Related Manuals for Draytek Vigor VigorAccess IVD
Summary of Contents for Draytek Vigor VigorAccess IVD
- Page 1 VigorAccess IVD Integrated Voice and Data User Guide Version: 1.5 Date: 2007/05/15...
- Page 2 Trademark DrayTek is a registered trademark of DrayTek Corp. IVD products are trademarks of DrayTek Corp. Other trademarks and registered trademarks of products mentioned in this manual may be the properties of their respective owners and only used for identification purposes.
-
Page 3: Table Of Contents
Contents Introduction ...8 Conventions...8 Notice...8 Text ...8 Figures and Screen Captures ...9 1.1 Introduction ...11 1.2 Hardware Architecture ...17 1.2.1 System Architecture Overview ...17 1.2.2 IVD Master Overview ...18 1.2.3 IVD Slave Overview ...19 1.3 Box Connections ...20 1.3.1 Rack-Mounting the BOX ...20 1.3.2 Installing Chassis in Rack ...20 1.3.3 Desktop Type Installation...20 1.3.4 Power, Ground Connections on the Rear Panel ...21... - Page 4 2.2.2 Master Console Port Connection ...33 2.2.3 Master Management Port Connection ...33 2.2.4 Maser Subtend Port Connection ...34 2.2.5 Master LED Indication...35 2.3 IVD Slave Device Setup ...36 2.3.1 IVD Slave Front Panel Connection ...36 2.3.2 IVD Console Port Setup ...37 2.3.3 IVD Management Port Connection ...37 2.3.4 Line Interface Connection ...37 2.3.5 IVD LED Indication ...37...
- Page 5 3.7 VoIP Features ...46 3.8 Miscellaneous...47 Power Spectral Density ... 48 A.1 The ADSL PSD Mask...48 A.2 The ADSL2 PSD Mask...49 A.3 The ADSL2+ PSD Mask...49 Performance... 50 Splitter Specification ... 51 Version: 1.5...
- Page 6 Version: 1.5 List of Tables Table 1-1. The RS232 adaptor PINOUT ...26 Table 1-2. RJ21 Cables Pin assignment...29 Table 2-1. IVD master connection ...32 Table 2-2. IP DSLAM master DSL LED descriptions ...35 Table 2-3. IVD connections ...36 Table 2-4. IVD front panel LED and description ...38...
- Page 7 Version: 1.5 List of Figures Figure1-1. Application scenario of IVD ...12 Figure 1-2. Stacking IVD architecture...17 Figure 1-3. IVD Master Device Picture ...18 Figure 1-4. IVD Slave device picture ...19 Figure 1-5. Brackets for 19-, 23-inch rack...20 Figure 1-6. Bracket installation for front mounting on 19-, 23-inch rack ...20 Figure 1-7.
-
Page 8: Introduction
About This Guide Introduction This document is designed to assist users in using one of the series of high performance IVD device. It provides a product overview and hardware architecture descriptions, installation procedures and product features. The command line interface description is also given in this document. Conventions This guide may contain notices, figures, screen captures, and certain text conventions. -
Page 9: Figures And Screen Captures
Version: 1.5 Figures and Screen Captures This guide provides figures and screen captures as example. These examples contain sample data. This data may vary from the actual data on an installed system. - Page 10 Version: 1.5...
-
Page 11: Introduction
Version: 1.5 Preface and Hardware Architecture This chapter is divided into the following sections, Section 1.1: Introduction Section 1.2: Hardware Architecture Section 1.3: Box Connections Section 1.4: Power Connection Section 1.5: ADSL Port Connection Section 1.6: Connector and Interface Description 1.1 Introduction This document describes the new generation type integrated voice and data IVD, named IVD. -
Page 12: Figure1-1. Application Scenario Of Ivd
Version: 1.5 Figure1-1. Application scenario of IVD In this application scenario, IVD connects to IP backbone network through Gigabit Ethernet interfaces to minimize the investment of service provider. System provider can easily install and scale the network with the same framework. IVD provides mini or middle scale system architecture to system provider a very cost effective solution and deploy VoIP service without spending extra line installing fee. - Page 13 Version: 1.5 High speed Internet Service IVD aggregates DSL subscribers and terminates the encapsulated type ATM cell. Users can easily access Internet through the IP backbone network. IPDSLAM supports PPPoE, DHCP, static IP connection methods and provides Transparent LAN connection methods. IVD can support simultaneously PPPoE and DHCP connection methods on the same PVC.
- Page 14 Static IP Access method The DSLAM supports bridged encapsulation at U interface defined by DSL Forum in WT-101 (Migration to Ethernet Based DSL Aggregation, Rev.7, May. 2005) on Figure 4 stack a. DSLAM supports filtering options in order to prevent L2 traffic between DSL customers connected to the same DSLAM considering Static IP environment (Intra-DSLAM filtering).
- Page 15 Version: 1.5 Switches (L2 CPE) at ADSL endpoints The DSLAM is transparent for both untagged and tagged user traffic. Ethertype field for the 802.1ad tagging, i.e. S-Tags, will be configurable (per access node) due to WT-101 of DSL Forum. The DSLAM is transparent for L2CP (Layer 2 Control Protocols on Multicast MAC addresses) originates from subscriber.
- Page 16 Version: 1.5 IVD is able to support enterprise customer with high-speed service request. Customers can subscribe multiple ADSL 2/+ lines by integrating security router with load balance feature. By combining VoIP devices, system integrator provides multiple services with VoIP, Video on Demand, and ADSL2/+ bundle solution.
-
Page 17: Hardware Architecture
1.2 Hardware Architecture 1.2.1 System Architecture Overview IVD Master has the capability to subtend up to 6 Slaves. The hardware interface of Master unit covers Alarm relay, console, management with RJ45, Gigabits optical interface with SC connector, GE subtend interface with RJ45 connector. Users can connect the IVD slave to an subtend interface of Master, Ethernet WAN switch using a straight-through Category 5 UTP 8C8P cable with RJ-45 connectors. -
Page 18: Ivd Master Overview
1.2.2 IVD Master Overview The purpose of 19” modularized master unit is as a central unit in stacking application to manage all slave units connected with it. Master unit always collects related information from slave units. Moreover, users can manage slave units through master unit. The system can operate individually covered modular built-up system. -
Page 19: Ivd Slave Overview
Version: 1.5 1.2.3 IVD Slave Overview The role of 19” slave unit is to provide a high-performance; good services DSL feature in Internet environment. The picture of IVD unit is shown in Figure 1-4. Figure 1-4. IVD Slave device picture Slave unit supports some features are shown as follows –... -
Page 20: Box Connections
1.3 Box Connections 1.3.1 Rack-Mounting the BOX IVD can be installed on 19-, 23-inches racks by using standard brackets in 19-inch rack or optional larger brackets on 23-inch rack. The bracket for 19-, 23-inch racks are shown in Figure 1-5. Attach the brackets to the chassis in 19-, 23-inch rack as shown in Figure 1-6. -
Page 21: Power, Ground Connections On The Rear Panel
1.3.4 Power, Ground Connections on the Rear Panel The AC input and ground connections are on the rear panel and shown in Figure 1-7. You can connect the rack to ground by spring screws. The DC input and ground connections are on the rear panel and shown in Figure 1-8. You can connect the rack to ground by spring screws. -
Page 22: Power Connection
1.4 Power Connection 1.4.1 AC Power Connection Connect the female end of the power cord to the power socket on the rear panel of IVD as shown next. Connect the other end of the cord to a power outlet and make sure that no objects obstruct the airflow of the fans (located on the rear side of the unit). -
Page 23: Adsl Port Connection
1.5 ADSL Port Connection 1.5.1 MDF Connections (Main Distribution Frame) The POTS splitter should be connected to MDF on building or CO side in Figure 1-10. An MDF is usually place in the building’s telephony room or on central office room. It can terminate the outside telephone line into the building. -
Page 24: Figure 1-11. Cpp Front Panels
Figure 1-11. CPP front panels The following figures give some examples of scenario for using IVD to combine voice and data signals. The existing telephone wiring usually depends on user’s region. Here are descriptions of two typical installation scenarios. Use telephone wires with RJ-11 jacks on one end for connecting to the CPP board. -
Page 25: Connector And Interface Description
Figure 1-13. Data/Voice CPP connection 1.6 Connector and Interface Description 1.6.1 The RS232 Connector Description The RJ45 connection jet is used for CLI commands for system configurations and controlling functions in the IVD. The jet is used for initialization of the IVD during the preliminary installation. The “management cable”, as shown in Figure 1-14, converts the RJ45 to the RS232 interface. -
Page 26: Standard 10/100 Base-T Ethernet Interface Connector
The pin-out for this connector is shown in Table 1-1 as follows. 1.6.2 Standard 10/100 Base-T Ethernet Interface Connector RJ45 jets provide 10/100 Base-T Ethernet interfaces. The interface supports MDI/MDIX auto- detection of either straight or crossover RJ45 cables. These cables are used on UP1,UP2/MGN interfaces. -
Page 27: Standard 10/100/1000 Base-T Ethernet Interface Connector
1.6.3 Standard 10/100/1000 Base-T Ethernet Interface Connector RJ45 jets provide 8P8C 10/100/1000 Base-T Ethernet interfaces. The interface supports MDI/MDIX auto-detection of either straight or crossover RJ45 cables. These cables are used on GE interfaces for subtending connection on Master and UP1, UP2/MGN port on Slave. RJ-45 Straight-through Cable Pin-outs (8P8C) Signal... -
Page 28: Optical Giga Ethernet Interface As Trunk Interface With Sc Connector
1.6.4 Optical Giga Ethernet Interface as Trunk Interface with SC Connector The trunk interface is made with the SC connector, which is available in two types: Gigabits Ethernet optical long haul LX single mode interface. Gigabits Ethernet optical short haul SX multimode interface. For each type of optical transceiver, they should connect with corresponding optical fiber with proper mode. -
Page 29: Rj21 Dsl And Phone Connector
1.6.5 RJ21 DSL and Phone Connector Connections are made with two 50-pin champ cables (Figure 1-18) that are attached to the RJ21 interface on IVD. Each cable terminates with a 50-pin Telco straight champ connector. Refer to Table1-2 for cable pin assignments between the Line and the POTS splitter. Pin 26 Pin Number Wire Color TIP/RING White/blue... -
Page 30: System Connection Description
Version: 1.5 Installation In this chapter, we will introduce the installation, cable type, and LED indications in IVD. This chapter is divided into the following sections, Section 2.1: System Connection Description Section 2.2: IVD Master Device Setup Section 2.3: IVD Slave Device Setup 2.1 System Connection Description There are following steps to setup the IVD connection, Master rack-mounting setup... -
Page 31: Ivd Master Device Setup
Figure 2-1. IVD network connections overview 2.2 IVD Master Device Setup 2.2.1 IVD Master Front Panel Connection All connections are made on the front panel of the IVD except power connector. The connections on the front panel of the IVD are shown in Figure 2-2. There are some interfaces on Mater front panel. -
Page 32: Table 2-1. Ivd Master Connection
UPLINK – The uplink interface with SC connector should be long haul or short haul Gigabits optical connection. Subtend – The subtend interface with RJ45 interface is Gigabit Ethernet connection; There are six interfaces to subtend six slaves to expend DSL capacity. Figure 2-2. -
Page 33: Master Console Port Connection
2.2.2 Master Console Port Connection For the initial configuration, users need to use terminal emulator software on a computer and connect it to a network module through the console port. Users can connect the RJ-45 end of the console cable to the console port of the network module. On the other side, users can connect the other end to a serial port of a computer. -
Page 34: Maser Subtend Port Connection
Version: 1.5 2.2.4 Maser Subtend Port Connection Users can connect the uplink of IVD Slave to subtend interface of IVD Master by plug and play. Use following command to connect from Master to Slave. Admin> dsl -s <n> Press 'exit' to return Entering character mode Escape character is '^]'. -
Page 35: Master Led Indication
2.2.5 Master LED Indication After completing the interface connection and power on the units, users can inspect the LED on the front panel. The Master is consisted of two parts of features. One is controller for alarm, subtend and optical feature. The others are DSL feature. The status of these features is shown in Table 2-2. -
Page 36: Ivd Slave Device Setup
2.3 IVD Slave Device Setup 2.3.1 IVD Slave Front Panel Connection All connections are made on the front panel of the IVD except power connector. The following figure shows the connections on the front panel of the IVD. Factory Reset – A reset button is used to reset system, and then IVD will reboot to factory default configuration. -
Page 37: Ivd Console Port Setup
2.3.2 IVD Console Port Setup For the initial configuration, users need to use terminal emulator software on a computer and connect it to a network module through the console port. Users can connect the RJ-45 end of the console cable to the console port of the network module. On the other side, users can connect the other end to a serial port of a computer. -
Page 38: Table 2-4. Ivd Front Panel Led And Description
Second, after system self testing is completed, the ACT LED will begin to blink. Then connects one of two uplink ports of IVD with a blue RJ-45 cable, and the UP1 or UP2 LED will blink. Furthermore, IVD provides signal LED for CR (Critical Alarm), MS (Major Alarm), MN (Minor Alarm) and 24 ADSL ports. -
Page 39: Introduction
Version: 1.5 IVD Product Features This chapter is divided into the following sections, Section 3.1: Introduction Section 3.2: Quality of Service (QoS) Section 3.3: Security Section 3.4: Packet Filtering Section 3.5: ATM Features Section 3.6: Multicast Modes Section 3.7: VoIP Features Section 3.8: Miscellaneous 3.1 Introduction The IVD (Integrated Voice and Data) is an IP-based DSLAM (Internet Digital Subscriber Line... - Page 40 Version: 1.5 Ethernet Bridging There are three features supported for bridge function. IEEE 802.1d STD transparent bridging Up to 4000 MAC entries address table Port-based VLAN IEEE 802.3 ad standard. Supports oversized Ethernet frames up to 1526 byte. IEEE 802.1Q Tagged VLANand Double-tagged VLAN capabilities conform to IEEE 802.1ad Standard IVD uses the IEEE 802.1Q Tagged and double Tagged VLAN;...
-
Page 41: Quality Of Service (Qos)
Multi-Protocol Encapsulation IVD supports bridge and routed of multi-protocol encapsulation over ATM adaptation Layer 5 based on RFC2684. Management IVD supports some management method as listed below. Remote configuration backup/restore via EMS client/server. Remote firmware upgrade SNMP management Command Line Interface, it can be accessed by local Console or Telnet interface. Multiple PVC on single port IVD allows you to use different virtual connection also called PVC (Permanent Virtual Circuits) for different services or subscribers. -
Page 42: Rate Limiting
3.2.3 Rate Limiting IVD supports rate-limiting function in input/output both direction. Input Rate Limiting (IRL) on a per-AAL5 interface. Output Rate Limiting (ORL) on a per ATM-port basis Output Rate Limiting (ORL) on a per-physical Ethernet Interface basis. One feature supports for buffer admission control triggered using IRL. Moreover, it also supports for dynamic modification of ORL on ATM and Ethernet interfaces. -
Page 43: Fdb Conflicting Traps
3.3.2 FDB Conflicting Traps IVD will transmit a trap packet to central manager when any MAC address moves from one port to another port. 3.3.3 MAC Address Tracking IVD can be configured to track a global list of MAC addresses. When these MAC addresses move from one port to another port, a trap is generated. -
Page 44: Classifier Tree
DSLAM is able to store at least N*8 MAC addresses, where "N=Maximum number of DSL ports on the DSLAM". In order to prevent source MAC flooding attacks the DSLAM is able to limit the number of source MAC addresses learned from a PVC. MAC addresses learning on the Network Side Ethernet interface is configurable (enable/disable). -
Page 45: Multicast Modes
Version: 1.5 Transmit and receive PDU sizes Management mode modification per port Max VPI/VCI bits (interface must be disabled) Maximum number of VCCs supported OAM source ID 3.6 Multicast Modes IGMPv2 operation is provided and conform to RFC2236. IVD supports IGMP snooping function IVD supports configurable filtering of IGMP Membership Report messages. -
Page 46: Version
Version: 1.5 3.7 VoIP Features VoIP Telephony It is based on MGCP/SGCP, SIP call signaling. IVD supports codec with G.711, G.729a, G.726 and G.723. IVD supports On-net to On-net, On-net to Off-net, Off-net to On-net and Off-net to Off-net call. IVD supports VAD (silience suppression). -
Page 47: Miscellaneous
Version: 1.5 3.8 Miscellaneous IVD supports some other important features as below. Load-sharing Redundancy These two Ethernet uplinks of IVD can be used as a single load-shared uplink for data and management path, with a provision to fall back to single one, in the event one of the links failed. Active Standby Redundancy These two Ethernet uplinks of IVD can be used in an active stand by mode for data and management path, with a provision to fall back to standby link, in the event of the active links... -
Page 48: A Power Spectral Density
Version: 1.5 Power Spectral Density A.1 The ADSL PSD Mask The IVD system supports the PSD masks defined in ETSI TS 101 388 v1.3.1, Chapter 4.2.2, FDD ADSL over ISDN. The PSD mask transmitted on the ATU-C is shown as below. Figure A.1 The IVD ADSL PSD mask The IVD transceiver will not be reset by a micro interruption event of duration t = 10ms, which occur at an event frequency of 0,2 Hz is according to ETSI TS 101 388 v1.3.1, The Longitudinal... -
Page 49: The Adsl2 Psd Mask
A.2 The ADSL2 PSD Mask The ADSL2 mode of IVD system supports the PSD masks defined in defined in ITU-T Recommendation G.992.3, Annex B.1.3 and Annex B.2.2, FDD ADSL over ISDN The ADSL2 transceiver will not be reset by a micro interruption event of duration t = 10ms, which occur at an event frequency of 0,2 Hz. -
Page 50: B Performance
Version: 1.5 Performance IVD of ADSL and ADSL2 system can work on that loop range and provide immunity to noise as it is specified in ETSI TS 101 388 V1.3.1. Performance of line transmission system (BER) is not higher than 10... -
Page 51: C Splitter Specification
Version: 1.5 Splitter Specification Splitter requirement The splitter is responsible for separating base-band POTS or ISDN signals from high-pass ADSL signals. Splitter terminates the copper telephone lines and distributes POTS/ISDN and ADSL signals. At exchange side of the ADSL transmission system passive ISDN splitter is used. The ISDN splitter can separate ISDN BRA signal, which is conform with ETR 080 ANNEX A (2B1Q line code) from ADSL signals.