 5900E is classified as type 1 laser equipment.
If any optional optical interface card is operating, it is recommended not to have direct eyecontact with the optical interfaces because the light beams are of high energy and mayhurt the retina.
Caution!
Any eye contact with the laser beam of the optical fiber may cause an eye injury.
Optical Fiber InstallationThere are two optical fibers for each ZXR10 5900E optical interface. One is used forreceiving packets and the other is used for sending packets. User can use single-modeoptical fibers or multimode optical fibers as required. For connector types at the two endsof optical fibers, refer to Table 3-39.
Table 3-39 Optical Fiber Connector Types
Mode Switch End Connector Type Opposite End Connector Type
FC/PC connector
SC/PC connector
Single-mode SC-PC connector (square panhead)
ST/PC connector
FC/PC connector
SC/PC connector
Multimode SC-PC connector (square panhead)
ST/PC connector
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Fibers outside the cabinet must be protected with plastic corrugated sleeves to avoid anydamage. The optical fibers in a protective sleeve cannot be wound up and the bendingpart must have a particular radian. The label at each end of an optical fiber must be clearand indicate the connection relation of the end.
3.2.6 GPS Cable
Flex-G2-STAR-PVT-1HzFigure 3-43 shows how to connect cables for the GPS receiver, Flex-G2-STAR-PVT-1Hz.End A, end B1, and end B2 are indicated by labels on the cables.
Figure 3-43 Flex-G2-STAR-PVT-1Hz Cable Connection
TX3000-SFigure 3-44 shows how to connect cables for the GPS receiver, TX3000-S.
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Figure 3-44 TX3000-S Cable Connection
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Note:
Before the hardware installation, ensure that the site meets the equipment storage andoperation requirements, including temperature, relative humidity, lightning protection,grounding, and air cleanliness requirements.
Table of Contents
Installing the ZXR10 5900E on a Desktop ..................................................................4-1Installing the ZXR10 5900E in a Cabinet ....................................................................4-3Cable Installation........................................................................................................4-6(Optional) Lightning Arrester for AC Power Supply .....................................................4-8
4.1 Installing the ZXR10 5900E on a DesktopWhen installing the ZXR10 5900E on a desktop, install four plastic feet (plastic feet andscrews are provided together with the switch) on the bottom plate of the switch, so that heatgenerated by the power supply modules can be dissipated efficiently. For how to installthe ZXR10 5900E on a desktop, see Figure 4-1 (using the ZXR10 5928E as an example)and Figure 4-2 (using the ZXR10 5952E as an example).
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Figure 4-1 Installing the ZXR10 5928E on a Desktop
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Figure 4-2 Installing the ZXR10 5952E on a Desktop
4.2 Installing the ZXR10 5900E in a CabinetTo install the ZXR10 5900E in a 19-inch cabinet, perform the following steps:
1. Install two flanges (both the flanges and screws are provided together with the switch)on the lateral sides of the switch, see Figure 4-3 (using the ZXR10 5928E as anexample) and Figure 4-4 (using the ZXR10 5952E as an example).
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Figure 4-3 Flange Installation (ZXR10 5928E)
Figure 4-4 Flange Installation (ZXR10 5952E)
2. Install a pair of symmetric holding plates inside the 19-inch cabinet to support theswitch, see Figure 4-5.
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Figure 4-5 Holding Plate Installation
3. Install the switch onto the holding plates and fix flanges onto the cabinet, see Figure4-6 (using the ZXR10 5928E as an example) and Figure 4-7 (using the ZXR10 5952Eas an example).
Figure 4-6 Switch Installation (ZXR10 5928E)
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Figure 4-7 Switch Installation (ZXR10 5952E)
4.3 Cable InstallationThe ZXR10 5900E cables include the power cable, serial console cable, network cable,and optical fiber.
4.3.1 Installation Specifications and Steps
Installation Specificationsl Laying Specifications
à Power cables are straight and with smooth arcs at turning sections.
à No connecting or welding point exists in the middle of a power cable.
à The unnecessary part of a power cable is cut off, instead of being coiled.
à The bending radius at a turning section of a power cable is five times greater thanthe cable diameter.
à Power cables must be laid without crossing, coiling, or twisting.
à Before a signal cable is installed, a connectivity test must be implemented. Bothends of the signal cable are attached with marks or engineering tags.
à Power cables and signal cables are separated with a distance of at least 300 mm.Do not bind them together.
l Binding Specifications
à Power cables and signal cables are bound separately.
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à The interval between binding power cable ties is 200 mm.
à Protect cables from being squeezed or dragged by turning devices (for example,a door), and binding is not allowed at turning sections.
à Cable fasteners are facing the same direction. Cut the excessive part evenly afterbinding.
l Upward Cabling Specification
With the upward cabling, cables are led out of the top of the DC power distributioncabinet to the top of each cabinet through a cable tray.
l Downward Cabling Specification
With the downward cabling, cables are led out of the bottom of the DC powerdistribution cabinet to the bottom of each cabinet through the antistatic floor.
Installation Steps1. Plan for the cabling path.
When planning for the cabling path, leave proper space for future expansion, so thatthe system can still operate properly after expansion.
2. Install protective earth cables and power cables.
Before installing power cables, ensure that the switch is properly grounded. For howto install the power cable, refer to 3.2.1 Power Cable. For how to install the protectiveearth cable, refer to 3.2.2 Protective Earth Cable.
3. Install signal cables.l Install the serial console cable.l Install network cables.l Install optical fibers.
For how to install the signal cables, refer to 3.2.3 Serial Console Cable, 3.2.4 NetworkCable, and 3.2.5 Optical Fiber.
4.3.2 Power-on and Power-off ProceduresPerform the following checks to the equipment room and hardware installation beforesupplying power to the ZXR10 5900E:
1. Check the temperature and humidity in the equipment room.l If the relative humidity in the equipment room is too high for a long time, current
leakage may occur or the insulating function may become invalid. Mechanicalfeatures of materials may change or metal components may rust. If the relativehumidity is too low, the insulating pad may shrink and cause loose screws. Thestatic electricity may occur in a dry environment which endangers the switchcircuit.
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l A high temperature may cause more harm. A longtime high temperature mayspeed up the aging process of insulating materials, which reduces the switchreliability and affects the switch lifespan.
2. Verify that power cables and other cables are connected correctly.3. Check other hardware.
a. Verify that devices are labeled completely, correctly and clearly.
b. Verify that the switch is firmly installed in the 19-inch standard cabinet or stablyinstalled on the desktop.
c. Verify that the cabinet is grounded properly and that the grounding resistancemeets technical requirements.
Perform the following steps to power on the ZXR10 5900E:
1. Put the plug of the AC power cable into a socket.2. Turn on the external power supply.
(Optional) To power off the ZXR10 5900E, perform the following steps:
1. Turn off the external power supply.2. Unplug the AC power cable.
4.4 (Optional) Lightning Arrester for AC Power Supply
Note:
The lightning arrester is not provided with the switch.
If an outdoor AC power cord is directly led to the switch, a connector bar with lightningprotection must be used to prevent possible damage to the switch due to lightning strike.The connector bar can be fixed on the cabinet, workbench or the wall of the equipmentroom with clips and screws. For the overview of a connector bar (lightning arrester), seeFigure 4-8.
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Figure 4-8 Connector Bar (Lightning Arrester)
1. Lightning protection module2. Reversed polarity indicator:
indicates whether L and Nare connected reversely.If L and N are connectedproperly, the indicator islit. If L and N are notconnected properly, theindicator is not lit.
3. Grounding alarm indicator:indicates whether PE isavailable for the power
supply. If it is available, theindicator is not lit. If it isunavailable, the indicator islit.
4. Connector bar switch5. Grounding screw6. Fuse7. Lightning protection
indicator: indicates whetherthe lightning protectionfunction is normal. If itis normal, the indicator is
green. If it is abnormal, theindicator is red.
8. Standard socket:connected to a powerreceptacle in the equipmentroom.
9. Multipurpose socket:connected to the powersupply unit.
10. Hanger, fixed by an M6screw
Note:l Ensure that the arrester is well grounded before use.l After connecting the AC power cord plug to the lightning arrester socket, if the green
LED is lit, it means that the lightning arrester is operating and the lightning protectionfunction has taken effect.
l The arrester should be installed and debugged in accordance with the arresterinstructions and in compliance with the local engineering technical standards andspecifications, to ensure proper grounding, bonding and isoelectric connection.
l The lightning-protection system must be checked regularly. For example, before andafter each thunderstorm season, usersmust verify that the lightning-protectionmoduleis undamaged and operates well, and the connection is in good condition. If a fault islocated, troubleshoot the fault immediately.
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Appendix AProtocols and StandardsFor the protocols and standards that the ZXR10 5900E complies with, refer to Table A-1.
Table A-1 Protocols and Standards
Standards Descriptions
IETF RFC 1661 The Point-to-Point Protocol (PPP)
IETF RFC 1990 The PPP Multilink Protocol (MP)
IETF RFC 2686 The Multi-Class Extension to Multi-Link PPP
IETF RFC 3809 Generic Requirements for Provider Provisioned Virtual Private Networks
(PPVPN)
IETF RFC 3916 Requirements for Pseudo-Wire Emulation Edge-to-Edge (PWE3)
IETF RFC 3985 Pseudo Wire Emulation Edge-to-Edge (PWE3) Architecture
IETF RFC 4026 Provider Provisioned Virtual Private Network (VPN) Terminology
IETF RFC 4110 A Framework for Layer 3 Provider-Provisioned Virtual Private Networks
(PPVPNs)
IETF RFC 4382 MPLS/BGP Layer 3 Virtual Private Network (VPN) Management
Information Base
IETF RFC 4446 IANA Allocations for Pseudowire Edge to Edge Emulation (PWE3)
IETF RFC 4448 Encapsulation Methods for Transport of Ethernet over MPLS Networks
IETF RFC 4553 Structure-Agnostic Time Division Multiplexing (TDM) over Packet (SAToP)
IETF RFC 4664 Framework for Layer 2 Virtual Private Networks (L2 VPNs)
IETF RFC 4665 Service Requirements for Layer 2 Provider-Provisioned Virtual Private
Networks
IETF RFC 4717 Encapsulation Methods for Transport of Asynchronous Transfer Mode
(ATM) over MPLS Networks
IETF RFC 4760 Multiprotocol Extensions for BGP-4
IETF RFC 4816 Pseudowire Emulation Edge-to-Edge (PWE3) Asynchronous Transfer
Mode (ATM) Transparent Cell Transport Service
IETF RFC 5086 Structure-Aware Time Division Multiplexed (TDM) Circuit Emulation
Service over Packet Switched Network (CESoPSN)
IETF RFC 5420 Encoding of Attributes for MPLS LSP Establishment Using Resource
Reservation Protocol Traffic Engineering (ouRSVP-TE)
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IETF RFC 5462 Multiprotocol Label Switching (MPLS) Label Stack Entry: "EXP" Field
Renamed to "Traffic Class" Field
IETF RFC 5586 MPLS Generic Associated Channel
IETF RFC 5654 Requirements of an MPLS Transport Profile
IETF RFC 5718 An In-Band Data Communication Network For the MPLS Transport Profile
IETF RFC 5860 Requirements for Operations, Administration, and Maintenance (OAM) in
MPLS Transport Networks
IETF RFC 5921 A Framework for MPLS in Transport Networks
IETF RFC 5960 MPLS Transport Profile Data Plane Architecture
ITU-T G.703 Physical/electrical characteristics of hierarchical digital interfaces
ITU-T G.704 Synchronous frame structures used at 1544, 6312, 2048, 8448 and 44
736 kbit/s hierarchical levels
ITU-T G.706 Frame alignment and cyclic redundancy check (CRC) procedures relating
to basic frame structures defined in Recommendation G.704
ITU-T G.707 Network node interface for the synchronous digital hierarchy (SDH)
ITU-T G.773 Protocol suites for Q-interfaces for management of transmission systems
ITU-T G.774 Synchronous digital hierarchy (SDH) management information model for
the network element view
ITU-T G.774.1 Synchronous digital hierarchy (SDH) bidirectional performance monitoring
for the network element view
ITU-T G.774.2 Synchronous digital hierarchy (SDH) configuration of the payload structure
for the network element view
ITU-T G.774.3 Synchronous digital hierarchy (SDH) management of multiplex-section
protection for the network element view
ITU-T G.774.5 Synchronous digital hierarchy (SDH) management of connection
supervision functionality (HCS/LCS) for the network element view
ITU-T G.774.6 Synchronous digital hierarchy (SDH) unidirectional performance
monitoring for the network element view
ITU-T G.774.7 Synchronous digital hierarchy (SDH) management of lower order path
trace and interface labelling for the network element view
ITU-T G.7041 Generic framing procedure (GFP)
ITU-T G.7042 Link capacity adjustment scheme (LCAS) for virtual concatenated signals
ITU-T G.780 Terms and definitions for synchronous digital hierarchy (SDH) networks
ITU-T G.783 Characteristics of synchronous digital hierarchy (SDH) equipment
functional blocks
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Appendix A Protocols and Standards
Standards Descriptions
ITU-T G.784 Synchronous digital hierarchy (SDH) management
ITU-T G.803 Architecture of transport networks based on the synchronous digital
hierarchy (SDH)
ITU-T G.805 Generic functional architecture of transport networks
ITU-T G.810 Definitions and terminology for synchronization networks
ITU-T G.811 Timing characteristics of primary reference clocks
ITU-T G.812 Timing requirements of slave clocks suitable for use as node clocks in
synchronization networks
ITU-T G.813 Timing characteristics of SDH equipment slave clocks (sec)
ITU-T G.823 The control of jitter and wander within digital networks which are based
on the 2048 kbit/s hierarchy
ITU-T G.825 The control of jitter and wander within digital networks which are based on
the synchronous digital hierarchy (SDH)
ITU-T G.826 End-to-end error performance parameters and objectives for international,
constant bit-rate digital paths and connections
ITU-T G.831 Management capabilities of transport networks based on the synchronous
digital hierarchy (SDH)
ITU-T G.832 Transport of SDH elements on PDH networks - Frame and multiplexing
structures
ITU-T G.841 Types and characteristics of SDH network protection architectures
ITU-T G.842 Interworking of SDH network protection architectures
ITU-T G.957 Optical interfaces for equipments and systems relating to the synchronous
digital hierarchy
ITU-T G.958 Digital line systems based on the synchronous digital hierarchy for use
on optical fiber cables
ITU-T G.8132 MPLS-TP shared protection ring
ITU-T G.8261 Timing and synchronization aspects of packet networks
ITU-T G.8262 Timing characteristics of synchronous Ethernet equipment slave clock
(EEC)
ITU-T I.361 B-ISDN ATM layer specification
ITU-T K.41 Resistibility of internal interfaces of telecommunication centres to surge
overvoltages
ITU-T M.20 Maintenance philosophy for telecommunication networks
ITU-T M.2100 Performance limits for bringing-into-service and maintenance of
international multi-operator PDH paths and connections
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ITU-T M.2101 Performance limits for bringing-into-service and maintenance of
international multi-operator SDH paths and multiplex sections
ITU-T M.2120 International multi-operator paths, sections and transmission systems fault
detection and localization procedures
ITU-T M.3010 Principles for a telecommunications management network
ITU-T M.3400 TMN management functions
ITU-T Q.811 Lower layer protocol profiles for the Q and X interfaces
ITU-T Q.812 Upper layer protocol profiles for the Q and X interfaces
ITU-T Y.1413 TDM-MPLS network interworking - User plane interworking
ITU-T Y.1731 OAM functions and mechanisms for Ethernet based networks
ITU-T I.432.2 155520 kbit/s and 622080 kbit/s operation
ITU-T I.432.3 B-ISDN user-network interface - Physical layer specification: 1544 kbit/s
and 2048 kbit/s operation
ITU-T I.761 Inverse multiplexing for ATM (IMA)
IEEE 802.3 Carrier sense multiple access with collision detection (CSMA/CD) access
method and physical layer specifications
IEEE 802.1ad IEEE standard for local and metropolitan area networks - Virtual bridged
local area networks - Amendment 4: Provider Bridges
IEEE 802.1ag IEEE standard for local and metropolitan area networks - Virtual bridged
local area networks - Amendment 5: Connectivity fault management
IEEE 802.3ah Media access control parameters, physical layers, and management
parameters for subscriber access networks
IEEE 1588v2 IEEE standard for a precision clock synchronization protocol for networked
measurement and control systems, version 2.
MEF 2 Requirements and Framework for Ethernet Service Protection
MEF 4 Metro Ethernet Network Architecture Framework Part 1: Generic
Framework
MEF 6.1 Metro Ethernet Services Definitions Phase 2
MEF 7.1 Phase 2 EMS-NMS Information Model
MEF 8 Implementation Agreement for the Emulation of PDH Circuits over Metro
Ethernet Networks
MEF 9 Abstract Test Suite for Ethernet Services at the UNI
MEF 10.2 Ethernet Services Attributes Phase 2
MEF 11 User Network Interface (UNI) Requirements and Framework
MEF 13 User Network Interface (UNI) Type 1 Implementation Agreement
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Standards Descriptions
MEF 14 Abstract Test Suite for Traffic Management Phase 1
MEF 18 Abstract Test Suite for Circuit Emulation Services
MEF 19 Abstract Test Suite for UNI Type 1
MEF 21 Abstract Test Suite for UNI Type 2 Part 1 Link OAM
ETSI EN 60950 Safety of Information Technology Equipment
ETSI EN 60825 Safety of Laser Products
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FiguresFigure 2-1 Overview of the ZXR10 5916E................................................................. 2-1
Figure 2-2 Overview of the ZXR10 5928E................................................................. 2-1
Figure 2-3 Overview of the ZXR10 5928E-FI............................................................. 2-2
Figure 2-4 Overview of the ZXR10 5952E (With a Main Control Board ProvidingOptical Ports).......................................................................................... 2-2
Figure 2-5 Overview of the ZXR10 5952E (With a Main Control Board ProvidingElectrical Ports)....................................................................................... 2-2
Figure 3-1 ZXR10 5916E .......................................................................................... 3-2
Figure 3-2 ZXR10 5928E .......................................................................................... 3-6
Figure 3-3 ZXR10 5928E-FI...................................................................................... 3-9
Figure 3-4 ZXR10 5952E (With a Main Control Board Providing OpticalPorts).................................................................................................... 3-13
Figure 3-5 ZXR10 5952E (With a Main Control Board Providing ElectricalPorts).................................................................................................... 3-13
Figure 3-6 ZXR10 5952E Main Control Board (With Optical Ports).......................... 3-14
Figure 3-7 ZXR10 5952E Main Control Board (With Electrical Ports) ...................... 3-14
Figure 3-8 RS-59EC-8GE-RJ45.............................................................................. 3-18
Figure 3-9 RS-59EC-8GE-SFP ............................................................................... 3-18
Figure 3-10 59EC-4XG-SF-C.................................................................................. 3-19
Figure 3-11 59EC-2XG-SF-C .................................................................................. 3-20
Figure 3-12 59EC-4GE-SF...................................................................................... 3-21
Figure 3-13 59EC-4GE-SF-C.................................................................................. 3-21
Figure 3-14 59EC-4GE-RJ...................................................................................... 3-22
Figure 3-15 RS-59EC-PWR-AC10 .......................................................................... 3-23
Figure 3-16 RS-59EC-PWR-DC10.......................................................................... 3-23
Figure 3-17 RS-59EC-PWR2-DC10........................................................................ 3-24
Figure 3-18 59EC-PWR-AC10 Power Supply Module Interface .............................. 3-25
Figure 3-19 59EC-PWR-DC10 Power Supply Module Interface .............................. 3-25
Figure 3-20 RS-59EC-PWR2-DC10 Power Supply Module Interface ...................... 3-25
Figure 3-21 RS-59EC-PWR-AC20 .......................................................................... 3-26
Figure 3-22 RS-59EC-PWR-DC20.......................................................................... 3-27
Figure 3-23 RS-59EC-PWR-AC20 Power Supply Module Interface ........................ 3-28
Figure 3-24 RS-59EC-PWR-DC20 Power Supply Module Interface ........................ 3-28
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Figure 3-25 Air Channels ........................................................................................ 3-29
Figure 3-26 ZXR10 5916E/5928E/5928E-FI Fan Module ........................................ 3-29
Figure 3-27 ZXR10 5952E Air Channels ................................................................. 3-30
Figure 3-28 ZXR10 5952E Fan Module................................................................... 3-30
Figure 3-29 ZXR10 5916E/ZXR10 5928E/ZXR10 5928E-FI MonitoringInterface ............................................................................................... 3-31
Figure 3-30 ZXR10 5952E Monitoring Interface ...................................................... 3-31
Figure 3-31 Clock Module Position ......................................................................... 3-31
Figure 3-32 59EC-BITS-GPS.................................................................................. 3-32
Figure 3-33 AC Power Cable .................................................................................. 3-36
Figure 3-34 DC Power Cable C-PWR-084 .............................................................. 3-36
Figure 3-35 Protective Earth Cable ......................................................................... 3-37
Figure 3-36 Grounding the Switch Through a Grounding Strip ................................ 3-38
Figure 3-37 Grounding the Switch by Burying the Grounding Body into theEarth..................................................................................................... 3-39
Figure 3-38 Grounding Through the AC PE Wire .................................................... 3-39
Figure 3-39 Grounding Through the RTN Wire........................................................ 3-40
Figure 3-40 ZXR10 5900E Serial Console Cable .................................................... 3-41
Figure 3-41 Network Cable ..................................................................................... 3-42
Figure 3-42 Cross-Sectional Area of a Fiber Cable ................................................. 3-44
Figure 3-43 Flex-G2-STAR-PVT-1Hz Cable Connection ......................................... 3-45
Figure 3-44 TX3000-S Cable Connection................................................................ 3-46
Figure 4-1 Installing the ZXR10 5928E on a Desktop................................................ 4-2
Figure 4-2 Installing the ZXR10 5952E on a Desktop................................................ 4-3
Figure 4-3 Flange Installation (ZXR10 5928E) .......................................................... 4-4
Figure 4-4 Flange Installation (ZXR10 5952E) .......................................................... 4-4
Figure 4-5 Holding Plate Installation.......................................................................... 4-5
Figure 4-6 Switch Installation (ZXR10 5928E)........................................................... 4-5
Figure 4-7 Switch Installation (ZXR10 5952E)........................................................... 4-6
Figure 4-8 Connector Bar (Lightning Arrester)........................................................... 4-9
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TablesTable 2-1 ZXR10 5900E Technical Specifications ..................................................... 2-4
Table 3-1 ZXR10 5916E Interface Descriptions......................................................... 3-2
Table 3-2 ZXR10 5916E System Indicator Descriptions ............................................ 3-3
Table 3-3 ZXR10 5916E Port Indicator Descriptions.................................................. 3-4
Table 3-4 ZXR10 5928E Interface Descriptions......................................................... 3-6
Table 3-5 ZXR10 5928E System Indicator Descriptions ............................................ 3-7
Table 3-6 ZXR10 5928E Port Indicator Descriptions.................................................. 3-7
Table 3-7 ZXR10 5928E-FI Interface Descriptions................................................... 3-10
Table 3-8 ZXR10 5928E-FI System Indicator Descriptions ...................................... 3-10
Table 3-9 ZXR10 5928E-FI Port Indicator Descriptions ........................................... 3-11
Table 3-10 ZXR10 5952E Interface Descriptions..................................................... 3-14
Table 3-11 ZXR10 5952E System Indicator Descriptions......................................... 3-15
Table 3-12 ZXR10 5952E Port Indicator Descriptions.............................................. 3-16
Table 3-13 RS-59EC-8GE-RJ45 Indicator Descriptions........................................... 3-18
Table 3-14 RS-59EC-8GE-SFP Indicator Descriptions ............................................ 3-18
Table 3-15 59EC-4XG-SF-C Indicator Descriptions................................................. 3-19
Table 3-16 59EC-2XG-SF-C Indicator Descriptions................................................. 3-20
Table 3-17 59EC-4GE-SF Indicator Descriptions .................................................... 3-21
Table 3-18 59EC-4GE-SF-C Indicator Descriptions................................................. 3-22
Table 3-19 59EC-4GE-RJ Indicator Descriptions..................................................... 3-22
Table 3-20 ZXR10 5916E/5928E/5928E-FI Power Supply Module Features ........... 3-24
Table 3-21 ZXR10 5916E/5928E/5928E-FI Power Supply ModuleSpecifications......................................................................................... 3-24
Table 3-22 ZXR10 5952E Power Supply Module Features...................................... 3-27
Table 3-23 ZXR10 5952E Power Supply Module Specifications .............................. 3-27
Table 3-24 ZXR10 5916E/5928E/5928E-FI Fan Module Specifications ................... 3-29
Table 3-25 ZXR10 5952E Fan Module Specifications.............................................. 3-30
Table 3-26 59EC-BITS-GPS Indicator Descriptions................................................. 3-32
Table 3-27 Wiring Sequence of the RJ45 Connectors ............................................. 3-33
Table 3-28 Optical Module Types ............................................................................ 3-33
Table 3-29 SFP Attributes ....................................................................................... 3-33
Table 3-30 SFP+ Attributes ..................................................................................... 3-35
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Table 3-31 Technical Specifications of the AC Power Cable .................................... 3-36
Table 3-32 Wiring Sequence of the DC Power Cable .............................................. 3-36
Table 3-33 End B1 and B2 Label Descriptions ........................................................ 3-37
Table 3-34 Technical Specifications of the Protective Earth Cable........................... 3-37
Table 3-35 Wiring Sequence of the Serial Console Cable ....................................... 3-41
Table 3-36 Wiring Sequence of the Straight-Through Cable .................................... 3-42
Table 3-37 Wiring Sequence of the Crossover Cable .............................................. 3-42
Table 3-38 Technical Specifications of the Network Cable....................................... 3-43
Table 3-39 Optical Fiber Connector Types .............................................................. 3-44
Table A-1 Protocols and Standards...........................................................................A-1
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GlossaryACL- Access Control List
ATM- Asynchronous Transfer Mode
BGP- Border Gateway Protocol
CESoPSN- Circuit Emulation Services over Packet Switch Network
CRC- Cyclic Redundancy Check
DHCP- Dynamic Host Configuration Protocol
EMC- Electro Magnetic Compatibility
GE- Gigabit Ethernet
GFP- Generic Framing Procedure
IGMP- Internet Group Management Protocol
IMA- Inverse Multiplexing over ATM
IP- Internet Protocol
IS-IS- Intermediate System-to-Intermediate System
LACP- Link Aggregation Control Protocol
LCAS- Link Capacity Adjustment Scheme
MPLS- Multiprotocol Label Switching
MSDP- Multicast Source Discovery Protocol
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MSTP- Multiple Spanning Tree Protocol
MTBF- Mean Time Between Failures
MTTR- Mean Time To Repair
OSPF- Open Shortest Path First
PIM-SM- Protocol Independent Multicast - Sparse Mode
PPP- Point to Point Protocol
PVLAN- Private Virtual Local Area Network
PWE3- Pseudo Wire Emulation Edge-to-Edge
QoS- Quality of Service
RIP- Routing Information Protocol
RMON- Remote Monitoring
RSTP- Rapid Spanning Tree Protocol
RSVP-TE- Resource Reservation Protocol - Traffic Engineering
SAToP- Structure-Agnostic Time division multiplexing over Pack
SFP- Small Form-Factor Pluggable
SNMP- Simple Network Management Protocol
SP- Strict Priority
SSH- Secure Shell
SSM- Synchronization Status Message
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Glossary
STP- Spanning Tree Protocol
SVLAN- Selective Virtual Local Area Network
SyncE- Synchronous Ethernet
TDM- Time Division Multiplexing
VLAN- Virtual Local Area Network
VPN- Virtual Private Network
VRRP- Virtual Router Redundancy Protocol
WRR- Weighted Round Robin
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