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Zte FSAP 9800 Technical Manual

Full service access platform
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FSAP 9800
Full Service Access Platform
Technical Manual
Version 3.2.0
ZTE CORPORATION
NO. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Tel: (86) 755 26771900
Fax: (86) 755 26770801
URL: http://ensupport.zte.com.cn
E-mail: support@zte.com.cn

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  • Page 1 FSAP 9800 Full Service Access Platform Technical Manual Version 3.2.0 ZTE CORPORATION NO. 55, Hi-tech Road South, ShenZhen, P.R.China Postcode: 518057 Tel: (86) 755 26771900 Fax: (86) 755 26770801 URL: http://ensupport.zte.com.cn E-mail: support@zte.com.cn...
  • Page 2 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 CORPO- RATION is prohibited.

  • Page 3: Table Of Contents

    DHCP ...............40 User Port Loopback Detection........40 ACL .................40 SSH.................41 Broadband Operation and Maintenance......41 Online Test ...............41 SELT/DELT ..............43 ADSL Modem Remote Management ......44 Modem Management Security ........46 ATM Ping ..............47 Environment Monitoring ..........47 Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 4 National and Industrial Standards ........86 Enterprise Standards ..........88 Environment Requirements ......91 Storage Environment .............91 Transport Environment ...........92 Operation Environment ..........94 Figures ............97 Tables ............. 99 Index ............101 Glossary ............103 Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 5: Preface

    Preface Purpose This manual provides the technical information on the FSAP 9800 Full Service Access Platform. Intended This document is intended for engineers and technicians who per- Audience form installation, operation and maintenance activities on the FSAP 9800 Full Service Access Platform.

  • Page 6: Table 2 Typographical Conventions

    FSAP 9800 (V3.2.0) Full Service Access Platform Command Manual (Volume IV) � FSAP 9800 (V3.2.0) Full Service Access Platform Command Manual (Volume V) � FSAP 9800 (V3.2.0) Full Service Access Platform Routine Main- tenance Manual � FSAP 9800 (V3.2.0) Full Service Access Platform Operation Manual (CLI) �...

  • Page 7: Table 3 Mouse Operation Conventions

    RoHS Compliance ity to the earth we live, this document shall serve as formal dec- laration that FSAP 9800 manufactured by ZTE CORPORATION is in compliance with the Directive 2002/95/EC of the European Parlia- ment - RoHS (Restriction of Hazardous Substances) with respect to the following substances: �...
  • Page 8 FSAP 9800 Technical Manual This page is intentionally blank. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 9: Product Overview

    FSAP 9800 is a new product to meet global customer demands. FSAP 9800 uses the total GE bus backplane, providing abundant service access means such as ADSL2+, SHDSL, VDSL2, Ethernet, EPON, GPON, and VoIP.
  • Page 10 2. Supports high density service cards (DSL2/2+ card of 32/64 lines, VDSL2 card of 48/64 lines, SHDSL card of 32 lines) The FSAP 9800 shelf supports the following DSL subscribers: 896 ADSL2/2+ subscribers � 448 SHDSL subscribers � 448 SHDSL.bis subscribers �...

  • Page 11: Table 4 Interface Type

    Chapter 1 Product Overview terfaces FSAP 9800 provides are compliant with the related indus- try standards, open and compatible. ABLE NTERFACE Interface Note Interfaces Type optical and electrical electrical interfaces uses RJ-45 connector; interfaces Optical interface uses optical module, which is divided into single module and optical multiple modules.
  • Page 12 ADSL2/2+ lines. High QoS FSAP 9800 can provide the network services of various quality to meet the requirements of different services and customers. 1. Packet filtering, redirection, traffic mirroring, traffic statistics, traffic monitoring, traffic shaping, port queue scheduling, ACL, port rate limit and VLAN translation based on traffic rule 2.
  • Page 13 It can collect various environment messages (such as tempera- ture, humidity, power voltage and smog) and make it possible for system remote maintenance and unattended management. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 14: External Interfaces

    FSAP 9800 Technical Manual 7. FSAP 9800 uses the fan plug-in box for heat dissipation. There are three types of fan plug-in boxes: ordinary fan plug-in box, ordinary fan plug-in box (wide range voltage) and the adjustable speed fan plug-in box (with temperature and fan speed control) .
  • Page 15 The downstream rate can reach up to 2.5 Gbps. The upstream rate can reach up to 1.25 Gbps. Network FSAP 9800 provides multiple network interfaces such as FE inter- Interfaces face, GE interface, 10GE interface, and ATM interface. �...
  • Page 16 Test Interfaces FSAP 9800 supports line capture functions. It provides external line and internal line test buses that are connected to the line tester through the test interfaces on the PDBX (Power card) or LTN (Line tester) card.

  • Page 17: System Structure

    Hardware Structure ............9 Software Structure ............21 Card Configuration.............24 Hardware Structure � Types Cabinets FSAP 9800 uses two cabinet types: 19D06H22 cabinet � Dimensions: 2200 mm x 600 mm x 600 mm (Height x Width x Depth) Weight: 110 kg 19D06H16 cabinet �...

  • Page 18: Figure 2 19D06H22 Cabinet Outline

    FSAP 9800 Technical Manual 2 19D06H22 C IGURE ABINET UTLINE Power cable inlet Subscriber cable outlet Figure 3 shows the 19D06H16 cabinet outline. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 19: Figure 3 19D06H16 Cabinet Outline

    Chapter 2 System Structure 3 19D06H16 C IGURE ABINET UTLINE Power cable inlet Subscriber cable outlet � Cabinet Configuration Figure 4 shows the 19D06H22 cabinet configuration. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 20: Figure 4 19D06H22 Cabinet Configuration

    FSAP 9800 Technical Manual 4 19D06H22 C IGURE ABINET ONFIGURATION Figure 5 shows the 19D06H16 cabinet configuration. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 21: Figure 5 19D06H16 Cabinet Configuration

    Splitter shelf: Holds the DSL splitter cards, line-capture � control card, environment and power monitoring card. � Subscriber shelf outline The FSAP 9800 subscriber shelf dimensions are 399.2 mm x 482.6 mm x 387.5 mm (Height x Width x Depth). Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 22: Figure 6 Subscriber Shelf Structure

    IGURE UBSCRIBER HELF TRUCTURE � Splitter shelf outline The FSAP 9800 splitter shelf dimensions are 399.2 mm x 482.6 mm x 387.5 mm (Height x Width x Depth). Figure 7 shows the FSAP 9800 splitter shelf structure. IGURE PLITTER HELF...
  • Page 23 Chapter 2 System Structure Cards FSAP 9800 uses the control and switching cards, Ethernet inter- face sub-cards, Ethernet interface cards, ATM interface card and its sub-cards, EPON card, GPON card, subscriber cards and splitter cards, power conversion and test card, environment power moni- toring card, and line-capture control card as required.

  • Page 24: Table 6 Msct Control And Switching Card

    Upper sub-card OGFM 100 Mbps Ethernet 4-port optical interface OGFB 1000 Mbps Ethernet 4-port optical interface TGFC 10/100/1000 Mbps Ethernet 4-port electrical interface SGFN 100 Mbps Ethernet 2-port optical interface + 10/100/1000 Mbps Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 25: Table 8 Ethernet Cards

    � ATM interface card and sub-cards AINC is ATM interface card used in the FSAP 9800 system. AINC provides ATM interfaces for cascade or uplink. One AINC card can hold two sub-cards. The upper should be AICA sub-card and the lower one should be IMCA sub-card.

  • Page 26: Table 9 Ainc Sub-Cards

    (with the panel test function): 32-port ADSL2/2+ subscriber access ASNV ADSL2/2+ over PNVNA/PNVTA/ 64 subscriber POTS subscriber PNVNP lines on the front card: 64-port (Europe) panel ADSL2/2+ subscriber access Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 27 48 VDSL lines on over ISDN the front panel subscriber connecting to the access splitter card VSNV 64–port VDSL2 VNVNA 64 VDSL lines on subscriber the front panel access connecting to the splitter card Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 28: Table 12 Backplanes

    FSAP 9800 backplanes. 12 B ABLE ACKPLANES Card Function MDCA Supports broadband/narrow- band integrated service access. MDCE Supports pure broadband service access. MDCF Supports larger bandwidth, the bandwidth of each slot reaching Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 29: Software Structure

    Leads out subscriber lines in internal line test, external line test and tapped wire condition, tapped wire. Supports cascade of several LTN cards. Software Structure Figure 8 shows the FSAP 9800 system software architecture. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 30: Figure 8 Software Structure

    This subsystem supports basic protocols of TCP/IP family such as ARP, IP, and ICMP. � L2 protocol and service subsystem This subsystem supports series protocols (STP, MSTP, RSTP), LACP, IGMP snooping, address management, and VLAN management. � xPON subsystem Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 31 This subsystem can be connected to the ATM-core DSLAM. It implements the conversion from PPPoA to PPPoE. In addition, it fulfills the interconnection between FSAP 9800 and other ATM- interface equipment. � Operating system encapsulation subsystem This subsystem provides an operating system to the upper- layer software.

  • Page 32: Card Configuration

    Slot Distribution Figure 9 shows the slot distribution in an FSAP 9800 subscriber in Subscriber Shelf shelf using the MDCA/MDCE backplane. MDCF backplane works with the CSCA/CSCE/CSCT/CSCM control and switching card.

  • Page 33: Figure 10 Slot Distribution In Subscriber Shelf

    Figure 11 shows the FSAP 9800 slot distribution in this mode. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 34: Figure 11 Intermixing Of Subscriber Cards And Splitter Cards

    When the two slots hold subscriber cards without built-in splitter, only the pure broadband service can be accessed. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 35: Figure 12 Slot Distribution In Splitter Shelf

    Chapter 2 System Structure Slot Distribution Figure 12 shows the slot distribution in an FSAP 9800 splitter shelf. in Splitter Shelf 12 S IGURE ISTRIBUTION IN PLITTER HELF Note: If it is required to configure EPS, insert EPS in any slot except the slot for PDBX.
  • Page 36 FSAP 9800 Technical Manual This page is intentionally blank. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 37: Services

    Environment Monitoring .............47 Other Services ..............47 Functional Modules Based on the telecommunication standards, FSAP 9800 is designed according to the modularization idea. The classification of inter- faces makes the module function standardized and independent. The standardization and independence of module function enables the system structure to be module function specific, making it easy to upgrade the system and expand functions and services.
  • Page 38 The ATNG card is equipped with a built-in splitter. It does not need a splitter card. VDSL2 Access The VDSL2 access module consists of the VSNKC card, VINK card, Module VSNV card, splitter cards (VNKN/INVKA/VNVNA), and relevant software. Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 39 � Data encryption � Multicast service � � GPON Access The GPON access module consists of the GPNC card and relevant Module software. The GPON card application mode is classified into two types: Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 40: Broadband Access Services

    � MAC address forwarding table management � Data encryption � Multicast service � � Environment The FSAP 9800 environment monitoring module consists of the Monitoring Module following: � Power monitor unit � Power distribution monitor unit � Fan monitor unit...

  • Page 41: Adsl Service

    ADSL2/2+ has the following features: � More operation modes ADSL2/2+ technology supports three operation modes: annex A � This mode uses ADSL over POTS, with POTS service on the same pair of lines. annex B � Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 42 9800 is about 30% of that in usual operation when it is run- ning in L2 mode. of ADSL2/2+ have the power cut back � function. The power attenuation ranges from 0 dB to 40 dB. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 43: Vdsl2 Service

    The usable frequency band is added. It can provide 100 Mbps symmetric bandwidth. Features VDSL2 has the following features: � ITU-T VDSL2 standard (G.993.2) compliant � G.993.2 annex A, annex B 997/998, annex C Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 44: Shdsl Service

    (up or down). Compared with SHDLS, SHDSL.bis has the following features: � It is improved on the line code modulation mode by increas- ing the transmission rate from TCPAM16 to TCPAM32. The Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 45: Ethernet Service

    In- ternet. In addition, FSAP 9800 guarantees the service quality of links such as bandwidth and delay, making it easy for an enter- prise to create its own flexibly based on the public network.

  • Page 46: Network Security Services

    Ethernet to support voice, digital, and image services. PON also supports full duplex, 802.lp priority, and VLAN. Network Security Services This topic includes the following: � Port Location � DHCP � User Port Loopback Detection � � Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 47: Port Location

    BAS is required. If it is used to provide dedicated line batch service, it is required that the up- per-level network is layer-2 working mode. The service is for- warded based on VLAN and MAC address. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 48: Dhcp

    The records in the DHCP snooping database can be aged. If no DHCP is released during the lease time of the record, FSAP 9800 automatically deletes the record from the database. DHCP Source...

  • Page 49: Ssh

    � Modem Management Security � ATM Ping Online Test FSAP 9800 online test is used for subscriber line quality test and line fault diagnosis. It implements the test function on lines. Components Figure 15 shows the FSAP 9800 online test system.
  • Page 50 An integrated NMS is used for FSAP 9800 management. � External line tester for test line function � FSAP 9800 In the online test system, the FSAP 9800 NE can be grouped into two types: Root node: is used for communications with NetNu- �...

  • Page 51: Selt/Delt

    NE through the NMS. 7. The FSAP 9800 root node checks if the line capture command is for the local NE according to the destination NE IP address. If the command is for the local NE, this NE conducts local line release according to the slot/port in the command and then returns the line capture result.

  • Page 52: Adsl Modem Remote Management

    2. FSAP 9800 analyzes the ADSL modem information and config- uration ID. 3. FSAP 9800 also uses an SNMP trap packet to reply to the pack- ets reported by the subscriber end. This facilitates the determine the available management channel and whether re-...
  • Page 53 4. The HTTP client originates a new HTTP request according to the HTTP redirection packet and new IP address of the proxy port. 5. FSAP 9800 calculates the slot number and port number of the ADSL modem according to the proxy port, and sets up an ADSL modem TCP link (port 80).

  • Page 54: Modem Management Security

    Create a Telnet Client for a specified ADSL modem in FSAP 9800. Log in to the ADSL modem from the embedded NM interface (CLI) of FSAP 9800, and use the Telnet interface of the ADSL modem to manage it. The system consists of two parts: �...

  • Page 55: Atm Ping

    1. FSAP 9800 delivers an ATM loopback cell to the port. 2. After receiving the cell, the modem returns it to FSAP 9800. 3. FSAP 9800 checks whether the loopback is successful ac- cording to the cell sending and receiving conditions, and thus checks whether the DSL line works normally.

  • Page 56: Vlan Service

    FSAP 9800 Technical Manual VLAN Service VLAN technology implements virtual work group by dividing the devices in a local network logically rather than physically. FSAP 9800 supports the following VLAN types: � Common VLAN � PVLAN � MVLAN � SVLAN...
  • Page 57 The user-side interface belongs to the same broadcast domain with the network-side interface, isolated with other ports. FSAP 9800 uses PVLAN to implement the application described above. MVLAN MVLAN has two meanings: �...

  • Page 58: Multicast Service

    Q-in-Q VLAN implements the directly transparent transmission of the VLAN service to the peer end. The principle of the Q-in-Q VLAN is that FSAP 9800 receives the VLAN tagged packet from the lower-layer network and assigns VLAN ID of the public net- work to the packet, and then forwards it to the upper-layer network.
  • Page 59 (destination host) in the multicast group. The multicast group is identified with Type D address (224.0.0.0 – 239.255.255.255). Multicast Modes To adapt to various environments, FSAP 9800 supports the follow- ing multicast modes: � IGMP snooping In IGMP snooping mode, the system is not responsible for man- aging the status of multicast members.
  • Page 60 FSAP 9800 Technical Manual FSAP 9800 controlled multicast processes the flow following IGMP proxy standards. It decides whether to add a user port to one multicast group according to the information such as the user port, multicast group address, user...

  • Page 61: Qos

    � SP+WRR These algorithms solve packet forwarding problems in each output queue of device port according to their own principles. FSAP 9800 supports these three queue scheduling modes. Traffic Mirroring Traffic mirroring is used to monitor service flows according to the traffic classification rule.
  • Page 62 FSAP 9800 Technical Manual This page is intentionally blank. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 63: Networking Application

    Uplink and Cascading Networking ........55 PON Access Networking............57 Typical Applications............58 Overview FSAP 9800 is mainly used as IP-DSLAM. The downlink supports various broadband access modes such as ADSL, VDSL2/2+, VDSL2, SHDSL, Ethernet, EPON, and GPON. It provides high-speed Internet access services for commercial customers, enterprises and ordinary customers.

  • Page 64: Figure 19 Ethernet Uplink Networking

    FSAP 9800 Ethernet cascading networking scheme is as Figure 20 shows. In this example, FSAP 9800 is concatenated to FSAP 9803 through the interface daughter card of the control and switch card. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 65: Pon Access Networking

    Figure 21 shows the star networking mode. There is no attenua- tion due to the optical branching device. Therefore, the transmis- sion distance is larger than the point-to-multipoint mode. 21 S IGURE ETWORKING Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 66: Typical Applications

    OLT. 23 B IGURE ETWORKING Typical Applications This topic includes the following: � PON Access Applications � DSL/Ethernet Access Applications PON Access Applications access applications include the following: � FTTH Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 67: Figure 24 Ftth Networking

    The IAD or home gateway is connected to the FE interface. It provides video, audio and data services, such as the Internet ac- cess service, IPTV service, CATV service, and VoIP phone service. Figure 25 shows FTTB networking. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 68: Dsl/Ethernet Access Applications

    9800 through the port of VLAN ID 3. The Q-in-Q VLAN function is enabled on FSAP 9800. FSAP 9800 allocates the public network VLAN IDs to subscriber packets uniformly and forwards them to the upper-layer network. The packet is forwarded through the backbone network of cording to the public network VLAN ID.

  • Page 69: Figure 27 Vlan Stacking

    VLAN + Customer VLAN) after arriving at FSAP 9800. The packet is transmitted upon SP VLAN in the backbone network. After the packet arrives at FSAP 9800 on the other side of the backbone network, it checks the ID table and obtains the ID of the output PVC.

  • Page 70: Figure 28 Enterprise Network Dedicated Line Application

    ETWORK EDICATED PPLICATION IP Hotel FSAP 9800 provides high-speed Internet access and VoD functions. Application In addition, it provides the billing mode based on time and coop- erates with the Centrex attendant console of hotels, implementing the check-in and check-out services.
  • Page 71 Chapter 4 Networking Application 30 IPTV A IGURE PPLICATION Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 72 FSAP 9800 Technical Manual This page is intentionally blank. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 73: Technical Specifications And Standard Compliance

    366.7 mm×25 mm×345 mm (Height × Width ATM interface card × Depth) 366.7 mm×25 mm×345 mm (Height × Width DSL subscriber card × Depth) 366.7 mm×25 mm×345 mm (Height × Width DSL splitter card × Depth) Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 74: Table 15 Weight

    Range: -72 V DC ~ -40 V DC 17 W Working ABLE ORKING NVIRONMENT Environment Environ- ment Pa- Description rameters Ground-re- <1Ω sistance Ambient -5 ℃~55 ℃ Tempera- ture Working Hu- 5%~95% midity Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 75: Table 18 Card Power Consumption

    Do not expose the equipment to corrosive gases, smog Air Pollution or oil solvents. Smoking in the equipment room is for- bidden. Equipment Power FSAP 9800 Shelf power consumption (Full) is 1200 W. Consumption Card Power 18 C ABLE OWER...

  • Page 76: Performance Indices

    FSAP 9800 Technical Manual Card Power Consumption (W) INKNA PNVNA PNVTA INVNA PNVNP Performance Indices FSAP 9800 system performance indices include the following: � System performance indices � System configuration indices � Reliability and security indices � Service indices System Table 19 lists the FSAP 9800 system performance indices.

  • Page 77: Table 21 Reliability And Security Indices

    EPON ports in a single shelf GPON ports in a single Using MDCF backplane: 14 shelf Reliability and Table 21 lists the FSAP 9800 reliability and security indices. Security Indices 21 R ABLE ELIABILITY AND ECURITY NDICES Item Description Static anti- GB/T 17626.2-1998 (IEC 61000-4-2:1995)

  • Page 78: Table 22 Service Indices

    FSAP 9800 Technical Manual Service Indices Table 22 lists the FSAP 9800 service indices. 22 S ABLE ERVICE NDICES Services Description Access service ADSL2/2+, ADSL2/2+ over ISDN, VDSL2, SHDSL, Ethernet , EPON, and GPON Uplink mode Ethernet and Authentication IEEE 802.1x authentication...
  • Page 79 Broadcast storm control based on bandwidth storm control percentage supported by all ports Port mirroring Port mirroring function MAC address Address learning: IEEE 802.1D standard table Address table specification: supporting 16 K MAC addresses at the maximum Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 80 ADSL2/ADSL2+ SELT/DELT test ADSL modem remote management Security management on the modem management channel ATM ping Environment System power environment monitoring and alarm monitoring Version/con- Remote version download figuration management Configuration data storage Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 81: Interface Indices

    Downstream: 138 KHz - 2.208 Upstream: 30 KHz - 138 KHz Modulation technology Service supported ADSL2/2+ Standards ANSI T1.413, ITU-T G.992.1 (G.dmt), G.992.2 (G.lite), ITU-T-T G.992.3, G.992.5 VDSL2 Interface Table 24 lists the VDSL2 interface indices. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 82: Table 24 Vdsl2 Interface Indices

    6.5 km Cable type Twisted-pairs Rate change step length 64 Kbps TC-PAM Line coding Frame protocol supported Standards ITU-T G.991.2 Annex A, G.991.2 Annex B EPON Interface Table 26 lists the EPON interface indices. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 83: Table 26 Epon Interface Indices

    Maximum transmission distance 20 km Cable type Fiber Downstream: 1490 nm Central wavelength Upstream: 1310 nm Standards ITU-T G.984.x STM-1 Optical Table 28 lists the multi-mode short-distance 155M optical in- Interface terface indices. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 84: Table 28 Multi-Mode Short-Distance Atm 155M Optical

    INGLE EDIUM ISTANCE PTICAL NTERFACE NDICES Property Remarks Interface rate 155 Mbps Format STM-1, ATM over SDH Type Medium SONET OC-3/SDH STM-1 (S1.1) compatible Mode Single-mode/Multi-mode Connector SC/PC Maximum transmission distance 15 km Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 85 1280 nm - 1335 nm Average transmission optical -2.5 dBm power Extinction ratio 15 dB Receiver sensitivity -37 dBm Receiver overload optical power -5 dBm consumption Tolerant frequency offset at optical Positive frequency offset: +50 input port Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 86: Table 31 E1/T1 Interface Indices

    The transmission distance is 15 km when 9/125 µm single-mode optic fiber is used. Central wavelength 1310 nm Transmission optical power -8 dBm to -14 dBm Extinction ratio 8.2 dB Maximum receiver sensitivity -31 dBm Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 87: Table 34 100Base-Fx Multi-Mode Interface Indices

    36 1000B ABLE NTERFACE NDICES Property Remarks Interface type Interface rate 1000 Mbps Maximum transmission distance The transmission distance is 10 km when 9/125 µm single-mode fiber is used. Central wavelength 1310 nm Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 88: Table 37 1000Base-Sx Interface Indices

    10.3125 Gbps (LAN) or 9.953 Gbps (WAN) Cable type 9/125 µm single-mode fiber Maximum transmission distance 10 km Central wavelength 1310 nm Transmission optical power -6 dBm Extinction ratio 6 dB Maximum receiver sensitivity -14.4 dBm Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 89: Standard Compliance

    Maximum transmission distance 40 km Central wavelength 1550 nm Transmission optical power -1 dBm Extinction ratio 8.2 dB Maximum receiver sensitivity -14 dBm Standards IEEE 802.3-2005 Standard Compliance This topic includes the following: Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 90: International Standards

    (DSL) transceivers ITU-T G.994.1 Very high-bit-rate digital subscriber line transceivers 2 (VDSL2) ITU-T G.996.1 Test procedures for digital subscriber line (DSL) transceivers ITU-T G.997.1 Physical layer management for digital subscriber line (DSL) transceivers Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 91 ISDN user-network interface data link layer - General aspects ITU-T Q.921 (1997) ISDN user-network interface - Data link layer specification ITU-T T.30 (2005) Procedures for document facsimile transmission in the general switched telephone network Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 92 TCP/IP-based internets: MIB-II RFC 1332 (1992) Internet protocol control protocol (IPCP) RFC 1334 (1992) PPP Authentication protocols RFC 1631 (1994) IP Network address translator (NAT) RFC 1661 (1994) Point-to-Point protocol (PPP) Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 93 IEEE standard for information technology -telecommunications and information exchange between systems - local and metropolitan area networks - specific requirements Part 3: carrier sense multiple access with collision detection (CSMA/CD) access method and physical layer specifications Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 94: National And Industrial Standards

    Technical Requirements for Access Network – ADSL User-end Equipment Remote Management GB2423 Basic Environment Experiment Regulations for Electrical/Elec- tronic Products GB5080-86 General Requirements for Equipment Reliability Experiment and Guide for Experiment Periodic Plan Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 95: Table 44 Non-Compulsory Standards

    Telecommunication Equipment Reliability GB/T13426-92 Reliability Requirements for Digital Telecommunication Equipment and Experiment Standards GB/T4064-1983 Security Design Guide for Electric Equipment GB/T4942.2-1993 Low Voltage Electric Cover Protection Grade GB/T12501-1990 Electrical/Electronic Equipment Anti-Electric-Shock Protection Classification Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 96: Enterprise Standards

    Apparatus Quota Reduction Rule Q/ZX 23.020.3-2003 Reliability Design Requirement – Design Q/ZX 23.020.5-2004 Reliability Design Requirement – EMC Design Q/ZX 23.009-1999 Circuit Error Tolerance Analysis and Error Tolerance Design Guide Q/ZX 23.021-2005 Communication Equipment Reliability Specifications Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 97 Structure Design Specification (Serial Standards) Q/ZX 04.014-2000 Product Testability Design Guide Q/ZX 23.004-2002 Fault Mode Affecting Analysis Method Guide Q/ZX 23.016-2000 Fault Tree Analysis Guide Q/ZX04.100.12003 Printed Circuit Design Specification – Documentation Requirement Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 98 Apparatus Principle Diagram Storage Requirement Q/ZX04.104.22002 Circuit Board Principle Diagram Design Specification – Design Requirement Based on CANDENCE Platform Q/ZX04.1052002 PCB Board Emulation Specification Based on CANDENCE Platform Q/ZX 04.106-2003 Requirements for Panel Indicator Design Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 99: Environment Requirements

    ≤ 1120 W/m2 Waterproof The ambient environment requirements are as follows: Requirements � FSAP 9800 must be installed indoor. � No water leakage should be near the packaging box. � Install the equipment away from automatic fire protection facil- ity and central heating system where water leakage may occur.

  • Page 100: Transport Environment

    Impact Non-stable ≤ 40.00 m/s state impact response spectrum II Net load ≤ 5 kPa Transport Environment Transport environment requirements include climate require- ments, ambient environment requirements, cleanness requirements, and mechanical stress requirements. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 101: Table 50 Climate Requirements

    ATTER Matter Unit Density Floating dust mg/m No requirement Falling dust mg/m ≤ 3.00 ≤ 100 Gravel mg/m � The density of chemical active matter complies with the re- quirements listed in Table Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 102: Operation Environment

    Impact ≤ 300 m/s stable response state spectrum II impact Net load ≤ 5 kPa Operation Environment Operation environment requirements include climate require- ments, waterproof requirements, air cleanness requirements, and mechanical stress requirements. Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 103: Table 54 Climate Requirements

    The density of chemical active matter complies with the re- quirements listed in Table 56 D ABLE ENSITY OF HEMICAL CTIVE ATTER Matter Unit Density ≤ 0.30 mg/m mg/m ≤ 0.03 mg/m ≤ 1.00 ≤ 0.10 mg/m Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 104: Table 57 Mechanical Stress Requirements

    Sine oscillation Shift ≤ 3.50 mm Acceleration ≤10.00 m/s Frequency 2 Hz – 9 Hz 9 Hz – 200 Hz scope Non-stable Impact ≤ 40.00 m/s state impact response spectrum II Net load Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 105: Figures

    Figures Figure 1 Position of FSAP 9800 in the Network< ..... 1 Figure 2 19D06H22 Cabinet Outline ........10 Figure 3 19D06H16 Cabinet Outline ........11 Figure 4 19D06H22 Cabinet Configuration......12 Figure 5 19D06H16 Cabinet Configuration......13 Figure 6 Subscriber Shelf Structure........14 Figure 7 Splitter Shelf Structure ..........14 Figure 8 Software Structure ..........22...
  • Page 106 FSAP 9800 Technical Manual Figure 30 IPTV Application ..........63 Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 107: Tables

    Table 27 GPON Interface Indices..........75 Table 28 Multi-Mode Short-Distance ATM 155M Optical Interface Indices ..........76 Table 29 Multi-Mode/Single—Mode Medium-Distance ATM 155M Optical Interface Indices ......76 Table 30 Single-Mode Long-Distance ATM 155M Optical Interface Indices ..........77 Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 108 Table 52 Density of Chemical Active Matter ......94 Table 53 Mechanical Stress Requirements ......94 Table 54 Climate Requirements ...........95 Table 55 Density of Mechanical Active Matter......95 Table 56 Density of Chemical Active Matter ......95 Table 57 Mechanical Stress Requirements ......96 Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 109: Index

    Functional Modules .... 29 Software Structure .... 21 SSH......... 41 Storage Environment ..91 GPON Access Module ..31 Transport Environment ..92 Hardware Structure .....9 User Port Loopback Interface Indices ....73 Detection ......40 Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 110 FSAP 9800 Technical Manual VDSL2 Access Module ..30 VDSL2 Service ....35 VLAN Service ....48 Confidential and Proprietary Information of ZTE CORPORATION...

  • Page 111: Glossary

    - Command Line Interface - Central Office - Customer Premises Equipment - Class of Service DELT - Dual Ended Loop Test DHCP - Dynamic Host Configuration Protocol - Discrete Multi-Tone - Domain Name Server Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 112 - Hypertext Transfer Protocol - Integrated Access Device ICMP - Internet Control Message Protocol IEEE - Institute of Electrical and Electronics Engineers IGMP - Internet Group Management Protocol - Inverse Multiplexing over ATM Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 113 - Multi-Point Control Protocol MSTP - Multiple Spanning Tree Protocol MVLAN - Multicast Virtual Local Area Network - Network Element - Network Management - Network Management System - Network Time Protocol - Operation, Administration and Maintenance Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 114 - Private Virtual Local Area Network Q-in-Q - VLAN Tag in VLAN Tag - Quality of Service RADIUS - Remote Authentication Dial In User Service - Radio Frequency - Remote Feature Control - Radio Frequency Interference Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 115 TC-PAM - Trellis Coded Pulse Amplitude Modulation - Transfer Control Protocol TCP/IP - Transfer Control Protocol/Internet Protocol - Time Division Multiplexing TDMA - Time Division Multiple Access TFTP - Trivial File Transfer Protocol Confidential and Proprietary Information of ZTE CORPORATION...
  • Page 116 - Very High Bit Rate Digital Subscriber Line 2 VLAN - Virtual Local Area Network - Virtual Private Network VTU-R - VDSL Transceiver Unit - Remote Terminal VoIP - Voice over Internet Protocol - Wide Area Network - Weighted Round Robin Confidential and Proprietary Information of ZTE CORPORATION...

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