AudioCodes Mediant 3000 Installation Manual
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AudioCodes Mediant 3000 Installation Manual

With tp-6310 or tp-8410 blade, with ipm-6310 blade
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Installation Manual
Version 5.8
Document #: LTRT-94704
July 20009

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Summary of Contents for AudioCodes Mediant 3000

  • Page 1 Installation Manual Version 5.8 Document #: LTRT-94704 July 20009...

  • Page 3: Table Of Contents

    Installation Manual Contents Table of Contents Introduction ....................... 11     Physical Description ..................13     2.1  Components ......................13  2.2  Front and Rear Panels ................... 14  2.3  Chassis ........................16  2.3.1 Dimensions ......................16     2.3.2 Card Cage and Slot Assignment ................16  ...
  • Page 4     5.1.3 Assigning an IP Address using the CLI ..............80     5.2  Assigning an IP Address for Mediant 3000 HA ............82  5.2.1 Using the Web Interface ..................82     5.2.2 Using the EMS ......................85  ...
  • Page 5 Figure 2-14: RTM-8410 for 16 Spans (Single SCSI Port) ..............32   Figure 2-15: RTM-8410 Redundant for 16 Spans in Slot 4 (Only for Mediant 3000 HA) ...... 32   Figure 2-16: Two RTM-8410's for 84 Spans (Two SCSI Ports) in Slots 2 and 4 ........33  ...
  • Page 6 Mediant 3000 & IPmedia 3000 Figure 5-5: Maintenance Actions Page....................84   Figure 5-6: Adding a Region in EMS for Mediant 3000 HA ..............86   Figure 5-7: Defining IP Address of Mediant 3000 .................. 86   Figure 5-8: Defining Global IP Address in EMS ..................87  ...
  • Page 7 Installation Manual Contents List of Tables Table 2-1: Number and Type of Blades per Device ................13   Table 2-2: Front-Panel Component Descriptions .................. 15   Table 2-3: Rear-Panel Component Descriptions ................... 15   Table 2-4: Chassis Dimensions ......................16  ...
  • Page 8 Mediant 3000 & IPmedia 3000 Reader’s Notes Installation Manual Document #: LTRT-94704...
  • Page 9 Notice This document describes the physical description and hardware installation of AudioCodes Mediant 3000 media gateway housing either the TP-6310 or TP-8410 cPCI blades, and IPmedia 3000 media server housing the IPM-6310 cPCI blade. Information contained in this document is believed to be accurate and reliable at the time of printing.
  • Page 10 • 8410 Blade: refers to TP-8410 blade. Note: IPmedia 3000/IPM-6310 supports only IP interfaces (Gigabit Ethernet). Therefore, ignore the PSTN ports on the rear panel. Note: The 8410 blades are applicable only to Mediant 3000. Installation Manual Document #: LTRT-94704...

  • Page 11: Introduction

    Installation Manual 1. Introduction Introduction This document provides a hardware description and step-by-step instructions on installing AudioCodes 3000 Family Series of VoIP media gateways and media servers. The 3000 Family Series includes the following products: Media Gateway: • Mediant 3000, housing one or two of the following blade types: ♦...
  • Page 12 Mediant 3000 & IPmedia 3000 Reader’s Notes Installation Manual Document #: LTRT-94704...

  • Page 13: Physical Description

    I/O connections to the supported interfaces (Gigabit Ethernet and DS1 PSTN). The number and type of blades housed in the device's chassis depends on the device (Mediant 3000 or IPmedia 3000) and mode (Simplex or High Availability - HA), as shown in the table below:...

  • Page 14: Front And Rear Panels

    The 8410 blades (i.e., TP-8410 and RTM-8410) are implemented only by Mediant 3000. • HA refers to 1+1 High Availability mode, supported only by Mediant 3000. • For blade chassis slot assignment, refer to ''Card Cage and Slot Assignment'' on page 16.

  • Page 15: Figure 2-2: Rear Panel Main Components

    Installation Manual 2. Physical Description Table 2-2: Front-Panel Component Descriptions Item # Component Description Electrostatic discharge (ESD) terminal. Fan Tray module (housing the Air Filter), providing system alarm LEDs, ACO button, and component location diagram indicating numbering of blade slots and Power Supply units. Latches and screws for securing blades to chassis.

  • Page 16: Chassis

    RTM into a slot; otherwise, you may damage the blade/RTM or midplane. • High Availability (HA) is applicable only to Mediant 3000. • The 8410 blades are applicable only to Mediant 3000.

  • Page 17: Table 2-5: Blade And Rtm Chassis Slot Assignment

    Table 2-5: Blade and RTM Chassis Slot Assignment Chassis Slot # Implemented Blade Panel 6310 Blade Series 8410 Blade Series (Applicable only to Mediant 3000) Front 6310 blade. 8410 blade. Note: For HA, this is the active Note: For HA, this is the active blade. blade.

  • Page 18: Figure 2-3: Front- And Rear-Panel Slot Assignment For Ipmedia 3000 And Mediant 3000 Simplex With

    The figures below show the chassis slot assignment when implementing the 6310 or 8410 blade series: Device Implementing 6310 Blade Series: Figure 2-3: Front- and Rear-Panel Slot Assignment for IPmedia 3000 and Mediant 3000 Simplex with 6310 Blades Installation Manual...

  • Page 19: Figure 2-4: Front- And Rear-Panel Slot Assignment For Mediant 3000 Ha With 6310 Blades

    3000 HA). In Simplex mode, this slot is covered with a blank panel. Slot 4 front panel: Standby (redundant) SA/M3K blade (applicable only to Mediant 3000 HA). In a Simplex mode, this slot is covered with a blank panel. Blank panels covering unoccupied slots.

  • Page 20: Figure 2-5: Front- And Rear-Panel Slot Assignment For Mediant 3000 Simplex With 8410 Blades

    Mediant 3000 & IPmedia 3000 Mediant 30000 Implementing 8410 Blade Series: Figure 2-5: Front- and Rear-Panel Slot Assignment for Mediant 3000 Simplex with 8410 Blades Note: For 16-Span (Simplex) configuration, Slot 4 is covered by a blank panel. Figure 2-6: Front- and Rear-Panel Slot Assignment for Mediant 3000 HA with 8410 Blades Legend: Slot 1 front panel: 8410 blade (active blade for Mediant 3000 HA only).

  • Page 21: Alarm Leds And Aco Button

    3000 HA). In Simplex mode, this slot is covered with a blank panel. Slot 4 front panel: Standby (redundant) Alarm and Status blade (applicable only to Mediant 3000 HA). In Simplex mode, this slot is covered with a blank panel. Blank panels covering unoccupied slots.

  • Page 22: 6310 Blade

    (or failure of the chassis hardware). 6310 Blade The 6310 blade is a member of AudioCodes’ 6310 series TrunkPack cPCI VoP communication platform. The blade is a high-density, hot-swappable, cPCI resource blade (form factor 6U PICMG 2.16) with a capacity of up to 2,016 DS0 channels, supporting all necessary functions for voice, data, and fax streaming over IP networks.

  • Page 23: Figure 2-9: Components Location On 6310 Blade

    Installation Manual 2. Physical Description For Mediant 3000 HA systems (i.e., two blades housed in the chassis), the blade is designed for protection capabilities provided by the redundant RTM (RTM-6310 Redundant) housed in the rear panel (refer to ''RTM-6310 Redundancy Rear Transition Module'' on page 27).

  • Page 24: Leds

    22). These LEDs provide an indication of the various operational statuses of the blade, as described in the tables below. Notes: • The PSTN LEDs are applicable only to Mediant 3000; IPmedia 3000 provides only IP interface. • The PSTN C LEDs are applicable only to T3 interface.

  • Page 25: Table 2-9: Pstn Leds (Stm-1/Oc-3 Or T3 Interface) Description

    Installation Manual 2. Physical Description Table 2-9: PSTN LEDs (STM-1/OC-3 or T3 Interface) Description Interface Label Color Status Description STM-1/OC- A & B LINK Green Working (active) link is established. Yellow Protection (standby) link is established. No link. ALRM Indicates one of the following alarms: Status SONET Loss of Signal...

  • Page 26: Rtm-6310 Rear Transition Module

    Mediant 3000 & IPmedia 3000 2.5.2 RTM-6310 Rear Transition Module The RTM-6310 is housed with the 6310 blade. The blade (housed in the front panel), connects to the RTM-6310 (housed in the rear panel) through the backplane. RTM-6310 provides the I/O interface connections to the IP (Gigabit Ethernet) and PSTN (i.e., STM- 1/OC-3 or T3) networks.

  • Page 27: Rtm-6310 Redundancy Rear Transition Module

    2.5.3 RTM-6310 Redundancy Rear Transition Module The RTM-6310 Redundant RTM is implemented in Mediant 3000 HA systems. RTM-6310 Redundant is housed in Slot 3 in the chassis' rear panel, directly behind the redundant 6310 blade (located in Slot 3 in the front panel).

  • Page 28: 8410 Blade

    Mediant 3000 & IPmedia 3000 8410 Blade The 8410 blade is a member of AudioCodes’ TrunkPack cPCI VoP communication platform series and is the main functionality component of the device. The 8410 blade is considered as a complete media gateway/server module. The blade occupies one slot of a cPCI chassis and features its own MAC address, IP address and blade handle (when using the acOpenRemoteBoard API function).

  • Page 29: Leds

    Description FAIL Blade failure (fatal error). Normal operation. Green Active blade. Note: Applicable only to Mediant 3000 HA configuration. Yellow Blinking Redundant blade in standby mode. Note: Applicable only to Mediant 3000 HA configuration. Standalone blade (i.e., for Simplex configuration).

  • Page 30: Led Array Display

    MAC address. When the MAC address is displayed, the E1/T1 LEDs turn off. Pressing the button again displays the first group of eight trunks. Note: The LED Array display is applicable only to Mediant 3000. Installation Manual Document #: LTRT-94704...

  • Page 31: Rtm-8410 Rear Transition Module

    Installation Manual 2. Physical Description 2.6.3 RTM-8410 Rear Transition Module The RTM-8410 is housed in the chassis' rear panel. This RTM interfaces with the 8410 blade housed in the chassis' front panel, through the midplane. RTM-8410 provides and routes DS1 (E1/T1) PSTN interfaces to the active 8410 blade. RTM-8410 also provides two Gigabit Ethernet interfaces (RJ-45 ports or fiber optic SPF modules) for connection to the LAN (IP network), using Cat 5 or fiber optic cables, respectively.

  • Page 32: Rtm-8410 For 16-Span Configuration

    For HA mode, an RTM-8410 that provides only GbE ports is housed in Slot 4 (as shown below). For Simplex mode, Slot 4 is covered by a blank panel. Figure 2-15: RTM-8410 Redundant for 16 Spans in Slot 4 (Only for Mediant 3000 HA) Installation Manual...

  • Page 33: Rtm-8410 For Scalable Span Configuration

    Installation Manual 2. Physical Description 2.6.3.2 RTM-8410 for Scalable Span Configuration For fixed 63 E1/84 T1 span configuration as well as for scalable span configurations from 16 E1/T1 to 32 E1/42 T1, and 32 E1/42 T1 to 63 E1/84 T1, two identical RTM-8410's are used: one housed in Slot 2, the other in Slot 4.

  • Page 34: Alarm, Status And Synchronization Blade

    LED indicators on the chassis and blades, as well as to the Alarm Terminal Closures on the PEM module. Notes: • BITS/SETS functionality is applicable only to Mediant 3000. • The SA/M3K blade is not cPCI compliant. However, the blade is protected using code keys on the midplane.

  • Page 35: Table 2-17: Sa/M3K Blade Leds Description

    Label Color Status Description FAIL Blade failure (fatal error). Normal operation. Active blade (applicable only to Mediant 3000 HA configuration) Green initialization sequence completed successfully. Standby blade (applicable only to Mediant 3000 HA configuration) Yellow initialization sequence terminated successfully. Blinking Blade initialization sequence terminated successfully.

  • Page 36: Chassis Cooling System

    These panels are constructed to assist optimal air flow within the chassis. When implementing the 8410 blade in a Mediant 3000 Simplex system, Air Baffle panels are also used (refer to figure below) to assist in cooling the system. The Air Baffles maintain internal airflow pressure and ensure the correct operating temperature in the front cage of the chassis.

  • Page 37: Power Supply

    • Currently, the AC power option is supported only by Mediant 3000. • To change the Mediant 3000's power system (i.e., AC to DC, or DC to AC), you need to change your chassis. Please contact AudioCodes for further information.

  • Page 38: Ac Power System

    1.4A @ 230VAC, 322W Connection Provisions PEM module with 3-prong AC inlet Note: Currently, the AC power option is supported only by Mediant 3000. 2.9.1.1 AC Power Entry Modules The device's chassis is supplied with two PEM/AC/3K Power Entry Modules (PEM) modules (housed in its rear panel), for connecting the device's chassis to AC power sources.

  • Page 39: Figure 2-21: Pem/Ac/3K Power Entry Module

    Installation Manual 2. Physical Description Figure 2-20: PEM/AC/3K Power Entry Module The table below describes the PEM module's connectors and LEDs. Table 2-19: PEM AC Power Front View Component Descriptions Item # Label Description PEM with 6310 blades: N/A (GbE interface is provided by the Ethernet ports on RTM-6310).

  • Page 40: Ac Power Supply Modules

    Mediant 3000 & IPmedia 3000 2.9.1.2 AC Power Supply Modules The PS/AC/3K Power Supply (PS) module is an advanced-design, multi-output switching power supply, which can be provided in AC primary input power configurations. The PS modules are located on the front panel and connect to the PEM modules (located on the rear panel) through the chassis' backplane.

  • Page 41: Dc Power System

    IPmedia 3000: Power Consumption IPM-6310 Simplex: 5.25 A @ 48 VDC, 252W Mediant 3000 with TP-8410: 16 E1/T1 Simplex: 3A @ 48 VDC, 145W 16 E1/T1 HA: 4.4A @ 48 VDC, 212W 63 E1/84 T1 Simplex: 4.6A @ 48 VDC,2234W 63 E1/84 T1 HA: 7.2A @ 48 VDC, 343W...

  • Page 42: Dc Power Entry Module

    Physical Network Separation feature). Their operating status is provided by the ETH LEDs on the 8410 blade (refer to ''LEDs'' on page 28). Note: 8410 Blades are applicable only to Mediant 3000. BITS/SETS Standard E1/T1 RJ-48 connector for synchronization and timing source.
  • Page 43 Installation Manual 2. Physical Description Item # Label Description CRT, MJR, MNR, Alarm Terminal Block Closures: Contains four groups of terminals for connecting external Telco alarm devices according to Critical, Major, and Minor severities. Devices can be controlled using Common, Normally Open method.

  • Page 44: Dc Power Supply Modules

    Mediant 3000 & IPmedia 3000 2.9.2.2 DC Power Supply Modules The PS/DC/3K Power Supply (PS) module is an advanced-design, multi-output switching power supply, which can be provided in DC primary input power configurations. The PS modules are located on the front panel and connect to the PEM modules (located on the rear panel), through the chassis' backplane.

  • Page 45: Installation

    Regulatory Information list. Check that there is no equipment damage. Check, retain and process any documents. Notify AudioCodes of any damage or discrepancies. Note: The blades and modules are supplied pre-installed in the device's chassis. For replacing these items, refer to ''Maintenance and Repair'' on page 67.

  • Page 46: Figure 3-1: Chassis Mounted In 19-Inch Rack

    Mediant 3000 & IPmedia 3000 Rack Mount Safety Instructions When installing the chassis in a rack, ensure you implement the following safety instructions: • Elevated Operating Ambient Temperature: If installed in a closed or multi-unit rack assembly, the operating ambient temperature of the rack environment may be greater than room ambient temperature.

  • Page 47: Cabling

    Installation Manual 3. Installation Cabling The cabling of the device must be performed in the following order: Earthing (grounding) the chassis (refer to ''Earthing (Grounding) the Chassis'' on page 47). Connecting the PSTN interfaces: • 6310 blade: ♦ Connecting STM-1/OC-3 interfaces (refer to ''Connecting STM-1/OC-3 PSTN Interfaces'' on page 48).

  • Page 48: Earthing (Grounding) The Chassis

    Mediant 3000 & IPmedia 3000 3.3.1 Earthing (Grounding) the Chassis Read the following earthing (grounding) warning notice before connecting the chassis to the earth: Earthing Safety Earth Intrinsically, the chassis must be safety-earthed using an equipment-earthing conductor. Do not depend on locknut-bushings and double-locknuts for bonding.

  • Page 49: Connecting Stm-1/Oc-3 Pstn Interfaces

    Installation Manual 3. Installation 3.3.2.1 Connecting STM-1/OC-3 PSTN Interfaces RTM-6310 provides two pairs of 155-Mbps optical small form-factor pluggable (SFP) transceiver modules. The SFP pairs provide 1+1 redundancy scheme for STM-1/OC-3 PSTN interfaces. To interface with the SFP modules, you need to provide (i.e., not supplied) the following items: Cable: twin, single-mode fiber optic cable Connector: LC-type plug...

  • Page 50: Connecting T3 Pstn Interfaces

    Mediant 3000 & IPmedia 3000 To connect the STM-1/OC-3 PSTN interface: Remove the protective dust plug from the device's SFP transceiver module. Connect a twin, single-mode fiber optic cable with LC-type plugs to the STM-1/OC-3 PSTN SFP transceivers (labeled PSTN - A).

  • Page 51: Connecting Gbe Interfaces To Ip Network

    3.3.2.3 Connecting GbE Interfaces to IP Network The RTM-6310 (and RTM-6310 Redundant for Mediant 3000 HA) provide two Gigabit Ethernet (GbE) interface ports (labeled ETHERNET 1 and 2). Two ports are provided to support 1+1 Ethernet redundancy. Depending on customer requirements, the Ethernet...

  • Page 52: Figure 3-5: Rj-45 Lan Ethernet Network Port And Connector

    Rx D+ Rx D- To provide full Ethernet redundancy in a Mediant 3000 High Availability system, it is recommended to connect all four Ethernet interfaces (two on RTM-6310 and two on RTM- 6310 Redundant) to the external IP network. In addition, to provide Ethernet switch...

  • Page 53: Cabling Rtm-8410 Interfaces

    68-84 Note: For 42 and 84 spans, the Mediant 3000 is supplied with two RTM-8410s pre- installed in the chassis. However, the second RTM-8410 (housed in Slot 4) is used only if the device's Feature Key supports more than 42 trunks (i.e., up to 84 trunks).

  • Page 54: Figure 3-7: 100-Pin Scsi Patch Cable Adapter For 16 Spans (Not Supplied)

    Shroud Backshell R-ZC-013100-S Note: For RTM-8410 with 16-spans as well as 42-spans configuration, a patch cable adapter (refer to figure below) can be ordered separately from AudioCodes: • 16 Spans: Cat.# SCSI-16xE1/T1 Cable • 42 Spans: Cat.# SCSI-42xE1/T1 Cable Figure 3-7: 100-Pin SCSI Patch Cable Adapter for 16 Spans (Not Supplied)

  • Page 55: Figure 3-8: Patch Cable For 42 Spans

    Installation Manual 3. Installation Figure 3-8: Patch Cable for 42 Spans To connect the E1/T1 trunk interfaces: Prepare a SCSI cable of suitable length to connect between RTM-8410 housed in Slot 1 and the PBX/PSTN switch. The connector at the RTM-8410 end of the cable should be wired as shown in the tables below (one cable for the 100-pin connector and a second cable for the 68-pin connector).

  • Page 56: Figure 3-9: 100-Pin Scsi Female Connector On Rtm-8410 Blade

    Mediant 3000 & IPmedia 3000 The 100-pin female SCSI connector is shown in the figure below and must mate with a male connector that is wired according to the connector pinouts in the following table. Figure 3-9: 100-Pin SCSI Female Connector on RTM-8410 Blade...

  • Page 57: Figure 3-10: 68-Pin Scsi Female Connector On Rtm-8410 Blade

    Installation Manual 3. Installation E1/T1 Number (1 to 25) E1/T1 Number (43 to 67) Tx Pins Rx Pins (Tip/Ring) RTM-8410 in Slot 1 RTM-8410 in Slot 4 (Tip/Ring) 48/47 98/97 50/49 100/99 The 68-pin female SCSI connector is shown in the figure below and must mate with a male connector that is wired according to the connector pinouts in the following table.

  • Page 58: Connecting Ethernet Interfaces To Oamp And Control Ip Networks

    The cabling of the PEM Ethernet ports for Control and Operations, Administration, Maintenance, and Provisioning (OAMP) network interfaces described in this section is applicable only to Mediant 3000 with 8410 blade. The Media interface is provided by the Gigabit Ethernet port on RTM-8410 (refer to ''Connecting GbE Interfaces to IP Network'' on page 59).

  • Page 59: Connecting Gbe Interfaces To Ip Network

    850 nm wavelength Notes: • For Mediant 3000 HA, both RTM-8410's must be separately cabled to the IP network (using the GbE interface ports). When in Simplex mode and using two RTM-8410s (i.e., for 84 E1/T1), only the RTM-8410 in Slot 2 must be cabled to the IP network.

  • Page 60: Cabling Pem For Bits Mode

    Mediant 3000 automatically switches to the secondary source as a reference clock for the whole system. For Mediant 3000 Simplex systems (i.e., single blade), if the primary BITS clock source fails (and clock fallback is enabled), the device uses the secondary BITS clock source. However, during the transition between the failed clock and the secondary clock, the device remains in hold-over mode until the secondary clock is acquired.

  • Page 61: Connecting The Alarm Terminal Block Closures

    Installation Manual 3. Installation To cable the PEM modules for BITS synchronization mode: Connect the Trunk from BITS source A to the RJ-48 port (labeled BITS/SETS), located on the lower PEM module (A). Connect the Trunk from BITS source B to the RJ-48 port (labeled BITS/SETS), located on the upper PEM module (B).

  • Page 62: Connecting The Rs-232 Port To A Pc

    Mediant 3000 & IPmedia 3000 Table 3-7: Alarm Terminal Block Pin Details Description 1 - Common 2 – Normally Open (N.O) “CRT” (Critical Alarm) 3 - Common 4 – N.O. “MJR” (Major Alarm) 5 - Common 6 – N.O. “MNR” (Minor Alarm) 7 –...

  • Page 63: Connecting Power

    The device is supplied with two PEM modules. Each PEM module is equipped with an AC power inlet (IEC 60320 type). Note: • The AC power option is supported only by Mediant 3000. • For power redundancy, ensure that you connect each PEM module to a different AC supply circuit.

  • Page 64: Connecting To The Dc Power Supply

    Mediant 3000 & IPmedia 3000 To connect the device to an AC power supply: Plug the AC power cord (not supplied) into the AC power inlet located on the PEM module. Plug the other end of the power cord to an AC electrical outlet.

  • Page 65: Figure 3-19: Power Feed Cable Terminated With Crimp-Connection Type Dc Terminal Block

    Installation Manual 3. Installation To connect power using a DC terminal block crimp connector: Remove the terminal block screw from the chassis power socket (labeled DC IN), by unscrewing the two screws located on the front of the terminal block. Connect the two insulated wires to the correct DC power outlet.

  • Page 66: Figure 3-20: Dc Power Connector With And Without Screw-Type Terminal Block Connector

    Mediant 3000 & IPmedia 3000 To connect power using a DC terminal block screw connector: Remove the terminal block screw from the chassis power socket (labeled DC IN), by unscrewing the two screws located on the front of the terminal block.

  • Page 67: Maintenance And Repair

    Installation Manual 4. Maintenance and Repair Maintenance and Repair This section provides information on the following hardware maintenance and repair operations: Ensuring ESD protection (refer to ''Ensuring ESD Protection'' on page 67) Replacing blades/RTMs (refer to ''Replacing Blades/RTMs'' on page 68) Replacing the Power Supply modules (refer to ''Replacing the Power Supply Modules'' on page 71) Replacing the Power Entry modules (refer to ''Replacing the Power Entry Modules'' on...

  • Page 68: Replacing Blades/Rtms

    (i.e., no new calls are accepted and current calls are terminated after a user-defined interval), and then power down the chassis. HA mode (applicable only to Mediant 3000 HA): • Replacing a failed blade: Graceful Lock is unnecessary as all traffic has already been automatically switched over to the redundant blade.

  • Page 69: Figure 4-2: Mediant 3000 Page

    (refer to the Product Reference Manual). Note: For replacing a failed blade in Mediant 3000 HA, there is no need to perform a graceful lock nor power down the device. In the event of a blade failure, the device automatically performs a switchover to the standby blade (making it the active blade).
  • Page 70 Mediant 3000 & IPmedia 3000 Ease the blade all the way into the slot, using your thumbs until the ejector/injector latches touch the chassis and the blade is flush with the chassis slot. Note: Do not use excessive force when inserting the blade into the chassis cage.

  • Page 71: Figure 4-3: Blank Panel For Unoccupied Slots

    Installation Manual 4. Maintenance and Repair Ease the RTM all the way into the slot, using your thumbs until the ejector/injector latches touch the chassis and the RTM is flush with the chassis slot. Note: Do not use excessive force when inserting the blade into the chassis cage. Lock the RTM into place by pressing the two black ejector/injector latches on both ends inward, toward the middle, until you hear a click.

  • Page 72: Replacing The Power Supply Module

    Mediant 3000 & IPmedia 3000 Replacing the Power Supply Module The following procedures describe how to remove and insert the Power Supply (PS/DC/3K) module. To replace a faulty Power Supply module: Remove the faulty Power Supply module, by performing the following: Using a Philips screwdriver, unfasten the two screws located on the module.

  • Page 73: Replacing The Fan Tray Module

    Installation Manual 4. Maintenance and Repair Reconnect the power cables. Re-instate the power from the mains. Replacing the Fan Tray Module The following procedure describes how to replace a Fan Tray module. Warnings: • When removing the Fan Tray module while the power is on (or after it has recently been switched off), the blades may still be rotating at a high speed.

  • Page 74: Figure 4-4: Removing The Air Filter

    Mediant 3000 & IPmedia 3000 To replace the air filter: Remove the air filter, by performing the following: Remove the Fan Tray module from the chassis (refer to ''Replacing the Fan Tray Module'' on page 73). Grasp the inside of the steel frame of the air filter and pull it out of the chassis slot.

  • Page 75: Replacing 155-Mbps Optical Sfp Transceiver Modules (Only 6310 Blades)

    Installation Manual 4. Maintenance and Repair Replacing 155-Mbps Optical SFP Transceiver Modules (Only 6310 Blades) RTM-6310 provides Small Form-Factor Pluggable (SFP) cages for accepting replaceable 155-Mbps SFP optical transceiver modules (single-mode) for STM-1/OC-3 PSTN interfaces. These SFP modules are hot-swappable (i.e. they can be plugged into or pulled out of RTM-6310 while the power is on).

  • Page 76: Figure 4-7: Unlocking The Sfp Module

    Mediant 3000 & IPmedia 3000 To replace an SFP module: Remove the fiber optic cable, if connected to the SFP transceiver module. Unlock the SFP transceiver module, by pivoting the wire latch (bale clasp) so that it moves away and down from the module, as shown in the figure below:...

  • Page 77: Assigning An Ip Address

    IP address to correspond with your network environment. This section describes IP address assignment for the following: Assigning an IP address to IPmedia 3000 and Mediant 3000 in Simplex mode (refer to “Assigning an IP Address to IPmedia 3000 and Mediant 3000 Simplex” below)

  • Page 78: Assigning An Ip Address Using Http

    Mediant 3000 & IPmedia 3000 5.1.1 Assigning an IP Address using HTTP You can assign an IP address to the device, using the device's Web interface. To assign an IP address using HTTP: Disconnect the device from the network and reconnect it to a PC using one of the following methods: •...

  • Page 79: Assigning An Ip Address Using Bootp

    PC and re-access the device via the Web interface with its newly assigned IP address. 5.1.2 Assigning an IP Address using BootP You can assign an IP address to the device, using the supplied AudioCodes' BootP/TFTP Server application. Notes: •...

  • Page 80: Assigning An Ip Address Using The Cli

    Mediant 3000 & IPmedia 3000 Click OK; the ‘Client Configuration’ screen closes. Physically reset the device using the hardware reset button (or power down and then power up the device). This causes the device to use BootP; the device changes its network parameters to the values provided by BootP.
  • Page 81 To save the configuration, at the prompt, type SAR, and then press <Enter>; the device restarts with the new network settings. For Mediant 3000 HA, repeat steps 1 through 6 for the second blade (this is the local, private IP addresses of the blades).

  • Page 82: Assigning An Ip Address For Mediant 3000 Ha

    (global IP address) and the redundant blade is a transparent entity. This section describes how to assign IP addresses to the Mediant 3000 HA using the Web- based (refer to ''Using the Web Interface'' on page 82) and EMS (refer to ''Using the EMS'' on page 85) management tools.

  • Page 83: Figure 5-3: Clients For Each Blade Added In Bootp Utility

    Installation Manual 5. Assigning an IP Address To initially assign a global IP address to Mediant 3000 HA, using the Web interface: Assign the device's two blades with new private IP addresses so that they correspond to your network's IP addressing scheme:...

  • Page 84: Figure 5-4: Multiple Interface Table Page

    Mediant 3000 & IPmedia 3000 Access the Web interface with the IP address that you assigned to the blade in Slot 1 (see Step 1), and define the device's global IP address, by performing the following: Open the 'Multiple Interface Table' page (Configuration tab > Network Settings menu >...

  • Page 85: Using The Ems

    5.2.2 Using the EMS The procedure below describes how to initially assign a global IP address to Mediant 3000 HA using AudioCodes EMS management tool. To initially assign a global IP address to Mediant 3000 HA, using the EMS: Power down the chassis, physically connect it to the desired network, and then power it up again.

  • Page 86: Figure 5-6: Adding A Region In Ems For Mediant 3000 Ha

    Mediant 3000 is now configured in the EMS Server with the private IP address of the blade in Slot 1. In the Mediant 3000 Status window, only the active blade in Slot 1 is displayed (i.e., Mediant 3000 is not yet configured for High Availability).

  • Page 87: Figure 5-8: Defining Global Ip Address In Ems

    Verify that the Mediant 3000 is up and running (by performing a ping to its IP address). If it is up and running, the EMS’s 'Status' screen displays a graphic representation of it.
  • Page 88 Mediant 3000 & IPmedia 3000 If at a later stage, you need to change the device's global IP address (and without losing current configuration), depending on whether the new global IP address is in the same subnet as the current global IP address, perform one of the following: Same subnet: only necessary to re-define the global IP address (i.e., in the procedure...

  • Page 89: Restoring To Factory Defaults

    Data Bits: 8 Parity: None ♦ ♦ Stop Bits: 1 ♦ Flow Control: None At the CLI prompt, enter the following commands: RestoreFactorySettings For Mediant 3000 HA, repeat steps 1 through 2 for the redundant blade. Version 5.8 July 2009...
  • Page 90 Installation Manual Version 5.8 www.audiocodes.com...

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