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AN5116-06B Optical Line Terminal Equipment Hardware Description
Version A
Code: MN000000067
FiberHome Telecommunication Technologies Co., Ltd.
January 2010
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Thank you for choosing our products.
We appreciate your business. Your satisfaction is our
goal. We will provide you with comprehensive technical
support and after-sales service. Please contact your
local sales representative, service representative or
distributor for any help needed at the contact information
shown below.
Fiberhome Telecommunication Technologies Co., Ltd.
Address: No. 5 Dongxin Rd., Hongshan Dist., Wuhan, China
Zip code: 430073
Tel: +86-27-87691549
Fax: +86-27-87691755
Website: http://www.fiberhomegroup.com
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Legal Notice
are trademarks of FiberHome Telecommunication Technologies Co., Ltd. (Hereinafter referred to as FiberHome) All brand names and product names used in this document are used foridentification purposes only and are trademarks or registered trademarksof their respective holders.
All rights reserved
No part of this document (including the electronic version) may bereproduced or transmitted in any form or by any means without prior written permission from FiberHome. Information in this document is subject to change without notice.
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TMTM
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I
Preface
Relevant Manuals Manual Description
AN5116-06B Optical Line Terminal Equipment Guide to Documentation
Introduces the delivery, retrieval method, contents, releasing, reading approach, and suggestion feedback method for the complete manual set for the AN5116-06B.
AN5116-06B Optical Line Terminal Equipment Product Description
Introduces the AN5116-06Bs network location, functional features, hardware structure, FTTx application model, equipment configuration, network management system and technical specifications. It is the foundation of the complete manual set. The other manuals extend and enrich the concepts introduced in the Product Description.
AN5116-06B Optical Line Terminal Equipment Hardware Description
Introduces the appearance, structure, functions, technical specifications, and usage method for the AN5116-06Bs cabinet, PDP, subrack, cards, cables and wires, facilitating users mastery of the hardware features of the equipment.
AN5116-06B Optical Line Terminal Equipment installation Guide
Introduces the overall installation and verifying procedure from unpacking inspection to power-on examination after the equipment is delivered on site, and provides reference information (e.g. safety principles and wiring scheme of a variety of interfaces) to guide users to install the equipment.
AN5116-06B Optical Line Terminal Equipment Configuration Guide
Introduces the method for configuring services supported by the equipment via ANM2000 Network Management System, such as basic configuration, voice service configuration, data service configuration, multicast service configuration, and software upgrading configuration, to guide users on start-up for various services and software upgrading.
AN5116-06B Optical Line Terminal Equipment GUI Reference
Introduces the shortcut menu for every card of the AN5116-06B inside ANM2000 Network Management System, including the function, parameter explanation, precautions and configuration example of every command in the shortcut menu of each card, to help users master the operation of the AN5116-06B inside ANM2000.
AN5116-06B Optical Line Introduces the AN5116-06Bs daily operation method, including early-stage preparation, precautions, early-stage operation,
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II
Manual Description
Terminal Equipment Daily Operation Guide
operation procedure, and follow-up operation, to guide users on basic operations based on hardware.
AN5116-06B Optical Line Terminal Equipment Alarm Reference
Introduces the AN5116-06Bs alarm information, including alarm names, alarm levels, possible reasons, effects on the system, and processing procedure, to guide users on effective alarm processing.
AN5116-06A Optical Line Terminal Equipment Troubleshooting Guide
Introduces the fault processing principles and methods of fault diagnosis and locating for the AN5116-06B. Also discusses the typical fault cases of various services. If the trouble is too complicated to process, users can refer to FiberHome for technical support according to the instructions in this document.
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III
Version and Usage Version Instruction
A Initial version
Intended Readers This manual is intended for the following readers:
Marketing engineers Commissioning engineers Operation and maintenance engineers
To utilize this manual, these prerequisite skills are necessary:
Electrical safety information Related mechanical engineering knowledge
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IV
Conventions
Terminology Conventions
Terminology Meaning
AN5116-06B AN5116-06B Optical Line Terminal Equipment
ANM2000 FiberHome e-Fim ANM2000 Broadband Access Network Management System
EC4B 4EPON-C Interface Card (type B)
EC8B 8EPON-C Interface Card (type B)
GC4B 4GPON-C Interface Card (type B)
C155A 4GE +110GE Optical Interface Uplink Card (CES Mode)
CE1B 32E1 Optical Interface Card (CES mode) (type B)
PUBA Public Card (type A)
HSWA Core Switch Card (EPON) (card No.: 2.115.334)
HSWA Core Switch Card (type A) (card No.: 2.115.331)
HU1A 4GE +110GE Optical Interface Uplink Card
HU2A 2GE +210GE Optical Interface Uplink Card
GU6F 6GE Optical Interface Uplink Card
Symbol Conventions
Symbol Refer to Meaning
Note Important features or operation guide.
Caution Possible injury to persons or systems, or cause traffic interruption or loss.
Warning May cause severe bodily injuries.
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Contents
Preface .................................................................................................................... IRelevant Manuals .............................................................................. IVersion and Usage ........................................................................... IIIIntended Readers ............................................................................ IIIConventions ..................................................................................... IV
1 The Cabinet .................................................................................................. 1-1
1.1 Appearance .................................................................................... 1-2
1.2 Size and Weight ............................................................................. 1-2
1.3 Structure ........................................................................................ 1-3
1.4 Typical Layout ................................................................................ 1-4
1.5 Wiring Inside the Cabinet ............................................................... 1-5
1.6 Ventilation Principle ........................................................................ 1-7
2 The PDP ....................................................................................................... 2-1
2.1 Function ......................................................................................... 2-2
2.2 Structure ........................................................................................ 2-2
2.3 Power Terminals ............................................................................ 2-3
2.3.1 Power Supply Connector Posts .................................... 2-3
2.3.2 Automatic Circuit Breakers ........................................... 2-4
2.4 Specifications ................................................................................. 2-5
3 The Subrack ................................................................................................. 3-1
3.1 Structure ........................................................................................ 3-2
3.2 Size and Weight ............................................................................. 3-2
3.3 Subrack Configuration ................................................................... 3-3
3.4 Fan Unit ......................................................................................... 3-4
3.4.1 Function ....................................................................... 3-4
3.4.2 Appearance .................................................................. 3-4
3.4.3 Indicator LED Description ............................................ 3-4
3.4.4 Specifications ............................................................... 3-5
3.5 Air Guide Unit ................................................................................. 3-5
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3.5.1 Function ....................................................................... 3-5
3.5.2 Ventilation Profile ......................................................... 3-5
3.6 Subrack Interface ........................................................................... 3-6
3.6.1 Power Interface ............................................................ 3-6
3.6.2 Environmental Monitoring Interface .............................. 3-6
3.6.3 Alarm Interface ............................................................. 3-6
3.6.4 Outband Network Management Interface .................... 3-6
4 The AN5116-06B Cards ............................................................................... 4-1
4.1 Card Configuration Table ............................................................... 4-2
4.2 The HSWA Card ............................................................................. 4-2
4.3 The EC4B Card .............................................................................. 4-5
4.4 The EC8B Card .............................................................................. 4-8
4.5 The GC4B Card ........................................................................... 4-10
4.6 The C155A Card .......................................................................... 4-13
4.7 The CE1B Card ............................................................................ 4-15
4.8 The HU1A Card ............................................................................ 4-17
4.9 The HU2A Card ............................................................................ 4-18
4.10 The GU6F Card ........................................................................... 4-20
4.11 The PUBA Card ........................................................................... 4-21
5 Cables and Connectors ................................................................................ 5-1
5.1 Power Cable .................................................................................. 5-2
5.1.1 Cabinet Power Cable ................................................... 5-2
5.1.2 Subrack Power Cable .................................................. 5-3
5.2 Fiber Jumper .................................................................................. 5-4
5.3 E1 Cable ........................................................................................ 5-5
5.4 Coaxial Clock Cable ....................................................................... 5-8
5.5 Network Cable ............................................................................... 5-9
5.6 Serial Port Cable .......................................................................... 5-11
5.7 Dry Contact Cable ........................................................................ 5-12
5.8 Subrack Ground Cable ................................................................ 5-13
Appendix A Abbreviation ................................................................................... A-1
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Figures
Figure 1-1 An illustration of the cabinet ........................................................... 1-2
Figure 1-2 The cabinet .................................................................................... 1-3
Figure 1-3 An illustration of the typical layouts ................................................ 1-4
Figure 1-4 The layout of the wires and cables in the top access wiring mode . 1-5
Figure 1-5 The layout of the wires and cables in the floor access wiring mode .... ....................................................................................................... 1-6
Figure 1-6 An illustration of ventilation principle .............................................. 1-7
Figure 2-1 Structure of the PDP (front) ............................................................ 2-2
Figure 2-2 Structure of the PDP (rear) ............................................................. 2-3
Figure 2-3 The power supply connector posts ................................................ 2-4
Figure 2-4 The automatic circuit breakers ....................................................... 2-4
Figure 3-1 Subrack structure diagram ............................................................. 3-2
Figure 3-2 An illustration of subrack configuration .......................................... 3-3
Figure 3-3 The appearance of the fan unit ...................................................... 3-4
Figure 4-1 The location of the key on the HSWA card ..................................... 4-4
Figure 4-2 The location of the keys of the EC4B card ..................................... 4-7
Figure 4-3 The location of the key of the EC8B card ..................................... 4-10
Figure 4-4 The location of the keys of the GC4B card................................... 4-13
Figure 4-5 The location of the key of the C155A card ................................... 4-15
Figure 4-6 The location of the key of the CE1B card ..................................... 4-17
Figure 5-1 The DC -48V power cable .............................................................. 5-2
Figure 5-2 The ground cable ........................................................................... 5-2
Figure 5-3 The protective earth ground cable ................................................. 5-3
Figure 5-4 The end of the cabinet power cable connected with the PDP ........ 5-3
Figure 5-5 The subrack power cable ............................................................... 5-4
Figure 5-6 The D type three-conductor plug of the subrack power cable ........ 5-4
Figure 5-7 The LC / PC optical fiber connector ............................................... 5-5
Figure 5-8 The SC / PC optical fiber connector ............................................... 5-5
Figure 5-9 The 75 E1 cable .......................................................................... 5-6
Figure 5-10 The DB-44P plug ........................................................................... 5-6
Figure 5-11 The coaxial clock cable .................................................................. 5-8
Figure 5-12 The network cables ....................................................................... 5-9
Figure 5-13 The RJ-45 connector ................................................................... 5-10
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Figure 5-14 The serial port cable .................................................................... 5-11
Figure 5-15 The dry contact cable .................................................................. 5-12
Figure 5-16 The subrack protective earth ground cable ................................. 5-13
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Tables
Table 1-1 The size and weight of the cabinets ............................................... 1-2
Table 1-2 Descriptions of alarm indicators ..................................................... 1-4
Table 2-1 Association between power supply connector posts and ACBs ..... 2-4
Table 2-2 The PDP parameter specifications ................................................. 2-5
Table 3-1 The size and weight of the subrack ................................................ 3-2
Table 3-2 Descriptions on the fan unit indicator LEDs ................................... 3-4
Table 3-3 Fan Unit Parameter Table .............................................................. 3-5
Table 4-1 The AN5116-06B card configuration table ...................................... 4-2
Table 4-2 The HSWA card interfaces ............................................................. 4-3
Table 4-3 The HSWA card indicator LEDs ..................................................... 4-3
Table 4-4 The HSWA card key ....................................................................... 4-4
Table 4-5 The HSWA card technical specifications ........................................ 4-5
Table 4-6 The EC4B card interfaces .............................................................. 4-5
Table 4-7 The EC4B card indicator LEDs ...................................................... 4-6
Table 4-8 The EC4B card keys ...................................................................... 4-6
Table 4-9 The EC4B card technical specification ........................................... 4-7
Table 4-10 The EC8B card interfaces .............................................................. 4-8
Table 4-11 The EC8B card indicator LEDs ...................................................... 4-9
Table 4-12 The EC8B card key ........................................................................ 4-9
Table 4-13 The EC8B card technical specification ......................................... 4-10
Table 4-14 The GC4B card interfaces ............................................................ 4-11
Table 4-15 The GC4B card indicator LEDs .................................................... 4-12
Table 4-16 The GC4B card key ..................................................................... 4-12
Table 4-17 The EC4B card technical specification ......................................... 4-13
Table 4-18 The C155A card interfaces ........................................................... 4-14
Table 4-19 The C155A card indicator LEDs ................................................... 4-14
Table 4-20 The C155A card key .................................................................... 4-14
Table 4-21 The C155A card technical specification ....................................... 4-15
Table 4-22 The CE1B card interfaces ............................................................ 4-16
Table 4-23 The CE1B card indicator LEDs .................................................... 4-16
Table 4-24 The CE1B card key ...................................................................... 4-16
Table 4-25 The CE1B card technical specification ......................................... 4-17
Table 4-26 The HU1A card interfaces ............................................................ 4-18
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Table 4-27 The HU1A card indicator LEDs .................................................... 4-18
Table 4-28 The HU1A card technical specification ......................................... 4-18
Table 4-29 The HU1A card interfaces ............................................................ 4-19
Table 4-30 The HU1A card indicator LEDs .................................................... 4-19
Table 4-31 The HU2A card technical specification ......................................... 4-19
Table 4-32 The GU6F card interface.............................................................. 4-20
Table 4-33 The GU6F card indicator LEDs .................................................... 4-20
Table 4-34 The HU2A card technical specification ......................................... 4-20
Table 4-35 The PUBA card interfaces ............................................................ 4-21
Table 4-36 The PUBA card indicator LEDs .................................................... 4-21
Table 4-37 The PUBA card key ...................................................................... 4-21
Table 4-38 The PUBA card technical specification ........................................ 4-22
Table 5-1 Purposes of fiber jumpers .............................................................. 5-4
Table 5-2 The corresponding relationship between the card and the fiber jumper ........................................................................................... 5-5
Table 5-3 The E1 interface pins ..................................................................... 5-7
Table 5-4 The purpose of the network cable .................................................. 5-9
Table 5-5 The wiring scheme of the straight-through network cable ............ 5-10
Table 5-6 The wiring scheme of the cross-over network cable .................... 5-10
Table 5-7 The serial port cable pins ............................................................. 5-11
Table 5-8 The wiring scheme of the dry contact cable ................................. 5-13
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Version A 1-1
1 The Cabinet
This chapter introduces the AN5116-06B cabinet and includes the following contents:
Appearance Size and Weight Structure Typical Layout Wiring Inside the Cabinet Ventilation Principle
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AN5116-06B Optical Line Terminal Equipment Hardware Description
1-2 Version A
1.1 Appearance The appearance of the cabinet is illustrated in Figure 1-1.
Figure 1-1 An illustration of the cabinet
1.2 Size and Weight In terms of height, the cabinets can be classified into 4 types. Table 1-1 provides the size and weight of each type.
Table 1-1 The size and weight of the cabinets
Size (HWD) Hardware no. Weight (Empty Cabinet) 2600mm600mm600mm 4.102.599 134kg 2200mm600mm600mm 4.102.598 118kg 2000mm600mm600mm 4.102.597 110kg 1600mm600mm600mm 4.102.596 94kg
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1 The Cabinet
Version A 1-3
1.3 Structure The structure and the names of various cabinet components are illustrated in Figure 1-2.
1
23
4
5
6
7
8
9
10
11
12
(1) Rear door (5) Channel (9) Ventilation hole at the cabinet bottom
(2) Wiring hole on the cabinet top (6) ESD protective earth ground fastener
(10) Front door
(3) Ventilation hole on the cabinet top (7) Vertical shaft (11) Side door (4) LED (8) Wiring hole at the cabinet
bottom (12) Installation hole for upper stabilization bracket
Figure 1-2 The cabinet
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AN5116-06B Optical Line Terminal Equipment Hardware Description
1-4 Version A
Three alarm indicators are installed on the top of the cabinet. Table 1-2 describes the meaning and status of each alarm.
Table 1-2 Descriptions of alarm indicators
Color Meaning Status Description
Red Emergency ON An emergency alarm in equipment
OFF No emergency alarm in equipment
Yellow Non-emergency ON A non-emergency alarm in a card
OFF No non-emergency alarm in equipment
Green Normal
1.4 Typical Layout Two subracks can be installed in each of the 4 types of cabinets. An illustration of the typical layout of each cabinet type is shown in Figure 1-3.
Figure 1-3 An illustration of the typical layouts
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1 The Cabinet
Version A 1-5
1.5 Wiring Inside the Cabinet Depending on the location of the cable channel in the equipment room, cables inside the cabinet can be arranged in the top access wiring or floor access wiring mode. Figure 1-4 and Figure 1-5 illustrate the layouts of the wires and cables under the top access wiring mode and the floor access wiring mode respectively.
Figure 1-4 The layout of the wires and cables in the top access wiring mode
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AN5116-06B Optical Line Terminal Equipment Hardware Description
1-6 Version A
Figure 1-5 The layout of the wires and cables in the floor access wiring mode
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1 The Cabinet
Version A 1-7
1.6 Ventilation Principle The ventilation principle inside the cabinet is illustrated in Figure 1-6. A flow of air is forced by the air guide unit at the lower part of the subrack into the cabinet. After being blown by the fan unit on the top of the subrack, the cooling air passes upward through the subracks and is exhausted from the top of the cabinet.
Figure 1-6 An illustration of ventilation principle
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Version A 2-1
2 The PDP
This chapter introduces the AN5116-06B PDP and includes the following contents:
Functions Structure Power Terminals Parameter Specifications
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AN5116-06B Optical Line Terminal Equipment Hardware Description
2-2 Version A
2.1 Function The PDP provides individual -48V power feeds for each subrack and cards inside the cabinet by distributing the -48V power received from the power cabinet in the equipment room.
2.2 Structure The hardware no. of PDP is 3.000.059. The PDP is small and compact. Its structural and engineering design complies with the relevant national and international standards. Figure 2-1 and Figure 2-2 shows the structure of PDP.
Note: A label is attached to the side panel behind the PDP mounting ear and is used to identify the hardware no. of PDP.
Figure 2-1 Structure of the PDP (front)
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2 The PDP
Version A 2-3
Figure 2-2 Structure of the PDP (rear)
2.3 Power Terminals
2.3.1 Power Supply Connector Posts The main and branch power supply connector posts are located on the rear panel of the PDP, as illustrated in Figure 2-3.
Main power supply connector posts: Located on the right side of the PDP rear panel, are used to connect the external power cables and input two channels of DC -48V power into the PDP.
Branch power supply connector posts: Located on the left side of PDP rear panel, are used to connect subrack power cables and output PDPs power rail to the subracks.
Caution: P1 and P2 can be used together to provide redundant power rails for each subrack, or used separately to provide a single non-redundant power rail for each subrack. If the equipment room provides only the single power rail, but the AN5116-06B requires redundant power rails or 6 branch power rails, users can use shorting plugs to short circuit -48V1 and -48V2; GND1 and GND2 of the main power supply connector posts.
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AN5116-06B Optical Line Terminal Equipment Hardware Description
2-4 Version A
Figure 2-3 The power supply connector posts
Table 2-1 shows the association between the power supply connector posts on the PDP rear panel and the automatic circuit breakers (ACBs) on the front panel.
Table 2-1 Association between power supply connector posts and ACBs
Main Power Connector Post (Rear Panel)
Branch Power Connector Post (Rear Panel)
ACB (Front Panel)
-48V1
P1_-48V1 K11
P1_-48V2 K12
P1_-48V3 K13
-48V2
P2_-48V1 K21
P2_-48V2 K22
P2_-48V3 K23
Note: P1_-48V1 refers to the -48V1 connection terminal on the P1 connector post. The rest of the connector posts are also presented in this form.
2.3.2 Automatic Circuit Breakers The ACBs are located on the front panel of the PDP, as shown in Figure 2-4.
Figure 2-4 The automatic circuit breakers
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2 The PDP
Version A 2-5
2.4 Specifications Table 2-2 shows the relevant specifications of PDP.
Table 2-2 The PDP parameter specifications
Item Parameter Size 89mm480mm230mm (HeightWidthDepth) Voltage -48V20% Current The summed current of main power is not greater than. The current output of branch power is 20A Ambient temperature -10 to 50
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Version A 3-1
3 The Subrack
This chapter introduces the AN5116-06B subrack and includes the following contents:
Structure Size and Weight Subrack Configuration Fan Unit Air Guide Unit Subrack Interface
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AN5116-06B Optical Line Terminal Equipment Hardware Description
3-2 Version A
3.1 Structure The hardware no. of the subrack is 3.061.088. The structure and the names of the various components of the subrack are illustrated in Figure 3-1.
Figure 3-1 Subrack structure diagram
3.2 Size and Weight Table 3-1 shows the size and weight of the subrack.
Table 3-1 The size and weight of the subrack
Item Parameter
Size (HeightWidthDepth) 621.5mm485mm270.2mm Weight (a subrack with only the fans installed) 17.8kg
Fan Unit
Card
Air guide unit
Mounting ear
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3 The Subrack
Version A 3-3
3.3 Subrack Configuration The subrack configuration and slot distribution are illustrated in Figure 3-2.
Figure 3-2 An illustration of subrack configuration
The AN5116-06B subrack totally has 20 vertical slots.
The slots 1-8 and 11-18 accommodate the following cards: the EC4B, the GC4B, the C155A, the CE1B, or the PUBA
The slots 9 and 10 are slightly wider and accommodate the core switch card The slots 19 and 20 are at the rightmost side of the subrack. These two
half-height slots accommodate the uplink card
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AN5116-06B Optical Line Terminal Equipment Hardware Description
3-4 Version A
3.4 Fan Unit
3.4.1 Function Located at the top of the subrack, the fan unit is used for forced air cooling. The fan unit supports auto / manual speed control with 8 speed choices. Depending on the ambient temperature, it automatically or manually changes the speed to adjust air flow and properly cool the equipment.
3.4.2 Appearance The hardware no. of the fan unit is 2.119.295.
The AN5116-06B is provided with 3 fan units. Each fan unit can be installed and removed independently. Figure 3-3 illustrates the appearance of the fan unit.
Figure 3-3 The appearance of the fan unit
3.4.3 Indicator LED Description There are two indicator LEDs on the front panel of the fan unit, as described in Table 3-2.
Table 3-2 Descriptions on the fan unit indicator LEDs
Identification Meaning Color Status Description
ACT Active LED Green ON The fan is normally powered on
OFF The fan is not powered on
ALM Alarm indicator Red ON The fan is failed
OFF The fan is working normally
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3 The Subrack
Version A 3-5
3.4.4 Specifications Table 3-3 provides the size, weight and power consumption of the fan unit.
Table 3-3 Fan Unit Parameter Table
Item Parameter
Single fan size (WidthHeightDepth) 146.2 mm x 54.5 mm x 236.5mm Single fan weight 1kg
Single fan power consumption 15W
3.5 Air Guide Unit
3.5.1 Function Located at the bottom of the subrack, the air guide unit is the air inlet for the subracks forced air cooling. During operation, ensure that the air inlet on the front panel of the air inlet and cable connection unit is free from coverings, so as to guarantee adequate air flow to cool the equipment.
3.5.2 Ventilation Profile When there are multiple subracks inside the cabinet, hot air drawn by the fan of the lower subrack will exhaust via the air guide unit at the bottom of the upper subrack, as illustrated in Figure 3-4.
Subrack
1
Card
Air guide
unit
Subrack
2
Air flow
Figure 3-1 An illustration of the subrack ventilation
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AN5116-06B Optical Line Terminal Equipment Hardware Description
3-6 Version A
3.6 Subrack Interface The air guide unit of the subrack has 4 types of interfaces.
3.6.1 Power Interface
Symbol Type Quantity Purpose
PWR1, PWR2 DC 48V 2 Connected to the PDP using the power cable of the subrack, to supply DC power to the subrack
3.6.2 Environmental Monitoring Interface
Symbol Type Quantity Purpose
ESC RJ-45 1 Not used currently
3.6.3 Alarm Interface
Symbol Type Quantity Purpose
ALM RJ-45 1 Connected to the PDP using the alarm cable of the subrack, to output the alarm signal of the subrack to the PDP
3.6.4 Outband Network Management Interface
Symbol Type Quantity Purpose
EMS RJ-45 1 Connected to the network management computer using the network cable
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Version A 4-1
4 The AN5116-06B Cards
This chapter introduces the functions, interfaces, indicator LEDs, keys and technical specifications of all cards used in the AN5116-06B. It includes the following contents:
Card Configuration Table The HSWA Card The EC4B Card The EC8B Card The GC4B Card The C155A Card The CE1B Card The HU1A Card The HU2A Card The GU6FCard The PUBA Card
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AN5116-06B Optical Line Terminal Equipment Hardware Description
4-2 Version A
4.1 Card Configuration Table Table 4-1 The AN5116-06B card configuration table
Type Slot Symbol Card No. Remarks
Core switch card 9, 10 HSWA
2.115.334 Provides EPON access function
2.115.331 Provides GPON access function
EPON interface card
1-8 11-18
EC4B 2.119.318 Provides 4 EPON interfaces
EC8B 2.119.354 Provides 8 EPON interfaces
GPON interface card
1-8 11-18
GC4B 2.119.348 Provides 4 GPON interfaces
TDM interface card
1-8 11-18
C155A 2.170.821 Provides 2 STM-1 uplink optical interfaces, and achieves 1+1 protection
CE1B 2.170.845 Provides 32 E1 uplink electrical interfaces
Uplink card 19, 20
HU1A 2.170.846 Provides 4 GE uplink optical / electrical interfaces and one 10GE uplink optical interface
HU2A 2.170.854 Provides 2 GE uplink optical / electrical interfaces and two 10GE uplink optical interfaces
GU6F 2.170.855 Provides 6 GE uplink optical interface
Public card 1-8 11-18
PUBA 2.167.177 Accesses the signals from 14 dry contacts
4.2 The HSWA Card Main functions
Provides one RS-232 interface, to connect a local CLI network management system computer;
Supports up to twelve GE uplink interfaces or four 10GE uplink interfaces; Supports 1+1 redundant protection of the uplink card; Supports multicast signaling function. Four multicast modes are provided:
Proxy, Snooping, Proxy-Snooping and controllable multicast;
Supports broadcast packet, multicast packet and unknown packet suppression and prevents generation of broadcast storms on the network;
Supports port-based and IEEE 802.1p/q-based VLAN; Supports flexible Q-in-Q VLAN and VLAN translation; Supports remote software upgrade function of all cards; Supports three voice protocols: MGCP, SIP and H.248;
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4 The Card
Version A 4-3
Supports RSTP to avoid generation of loops in the network; Supports CoS queues and processes user services on the basis of CoS; Supports environmental monitoring information and alarm information
reporting of the AN5116-06B and the connected ONUs;
Supports ACL functions and has a strict security protection mechanism; Supports DHCP Snooping and DHCP Option 82; Supports traffic shaping; Supports layer 2 switch function; Supports layer 2-7 packet classification; Supports the uplink port mirroring and trunking.
Interface Description
Table 4-2 The HSWA card interfaces
Symbol Meaning Description
Console Local Management Serial Interface Used to connect a CLI network management computer.
FE Local Management Ethernet Interface Used to connect an outband ANM2000 network management computer
Indicator LED Description
Table 4-3 The HSWA card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly
The card is the standby unit and is executing a configuration command from the active card
OFF The card has not been powered up
ALM Alarm indicator Red ON The card is resetting or experiencing an alarm.
OFF The card is working normally
MS Active / standby LED Green ON The card is active
OFF The card is standby
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AN5116-06B Optical Line Terminal Equipment Hardware Description
4-4 Version A
Caution: By default, the core switch card inserted in the slot 10 is the standby unit. When the ACT indicator LED of a standby card is blinking slowly, do not remove the active card or execute the command of active-to-standby switching.
Key Description
Table 4-4 The HSWA card key
Symbol Meaning Description
K1 Card reset key For resetting the card
K1
The mounting side The panel side
Figure 4-1 The location of the key on the HSWA card
Caution: The reset operation may result in interruption of all services carried by the AN5116-06B. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
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4 The Card
Version A 4-5
Technical Specifications
Table 4-5 The HSWA card technical specifications
Item Specification
Power consumption 40w Switching time 50ms
4.3 The EC4B Card Main Function
Provides 4 EPON interfaces; Supports multiple services including data, voice, IPTV; Supports real-time DBA; Provides flexible QoS and SLA; Provides FEC; Supports local and remote loopback tests; Provides OAM; Supports automatic discovery and detection of ONUs; Support pre-authorization and pre-configuration of ONUs; Provides automatic upgrade of ONU software for convenient ONU
maintenance and management;
Supports remote software upgrade of the card software.
Interface Description
Table 4-6 The EC4B card interfaces
Symbol Meaning Description
1-4 EPON interfaces 1-4 Connected to a remote ONU using an ODN
D Debugging interface Reserved for FiberHome use
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-6 Version A
Indicator LED Description
Table 4-7 The EC4B card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly
The card is initializing or the software is starting. The communication link between the active card and the standby card has not been established yet
Blink quickly
The card is executing a configuration command or is establishing a communication link between the active card and the standby card
OFF The card has not been powered on or the software has not been started
ALM Alarm indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between the active card and the standby card
OFF The card is working normally
LNK1-4 Port status LEDs GreenON A remote ONU is connected and authorized
OFF No remote ONU is connected or authorized
MS1-4 Active / Standby LEDs
Green
ON The optical interface is active in a PON protection group
OFF The optical interface is the standby unit in a PON protection group; or not configured with any PON protection group
Key Description
Table 4-8 The EC4B card keys
Symbol Meaning Description
K1 Reset key of EPON interfaces 1 & 2 For EPON1 system reset. May result in interruption of the connected ONU services EPON interfaces 1 & 2
K2 Reset key of EPON interfaces 3 & 4 For EPON2 system reset. May result in interruption of the connected ONU services of EPON interfaces 3 & 4
K3 Reset key of the card For card reset. May result in interruption of all connected ONU services
-
4 The Card
Version A 4-7
K1 K2 K3
The panel side The mounting side
Figure 4-2 The location of the keys of the EC4B card
Caution: The reset operation may result in interruption of all ONU services carried by the EC4B card. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical Specification
Table 4-9 The EC4B card technical specification
Item Specification
Power consumption 40w
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-8 Version A
4.4 The EC8B Card Main Function
Provides 8 EPON interfaces; Supports multiple including data, voice, IPTV; Supports real-time DBA; Provides flexible QoS and SLA; Provides FEC; Supports local and remote loopback tests; Provides OAM; Supports automatic discovery and detection of ONUs; Support pre-authorization and pre-configuration of ONUs; Provides automatic upgrade of ONU software for convenient ONU
maintenance and management;
Supports remote software upgrade of the card software.
Interface Description
Table 4-10 The EC8B card interfaces
Symbol Meaning Description
1-8 EPON interfaces 1-8 Connected to a remote ONU using an ODN
D Debugging interface Reserved for FiberHome use
-
4 The Card
Version A 4-9
Indicator LED Description
Table 4-11 The EC8B card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly
The card is initializing or the software is starting. The communication link between the active card and the standby card has not been established yet
Blink quickly
The card is executing a configuration command or is establishing a communication link between the active card and the standby card
OFF The card has not been powered on or the software has not been started
ALM Alarm indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between the active card and the standby card
OFF The card is working normally
LNK1-8 Port status LEDs GreenON A remote ONU is connected and authorized
OFF No remote ONU is connected or authorized
MS1-8 Active / Standby LEDs
Green
ON The optical interface is active in a PON protection group
OFF The optical interface is the standby unit in a PON protection group; or not configured with any PON protection group
Key Description
Table 4-12 The EC8B card key
Symbol Meaning Description
K3 Reset key of the card For card reset. May result in interruption of all connected ONU services
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-10 Version A
K3
The mounting side The panel side
Figure 4-3 The location of the key of the EC8B card
Caution: The reset operation may result in interruption of all ONU services carried by the EC8B card. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical Specification
Table 4-13 The EC8B card technical specification
Item Specification
Power consumption 60w
4.5 The GC4B Card Main Function
Provides 4 GPON interfaces; Supports multiple services including data, voice, IPTV; Supports real-time DBA; Provides flexible QoS and SLA; Provides FEC; Supports local and remote loopback tests;
-
4 The Card
Version A 4-11
Provides OAM; Supports automatic discovery and detection of ONUs; Support pre-authorization and pre-configuration of ONUs; Supports remote software upgrade of the card software.
Interface Description
Table 4-14 The GC4B card interfaces
Symbol Meaning Description
1-4 GPON interfaces 1-4 Connected to a remote ONU using an ODN
D Debugging interface Reserved for FiberHome use
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-12 Version A
Indicator LED Description
Table 4-15 The GC4B card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly
The card is initializing or the software is starting. The communication link between the active card and the standby card has not been established yet
Blink quickly
The card is executing a configuration command or is establishing a communication link between the active card and the standby card
OFF The card has not been powered on or the software has not been started
ALM Alarm indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between the active card and the standby card
OFF The card is working normally
LNK1-4 Port status LEDs GreenON A remote ONU is connected and authorized
OFF No remote ONU is connected or authorized
MS1-4 Active / Standby LEDs
Green
ON The optical interface is active in a PON protection group
OFF The optical interface is the standby unit in a PON protection group; or not configured with any PON protection group
Key Description
Table 4-16 The GC4B card key
Symbol Meaning Description
K1 Reset key of the card For card reset. May result in interruption of all connected ONU services
-
4 The Card
Version A 4-13
K1
The panel side The mounting side
Figure 4-4 The location of the keys of the GC4B card
Caution: The reset operation may result in interruption of all ONU services carried by the GC4B card. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical Specification
Table 4-17 The EC4B card technical specification
Item Specification
Power consumption 40w
4.6 The C155A Card Main Function
Provides two STM-1 uplink optical interfaces and implements 1+1 protection; Supports E1 circuit emulation; Supports 4 clock acquisition modes: Clock extraction from the input E1 line,
external input reference clock, internal free running clock and clock received from other clock cards. The clock acquisition mode can be selected according to the network condition.
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-14 Version A
Interface Description
Table 4-18 The C155A card interfaces
Symbol Meaning Description
CLIK IN1 Clock input interface The first external clock input.
CLIK IN2 Clock input interface The second external clock input.
CLIK OUT Clock output interface The external clock output.
1-2 STM-1 uplink optical interface
Provides two STM-1 optical interfaces and connects with the transmission network. If two interfaces are used at same time, optical interface 1 will be active by default.
Indicator LED Description
Table 4-19 The C155A card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly
The card is executing a configuration command
OFF The card is not powered on
ALM Alarm indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between the active card and the standby card
OFF The card is working normally
LNK1-2 Port status LEDs Green
ON The optical interface is linked up
Blink quickly
The optical interface is transmitting or receiving data
OFF The optical interface is not linked up
MS1-2 Active/Standby LEDs GreenON The optical interface is active
OFF The optical interface is the standby unit
Key Description
Table 4-20 The C155A card key
Symbol Meaning Description
K1 Reset key of the card For card reset. May result in interruption of all hosted services.
-
4 The Card
Version A 4-15
K1
The panel side The mounting side
Figure 4-5 The location of the key of the C155A card
Caution: The reset operation may result in interruption of all services carried by the C155A card. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical Specification
Table 4-21 The C155A card technical specification
Item Specification
Power consumption 40w
4.7 The CE1B Card Main Function
Provides thirty-two E1 uplink interfaces; Supports E1 circuit emulation; Supports 4 clock acquisition modes: Clock extraction from the input E1 line,
external input reference clock, internal free running clock and clock received from other clock cards. The clock acquisition mode can be selected according to the network condition.
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-16 Version A
Interface Description
Table 4-22 The CE1B card interfaces
Symbol Meaning Description
E1-E32 E1 interface Provides E1 interfaces and connects with the transmission network
CLIK IN Clock input interface For introduction of the external clock
CLIK OUT Clock output interface Connect the clock input of cascade equipment to synchronize the clock
Indicator LED Description
Table 4-23 The CE1B card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly The card is executing a configuration command
OFF The card is not powered on
ALM Alarm indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between the active card and the standby card
OFF The card is working normally
Key Description
Table 4-24 The CE1B card key
Symbol Meaning Description
K1 Reset key of the card For card reset. May result in interruption of all hosted services.
-
4 The Card
Version A 4-17
K1
The panel side The mounting side
Figure 4-6 The location of the key of the CE1B card
Caution: The reset operation may result in interruption of all services carried by the AN5116-06B. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical specification
Table 4-25 The CE1B card technical specification
Item Specification
Power consumption 40w
4.8 The HU1A Card Main Function
Provides four GE uplink optical / electrical interfaces (replace the optical / electrical module to select the optical / electrical interface) and one 10GE uplink optical interface;
Each uplink interface can be used as an inband network management interface to connect a network management computer;
Each uplink interface can be used as a cascade interface allowing multiple devices to be cascaded to the IP network via a single IP port.
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-18 Version A
Interface Description
Table 4-26 The HU1A card interfaces
Symbol Meaning Description
XFP 10GE uplink optical interface Provides10GE uplink optical interface and connects with the IP network
SFP GE uplink optical / electrical interface Provides GE uplink optical / electrical interface and connects with the IP network
Indicator LED Description
Table 4-27 The HU1A card indicator LEDs
Symbol Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly The card is executing a configuration command
OFF The card is not powered on
ALM Alarm Indicator LED
Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between an active card and a standby card
OFF The card is working normally
LNK1-5 Port status LEDs Green
ON The port is linked up
Blink quickly
The uplink port is transmitting data to or receiving data from the upper level equipment, for example, switches.
OFF The port is not linked up
WAN WAN / LAN LED GreenON The WAN mode of 10GE interface
OFF The LAN mode of 10GE interface
Technical Specification
Table 4-28 The HU1A card technical specification
Item Specification
Power consumption 10w
4.9 The HU2A Card Main Function
Provides two GE uplink optical / electrical interfaces (replace the optical / electrical module to select the optical / electrical interface) and two 10GE uplink optical interfaces;
Each uplink interface can be used as an inband network management interface to connect a network management computer;
-
4 The Card
Version A 4-19
Each uplink interface can be used as a cascade interface allowing multiple devices to be cascaded to the IP network via a single IP port.
Interface Description
Table 4-29 The HU1A card interfaces
Symbol Meaning Description
XG 10GE uplink optical interface Provides 10GE uplink optical interface and connects with the IP network
GE GE uplink optical / electrical interface Provides GE uplink optical / electrical interface and connect with the IP network
Indicator LED Description
Table 4-30 The HU1A card indicator LEDs
ID Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly The card is executing a configuration command
OFF The card is not powered on
ALM Alarm Indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between an active card and a standby card
OFF The card is working normally
LNK1-5 Port status LEDs Green
ON The port is linked up
Blink quicklyThe uplink port is transmitting data to or receiving data from the upper level equipment, for example, switches
OFF The port is not linked up
WAN WAN / LAN LED GreenON The WAN mode of 10GE interface
OFF The LAN mode of 10GE interface
Technical Specification
Table 4-31 The HU2A card technical specification
Item Specification
Power consumption 10w
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-20 Version A
4.10 The GU6F Card Main Function
Provides six GE uplink optical / electrical interfaces. Users can replace the optical / electrical module to select the corresponding optical / electrical interface. Of these interfaces, the optical interfaces 3 and 4 are auto negotiate to rates 10/100/1000M;
Each uplink interface can be used as an inband network management interface to connect a network management computer;
Each uplink interface can be used as a cascade interface allowing multiple devices to be cascaded to the IP network via a single IP port.
Interface Description
Table 4-32 The GU6F card interface
Symbol Meaning Description
GE GE uplink optical / electrical interface Provides GE uplink optical / electrical interface and connect with the IP network
Indicator LED Description
Table 4-33 The GU6F card indicator LEDs
ID Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly The card is executing a configuration command
OFF The card is not powered on
ALM Alarm Indicator Red ON
The card is resetting, experiencing an alarm or has failed to establish a communication link between an active card and a standby card
OFF The card is working normally
LNK1-6 Port status LEDs Green
ON The port is linked up
Blink quicklyThe uplink port is transmitting data to or receiving data from the upper level equipment, for example, switches
OFF The port is not linked up
Technical Specification
Table 4-34 The HU2A card technical specification
Item Specification
Power consumption 10w
-
4 The Card
Version A 4-21
4.11 The PUBA Card Main Function
Provides two interfaces for signals of 14 dry contacts.
Interface Description
Table 4-35 The PUBA card interfaces
ID Meaning Description
DC1-DC14 Environmental monitoring interface
Used to connect dry contact signals
D Debugging interface Reserved for FiberHome use
Indicator LED Description
Table 4-36 The PUBA card indicator LEDs
ID Meaning Color Status Description
ACT Active LED Green
ON The card is working normally
Blink slowly The card is initializing
Blink quickly The card is executing a configuration command
OFF The card is not powered on
ALM Alarm Indicator LED
Red ON
The card is resetting or has failed to establish a communication link between the PUBA card and the core switch card
OFF The card is working normally
Key Description
Table 4-37 The PUBA card key
ID Meaning Description
K1 Reset key of the card For card reset
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
4-22 Version A
K1
The panel side The mounting side
Caution: The reset operation may result in interruption of all services carried by the PUBA card. The reset operation is generally conducted in course of the card maintenance and upgrade. It is not recommended that the user directly issue a reset command using the reset key.
Technical Specification
Table 4-38 The PUBA card technical specification
Item Specification
Power Consumption 10w
-
Version: A 5-1
5 Cables and Connectors
This chapter introduces the AN5116-06B various cables and connectors and includes the following contents:
Power Cable Fiber Jumper E1 CABLE Clock Cable (Coaxial) Network Cable Serial-Port Cable Dry Contact Connection Cable Subrack Ground Cable
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-2 Version A
5.1 Power Cable
5.1.1 Cabinet Power Cable
Purpose
The cabinet power cable is used to input power from the equipment room to the cabinet.
Appearance View
The AN5116-06B cabinet power cable is composed of three cables, each with a unique color.
The blue power cable is a DC -48V power cable. The hardware no. is WKE3.696.097. Its appearance is shown in Figure 5-1.
Figure 5-1 The DC -48V power cable
The black power cable is a ground cable. The hardware no. is WKE3.696.098. Its appearance is shown in Figure 5-2.
Figure 5-2 The ground cable
The yellow-green power cable is a protective earth ground cable. The hardware no. is WKE3.696.100. Its appearance is shown in Figure 5-3.
-
5 Cables and Connectors
Version A 5-3
Figure 5-3 The protective earth ground cable
Figure 5-4 illustrates the connector of the cabinet power cable connected with the PDP.
Figure 5-4 The end of the cabinet power cable connected with the PDP
5.1.2 Subrack Power Cable
Purpose
The subrack power cable of the AN5116-06B is used to connect the PDP and the subracks and provide both the active and standby power supplies for the subracks. The hardware no. is WKE3.696.229. The subrack power cables have already been connected in the cabinet before delivery.
Appearance View
The subrack power cable has a two pin terminals which are connected to the PDP and a D type three-conductor plug which is connected to the subrack, as illustrated in Figure 5-5.
Uninsulated ring tongue crimped connector
Cabinet power cable
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-4 Version A
Figure 5-5 The subrack power cable
Terminal Definition
The D type three-conductor plugs pins are illustrated in Figure 5-6, the pins A1 and A3 short circuited and insulated before the plug manufacture.
Figure 5-6 The D type three-conductor plug of the subrack power cable
5.2 Fiber Jumper Purpose
The fiber jumper is used to connect the optical interface of the card and the ODF.
The purpose of the fiber jumper varies depending on the interface type as shown in Table 5-1.
Table 5-1 Purposes of fiber jumpers
Relevant Card Interface Purpose
HU1A / HU2A / GU6F SFP / XFP, GE / SG, GE
Provides GE and 10 GE optical channel to connect the IP network
C155A 1-2 Provides STM-1 optical channel to connect the transmission network
EC4B 1-4 For use of the EPON downlink channel to connect remote ONUs
GC4B 1-4 For use of the EPON downlink channel to connect remote ONUs
0V black
-48V blue
-
5 Cables and Connectors
Version A 5-5
Appearance View
The AN5116-06B uses the LC / PC and SC / PC fiber jumpers. Their connectors are illustrated in Figure 5-7 and Figure 5-8 respectively.
Figure 5-7 The LC / PC optical fiber connector
Figure 5-8 The SC / PC optical fiber connector
The corresponding relationship between the AN5116-06B card and the fiber jumper is shown in Table 5-2.
Table 5-2 The corresponding relationship between the card and the fiber jumper
Card Interface Fiber Jumper
C155A 1-2 LC / PC
EC4B 1-4 SC / PC
GC4B 1-4 SC / PC
HU1A XFP / SFP LC / PC
HU2A XG / GE LC / PC
GU6F GE LC / PC
5.3 E1 Cable Purpose
An E1 cable carries 8 channels of E1 signals. The E1 cable is used to connect the E1 interface of the CE1B Card and the MDF, and finally connect with the transmission network. The AN5116-06B uses the 75E1 cable.
Appearance View
The hardware no. of the 75E1 cable is 3.695.442. Its appearance is illustrated in Figure 5-9.
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-6 Version A
Figure 5-9 The 75 E1 cable
Terminal Definition
The end of the E1 cable connected with the CE1B card is DB-44P type plug, and the end connected with the MDF is composed of bare wires. Figure 5-10 illustrates the appearance of the DB-44P type plug; Table 5-3 lists the descriptions for its pins.
Figure 5-10 The DB-44P plug
-
5 Cables and Connectors
Version A 5-7
Table 5-3 The E1 interface pins
E1 Interface No. Pin
Coaxial Cable No. E1 Port
E1 Interface No. Pin
Coaxial Cable No. E1 Port
1-8
15, 30 1 1st E1 Rx
9-16
15, 30 1 9th E1 Rx
14, 29 2 1st E1 Tx 14, 29 2 9th E1 Tx
13, 28 3 2nd E1 Rx 13, 28 3 10th E1 Rx
12, 27 4 2nd E1 Tx 12, 27 4 10th E1 Tx
11, 26 5 3rd E1 Rx 11, 26 5 11th E1 Rx
10, 25 6 3rd E1 Tx 10, 25 6 11th E1 Tx
9, 24 7 4th E1 Rx 9, 24 7 12th E1 Rx
8, 23 8 4th E1 Tx 8, 23 8 12th E1 Tx
7, 22 9 5th E1 Rx 7, 22 9 13th E1 Rx
6, 21 10 5th E1 Tx 6, 21 10 13th E1 Tx
5, 20 11 6th E1 Rx 5, 20 11 14th E1 Rx
4, 19 12 6th E1 Tx 4, 19 12 14th E1 Tx
3, 18 13 7th E1 Rx 3, 18 13 15th E1 Rx
2, 17 14 7th E1 Tx 2, 17 14 15th E1 Tx
1, 16 15 8th E1 Rx 1, 16 15 16th E1 Rx
31, 32 16 8th E1 Tx 31, 32 16 16th E1 Tx
17-24
15, 30 1 17th E1 Rx
25-32
15, 30 1 25th E1 Rx
14, 29 2 17th E1 Tx 14, 29 2 25th E1 Tx
13, 28 3 18th E1 Rx 13, 28 3 26th E1 Rx
12, 27 4 18th E1 Tx 12, 27 4 26th E1 Tx
11, 26 5 19th E1 Rx 11, 26 5 27th E1 Rx
10, 25 6 19th E1 Tx 10, 25 6 27th E1 Tx
9, 24 7 20th E1 Rx 9, 24 7 28th E1 Rx
8, 23 8 20th E1 Tx 8, 23 8 28th E1 Tx
7, 22 9 21st E1 Rx 7, 22 9 29th E1 Rx
6, 21 10 21st E1 Tx 6, 21 10 29th E1 Tx
5, 20 11 22nd E1 Rx 5, 20 11 30th E1 Rx
4, 19 12 22nd E1 Tx 4, 19 12 30th E1 Tx
3, 18 13 23rd E1 Rx 3, 18 13 31st E1 Rx
2, 17 14 23rd E1 Tx 2, 17 14 31st E1 Tx
1, 16 15 24th E1 Rx 1, 16 15 32nd E1 Rx
31, 32 16 24th E1 Tx 31, 32 16 32nd E1 Tx
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-8 Version A
5.4 Coaxial Clock Cable Purpose
The coaxial clock cable is used to transmit E1 clock signals, and connect, CLIK IN & CLIK OUT interfaces of the AN5116-06B C155A and CE1B cards with the MDF in the equipment room.
Appearance View
The hardware no. of the coaxial clock cable is 3.695.187. Its appearance is illustrated in Figure 5-11.
Figure 5-11 The coaxial clock cable
Terminal Definition
The end of coaxial clock cable connected with the AN5116-06B is a SAA type coaxial plug, and the end connected with the MDF is composed of bare wires.
-
5 Cables and Connectors
Version A 5-9
5.5 Network Cable Purpose
The purpose of the network cable varies according to the interface type, as shown in Table 5-4.
Table 5-4 The purpose of the network cable
Relevant Card Interface Purpose
HSWA FE Connects an outband ANM2000 computer that implements network management monitor
HU1A/ HU2A / GU6F SFP / GE
Connects the IP network and implements an uplink interface
Connects an ANM2000 computer that implements network management monitor
The AN5116-06B can automatically identify a straight-through and cross-over network cable. Users can use either of the two types.
Appearance View
The hardware no. of the network cable is 3.695.095. Its appearance is illustrated in Figure 5-12.
Figure 5-12 The network cables
Terminal Definition
Both ends of the network cable are the RJ-45 connectors. The RJ-45 connector is illustrated in Figure 5-13.
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-10 Version A
Figure 5-13 The RJ-45 connector
The wiring schemes of the straight-through network cable and the cross-over network cable are shown in Table 5-5 and Table 5-6.
Table 5-5 The wiring scheme of the straight-through network cable
Pin of the Local End Wire Color Pin of the Opposite End
1 White-orange 1
2 Orange 2
3 White-green 3
4 Blue 4
5 White-blue 5
6 Green 6
7 White-brown 7
8 Brown 8
Table 5-6 The wiring scheme of the cross-over network cable
Pin of the Local End Wire Color Pin of the Opposite End
1 White-orange 3
2 Orange 6
3 White-green 1
4 Blue 4
5 White-blue 5
6 Green 2
7 White-brown 7
8 Brown 8
-
5 Cables and Connectors
Version A 5-11
5.6 Serial Port Cable Purpose
The serial port cable is used to connect the CONSOLE port of the core switch card and the serial port of network management computer.
Appearance View
The hardware no. of the serial port cable is 3.695.341. Its appearance is illustrated in Figure 5-14.
Figure 5-14 The serial port cable
Terminal Definition
The end of serial port cable connected with the AN5116-06B is a RJ-45 connector and the end connected with the network management computer is a DE-9 connector. The connection relationship of the corresponding pins is shown in Table 5-7.
Table 5-7 The serial port cable pins
Connected Signal DE-9 Connector Pin RJ45 Connector Pin
Tx 2 3
GND 5 4
Rx 3 6
-
AN5116-06B Optical Line Terminal Equipment Hardware Description
5-12 Version A
5.7 Dry Contact Cable Purpose
The dry contact cable is used to connect the DC1-DC14 interfaces of the AN5116-06B with the external dry contact devices that monitor infrared detection, smoke, electric supply, humidity, temperature, fan, vibration and access control.
Appearance View
The hardware no. of the dry contact cable is 3.695.452. Its appearance is shown in Figure 5-15.
Figure 5-15 The dry contact cable
Terminal Definition
The end of the dry contact cable connected with the DC1-DC14 interface is a RJ-45 connector and the end connected with a dry contact device is composed of bare wires.
Figure 5-1 The RJ-45 connector
The terminal definition of the dry contact cable is shown in Table 5-8.
-
5 Cables and Connectors
Version A 5-13
Table 5-8 The wiring scheme of the dry contact cable
Pin of the Local End Wire Color Opposite End
1 White-orange Earthing ground
2 Orange Dry contact device level output end
3 White-green Dry contact device level output end
4 Blue Dry contact device level output end
5 White-blue Dry contact device level output end
6 Green Dry contact device level output end
7 White-brown Dry contact device level output end
8 Brown Dry contact device level output end
5.8 Subrack Ground Cable Purpose
The subrack ground cable is used to connect the subrack with the vertical mounting flange of the cabinet to achieve protective earth ground of the subrack.
Appearance View
The hardware no. of the subrack ground cable is 3.696.084. Its appearance is illustrated in Figure 5-17.
Figure 5-16 The subrack protective earth ground cable
-
Version A A-1
Appendix A Abbreviation
ACL Access Control List DHCP Dynamic Host Configuration Protocol EPON Ethernet Passive Optical Network FE Fast Ethernet GE Gigabit Ethernet IP Internet Protocol LAN Local Area Network MGCP Media Gateway Control Protocol NGN Next Generation Network ONU Optical Network Unit PDP Power Distribution Panel SIP Session Initiation Protocol TDM Time Division Multiplex VLAN Virtual Local Area Network WAN Wide Area Network
-
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