Related Manuals for Nortel R2MFC
Summary of Contents for Nortel R2MFC
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Page 1: Configuration Guide
R2MFC Media Bay Module Installation and Configuration Guide Business Communications Manager Document Status: Standard Document Number: NN40010-300 Document Version: 03.01 Date: June 2007... -
Page 2: North American Regulatory Information
Users must take full responsibility for their applications of any products specified in this document. The information in this document is proprietary to Nortel Networks. Trademarks Nortel, the Nortel logo, and the Globemark are trademarks of Nortel Networks. All other trademarks and registered trademarks are the property of their respective owners. North American Regulatory Information Safety This equipment meets all applicable requirements of both the CSA C22.2 No.60950 and UL... -
Page 3: Enhanced 911 Configuration
This precaution may be particularly important in rural areas. Caution: Users should not attempt to make such connections themselves, but should contact the appropriate electric inspection authority, or electrician. R2MFC Media Bay Module Installation and Configuration Guide... -
Page 4: Hearing Aid Compatibility
Hearing Aid Compatibility System telephones are hearing-aid compatible, as defined in Section 68.316 of Part 68 FCC Rules. Repairs In the event of equipment malfunction, all repairs to certified equipment will be performed by an authorized supplier. Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. -
Page 5: International Regulatory Information
This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. Hereby, Nortel Networks declares that this equipment is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. - Page 6 Information is subject to change without notice. Nortel Networks reserves the right to make changes in design or components as progress in engineering and manufacturing may warrant. This equipment has been tested and found to comply with the European Safety requirements EN 60950 and EMC requirements EN 55022 (Class A) and EN 55024.
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Page 7: Table Of Contents
BNC and RJ-48 connectors ......... 24 R2MFC MBM back and underside elements ....... . 24 Power connectors . - Page 8 Configuring the R2MFC MBM ........
- Page 9 R2MFC MBM maintenance ........
- Page 10 R2 directory ............87 PRI directory .
- Page 11 CLI Cable Pinout ..........113 R2MFC Media Bay Module Installation and Configuration Guide...
- Page 12 NN40010-300...
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Page 13: How To Get Help
Getting Help through a Nortel distributor or reseller If you purchased a service contract for your Nortel product from a distributor or authorized reseller, contact the technical support staff for that distributor or reseller. R2MFC Media Bay Module Installation and Configuration Guide... - Page 14 14 How to Get Help NN40010-300...
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Page 15: Getting Started
Chapter 1 Getting started About this guide This guide explains how to install, configure, and maintain the Nortel R2MFC Media Bay Module (R2MFC MBM). The guide also provides information about the Command Line Interface (CLI) tool used to configure, operate, administer and maintain the R2MFC MBM from a computer. -
Page 16: Before You Begin
Chapter 1 Getting started Before you begin This guide assumes the following: • The host system is installed and initialized and is working correctly. • The host system is running BCM 2.5 FP 1, or greater. • Users have a working knowledge of the host system operations. •... -
Page 17: Symbols And Text Conventions
Acronym Symbols and text conventions These symbols are used to Highlight critical information for the R2MFC MBM system: Caution: Alerts you to conditions where you can damage the equipment. Danger: Alerts you to conditions where you can get an electrical shock. - Page 18 Warning: Alerts you to ground yourself with an antistatic grounding strap before performing the maintenance procedure. Warning: Alerts you to remove the R2MFC MBM main unit and expansion unit power cords from the ac outlet before performing any maintenance procedure.
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Page 19: Related Publications
Chapter 1 Getting started Related publications This section provides a list of additional documents referred to in this guide. R2MFC Media Bay Module Installation and Configuration Guide... - Page 20 Chapter 1 Getting started NN40010-300 NN40010-300...
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Page 21: Overview
“R2MFC MBM back and underside elements” on page 24 General information The R2MFC MBM is a media bay module (MBM) that provides MFC-R2 connectivity over an E1 trunk. The module works as a converter between Euro-ISDN and MFC-R2 protocols, allowing the MFC-R2 protocol E1 to work directly with the BCM without the use of an external converter. -
Page 22: Administration And Maintenance Tools
External link configuration is performed using the DIP switches on the front of the R2MFC MBM or by using the CLI, which is accessed through a serial port on the faceplate of the R2MFC MBM. Internal link configuration is performed using either Element Manager or Unified Manager. Refer “Configuring the R2MFC MBM”... -
Page 23: System Status Leds
System Status LEDs The R2MFC MBM has three visual status monitor indicators on the left side of the faceplate. They are: • Power LED — This green LED indicates the status of power to the R2MFC MBM. • In Service LED — This green LED indicates the status of the E1 signal coming to the R2MFC MBM from the BCM. -
Page 24: Rs232 Port
The jacks are labeled DIAG. BNC and RJ-48 connectors The R2MFC MBM has both BNC and RJ-48 external E1 connectors located on the far right of the faceplate. These connectors are used to connect the R2MFC MBM to the Central Office (CO). -
Page 25: Power Connectors
Power connectors The R2MFC MBM receives its power from the BCM chassis through a power connector on the back of the module. Figure 4 shows the placement of the power connectors. Figure 4 R2MFC MBM back DS256 and power connector MBM DIP switches There are DIP switches located on the underside of the R2MFC MBM. - Page 26 Chapter 2 Overview NN40010-300...
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Page 27: Preparing To Install The R2Mfc Mbm
Chapter 3 Preparing to install the R2MFC MBM This chapter provides an overview of the preparation required to install the R2MFC MBM in a host system. (The host system is the BCM system to which the R2MFC MBM connects.) The information in this chapter is based on the following assumptions: •... -
Page 28: Installation Process Map
28 Chapter 3 Preparing to install the R2MFC MBM Installation process map Figure 6 provides an overview of the R2MFC MBM installation preparation. Figure 6 Overview of the R2MFC MBM installation preparation Ensure that BCM is installed and configured Determine the correct... -
Page 29: R2Mfc Mbm Setup Requirements
Buses 1 and 8 are reserved for internal BCM communications. Therefore, the R2MFC MBM DIP switches can only be set to use buses 2 through 6 on a 2/6 split or buses 2 through 5 on a 3/5 split. If there are not enough DS30 resources available, an expansion module can be installed to provide the extra resources required. -
Page 30: Environment Checklist
See the BCM Installation and Maintenance guide supplied with the host system for details of environmental requirements. Electrical requirements The R2MFC MBM power is supplied through the chassis on the host sytem. See the BCM Installation and Maintenance guide supplied with the host system for details of the electrical requirements. -
Page 31: Installing The R2Mfc Mbm
Chapter 4 Installing the R2MFC MBM This chapters describes how to install and remove an R2MFC MBM in a host BCM system. This chapter provides the following installation and removal procedures: • “Shutting down the system” • “Installing an R2MFC MBM” on page 34 •... -
Page 32: Shutting Down The System
Shutting down a BCM 4.0 system is a two step process. First you must shut down the system software, then you must shut down the system hardware. Shutting down the BCM 4.0 system software If you are adding or replacing an R2MFC MBM in an active system, perform the following steps: Access Element Manager. -
Page 33: Shutting Down The Bcm 4.0 System Hardware
Ensure you have room to access the part you are working on. Remove the BCM main unit from the rack, if necessary. Shutting down a BCM 3.7 or lower system If you are adding or replacing an R2MFC MBM in an active system, perform the following steps: Access the Unified Manager. -
Page 34: Installing An R2Mfc Mbm
BCM base function tray and the expansion unit (if attached). Installing an R2MFC MBM Follow the procedures in this section to install an R2MFC MBM in a BCM platform base chassis or expansion unit. Installing an R2MFC MBM in the BCM platform base chassis Perform the following steps to install an R2MFC MBM in the BCM platform base chassis: Caution: Only install the R2MFC MBM when the system is powered down. -
Page 35: Installing An R2Mfc Mbm In The Expansion Unit
Ensure that any cables at the rear of the module are clear of the platform base chassis. Push the R2MFC MBM into the unit. You will hear a click when the module is firmly seated in the media bay. -
Page 36: Installing An R2Mfc Mbm In The Bcm50 Expansion Unit
Ensure that any cables at the rear of the module are clear of the platform base chassis. Push the R2MFC MBM into the unit. You will hear a click when the module is firmly seated in the media bay. - Page 37 Connect the R2MFC co-axial cable to the correct location on the MBM. See Figure 9 R2MFC Transmit Co-axial cable connected to the MBM Repeat steps 1 and 2 to attach the rubber boot to the other R2MFC co-axial cable. Chapter 4 Installing the R2MFC MBM 37...
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Page 38: Reconnecting The Equipment
AC power cord. System startup takes several minutes to complete. Connect the cables to the proper outlets on the R2MFC MBM and the MSC on the BCM. Check that the LEDs on the newly installed R2MFC MBM are on and indicating the correct state. -
Page 39: Removing An R2Mfc Mbm From The Bcm Platform Base Chassis
Remove any cabling from the R2MFC MBM faceplate. Grasp the right edge of the MBM ejector lever with your thumb, index, and middle fingers. Pull outward to partially eject the R2MFC MBM. Pull further on the lever to eject the R2MFC MBM from the bay. -
Page 40: Removing An R2Mfc Mbm From The Expansion Unit
Power-down the BCM expansion unit system (see Remove any cabling from the R2MFC MBM faceplate. Remove the expansion unit front bezel. Grasp the edge of the MBM ejector lever. Pull outward to eject the R2MFC MBM. Refer to Figure NN40010-300... -
Page 41: Wiring An R2Mfc Mbm
Figure 13 How to remove the expansion unit front bezel BCM expansion unit Grasp the top and bottom edges of the R2MFC MBM. Remove the R2MFC MBM from the BCM expansion unit. Place the R2MFC MBM in a clean, safe, and static-free area. - Page 42 However, if the AC power is unplugged prior to disconnecting the cables from the front of the base function tray, high-leakage currents available on metal system surfaces can occur. System shutdown: You must disconnect the R2MFC MBM cables from the system before disconnecting the power cord from a grounded outlet.
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Page 43: Connecting An R2Mfc Mbm To A Service Provider
Do not connect any telephones to wiring that runs outside the building. Read and follow the installation instructions carefully. Perform the following steps to connect an R2MFC MBM to the network: Determine the connector type to be used, either RJ48C or BNC connectors. - Page 44 Rx, for countries using BNC connections. Insert the connector into the RJ48 jack on the module, for countries using the RJ48 connections. wiring pinouts for an R2MFC MBM to connect to a service provider using RJ48 connectors. Warning: If you are using a service provider channel service unit (CSU), you must disable the Business Communications Manager system internal CSU by using Business Communications Manager Unified Manager.
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Page 45: Configuring The R2Mfc Mbm
R2MFC MBM contains preprogrammed country-specific MFCR2 settings that can be selected using the DIP switches on the faceplate of the R2MFC MBM. The MFCR2 settings can also be customized. The PRI is an internal link to the BCM. The PRI setting are configured to predefined settings when the region is selected during BCM initialization. -
Page 46: Mfcr2 Side (External Link) Configurable Parameters
PCM coding is A-law. These settings can be customized in the firmware through the CLI by using commands in the ALarm directory. Note: Changes made to the framing parameters must be configured in both the R2MFC MBM and the BCM. NN40010-300... -
Page 47: Line Signaling
The channel behavior also supports one-way trunks. The direction of the signal does not need to be configured. Because the R2MFC MBM is passive, the R2MFC MBM does not initiate calls; it only passes call origination attempts from one side to the other. The R2MFC MBM assumes that the two sides (BCM and CO) respect the direction of the trunk as agreed between them. -
Page 48: End Of Dialing (Incoming)
This signal is sent if the far-end requests next digit beyond the last digit of the dialed number. When R2MFC MBM originates a call to the CO, the R2MFC MBM has already received the whole dialed number from the BCM. This is because the digits are passed from BCM to the MBM by PRI “en-bloc.”... -
Page 49: Default Category
The user can set default subscriber status (for example, free, busy, and vacant number) for incoming calls. When this feature is enabled, the R2MFC MBM in an incoming call sends the preset default subscriber status, instead of the status received from the PRI status. -
Page 50: Creating A Customized Country Code
Power up, or restart, the R2MFC MBM. Creating a customized country code If the R2MFC MBM required settings are not identical to any country code, customization can be performed using the CLI through the serial port. Perform the following steps for configuring the customized country codes: Set the Config DIP switches to match the country code closest to customer requirements. -
Page 51: Pri Side (Internal Link) Configurable Parameters
PRI side (Internal Link) configurable parameters The R2MFC MBM is recognized by the BCM as a Euro-ISDN PRI line. The configuration for the PRI side (internal link) of the link is performed on the BCM through either Element Manager or Unified Manager. -
Page 52: Signaling
The BCM installs default settings for MBMs, which vary depending on the region chosen during start up. These settings for the R2MFC MBM can be verified and customized through either Element Manager or Unified Manager. Perform the following steps to verify and customize the... - Page 53 The Bus # information frame displays. See an R2MFC MBM configured on Bus 2.0. Figure 19 BCM Bus configuration for R2MFC MBM Configure the fields in the Details for Module: 2.0 panel. See settings. Table 7 Module configuration parameters...
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Page 54: Configuring The Pri (Internal) Link Using Unified Manager
There should be 30 channels, unless a partial E1 service is arranged with the CO. Figure 20, for an example of the screen layout for an R2MFC MBM configured on Bus 2.0. Figure 20 BCM lines configuration for R2MFC MBM Configuring the PRI (internal) link using Unified Manager Open the Unified Manager. - Page 55 Protocol Clock source Overlap receiving Local number length Chapter 5 Configuring the R2MFC MBM for an example of the screen layout for an R2MFC MBM configured Setting Euro Primary (if only one trunk module in system; otherwise, it depends on the...
- Page 56 The Bus # - Module # - E1 parameters information frame displays. See Select Off from the CRC4 drop-down list. Figure 23 on page 57 on Bus 06. NN40010-300 for an example of the screen layout for an R2MFC MBM configured Figure 23 on page...
- Page 57 Bus 06. Chapter 5 Configuring the R2MFC MBM for every active B-channel that is provisioned for the corresponding for an example of the screen layout for an R2MFC MBM configured R2MFC Media Bay Module Installation and Configuration Guide Figure 24...
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Page 58: Turning On Second Dial Tone
You must turn on second dial tone at the BCM level when running a BCM 4.0 device, or you must turn on second dial tone at the R2MFC MBM level when running a BCM 3.7 or lower version of BCM device. Use one of the following ways to turn on second dial tone: •... -
Page 59: Turning On Second Dial Tone Using Unified Manager
Expand the Services > Telephony Services > Call routing > Routes headings from the navigation tree. See Chapter 5 Configuring the R2MFC MBM Figure 26 on page R2MFC Media Bay Module Installation and Configuration Guide Figure 18 on page 51 for the Config... - Page 60 There will be 30 channels, unless a partial E1 service is arranged with the CO. Figure 26 on page 60 dialing parameters for second dial tone on the R2MFC MBM. Figure 26 Outgoing dialing configuration for second dial tone NN40010-300 for every active B-channel that is provisioned for the corresponding E1.
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Page 61: R2Mfc Mbm Maintenance
On incoming calls to the BCM, the far-end (for example, CO switch) selects the MFC channel. The R2MFC MBM presents the call to the BCM by PRI and allows the BCM to determine which channel to use. -
Page 62: Clock Synchronization
Clock synchronization By default, the R2MFC MBM synchronizes on the external E1 line, and transmits this clock on the internal link to the BCM. By doing so, the BCM can synchronize on the external link. Slips may occur between the BCM and the R2MFC MBM, if the BCM needs to synchronize on another digital trunk MBM. -
Page 63: Diagnostic Tools
BCM to the CO, or from the CO to the BCM, can be intercepted by placing diagnostic equipment in the bantam jacks on the front of the R2MFC MBM. This allows the external MFCR2 link, or the internal E1, to be checked for communication errors. The signal can be traced from start to finish, helping to determine the source of the errors. -
Page 64: Alarms
Chapter 6 R2MFC MBM maintenance Alarms Performance is monitored on both the internal (PRI) and external (MFC) links, but the actions when errors occur are different. Alarms and events handling include three types of actions: Propagating Alarms: Alerts the far-end by transmitting remote alarm indication (RAI). -
Page 65: Group Ii Errors
Indication that the far-nd has lost TS16 multiframe alignment on its incoming signal. This alarm is not applicable to PRI (internal link). Alarm Transmitted to far end R2MFC Media Bay Module Installation and Configuration Guide Alarm sent on opposite link... -
Page 66: Faceplate Leds
TS16 DCH down Faceplate LEDs There are two sets of LEDs on the faceplate of the R2MFC MBM. The system status LEDs are made up of the Power LED, In Service LED, and Diag LED. states. Table 14 System status monitor LEDs... -
Page 67: Logs And Traces
Chapter 6 R2MFC MBM maintenance Normal Operation Normal Operation Normal Operation Normal Operation R2MFC Media Bay Module Installation and Configuration Guide Table 15 Red LED Inability to transmit: Alarm Indication Signal (AIS) sent on external R2 link “SWerr directory” on... -
Page 68: Replacing An R2Mfc Mbm
Remove front bezel from expansion unit Remove failed module If replacement of the R2MFC MBM is required, perform the follow steps to properly replace the module: Follow the steps in correctly. Remove all cables and disconnect the BCM from the AC power outlet. -
Page 69: Chapter 7
Refer to “Installing an R2MFC MBM” on page 34 Refer to “Repeat steps 1 and 2 to attach the rubber boot to the other R2MFC co-axial cable.” on page 37 to restore the system to operation. Upgrading firmware Normal installation does not require firmware download. A firmware upgrade can be required at some point to incorporate bug fixes or new features. -
Page 70: Parameter Setting
R2FMC MBM Perform the following steps to download the firmware the R2MFC MBM: Copy the firmware load file and the PC program files, bload1.exe, to the same directory on the Use the shipped cable, part number N0026100, to connect a PC to the RS-232 port on the faceplate of the R2MFC MBM through COM1. - Page 71 10 Wait for the output of the boot monitor. 11 Enter fload to prepare the MBM for the uploading of firmware. The R2MFC MBM will not respond while it is waiting for a download. 12 Release the COM port by closing the Hyper-terminal session.
- Page 72 Chapter 6 R2MFC MBM maintenance NN40010-300...
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Page 73: Command Line Interface (Cli)
RS232 — This is the default user, which does not require a password. This user accesses configuration and maintenance commands. • admin — Password: admin. This user has access to the same set of commands as RS232. Note: Users and passwords are case-sensitive. R2MFC Media Bay Module Installation and Configuration Guide... -
Page 74: Accessing The Cli
74 Chapter 7 Command Line Interface (CLI) Accessing the CLI The CLI is accessed through the RS-232 port on the faceplate of the R2MFC MBM. The cable that was shipped with the R2MFC MBM, part number N0026100, is used to connect a computer to the R2MFC MBM. -
Page 75: Load Directory
Prints the current time and how long the load has been in-service. Prints the status of the E1 alarms on both links. Prints a summary of all PRI and MFC channels currently in use; for example, not in idle state R2MFC Media Bay Module Installation and Configuration Guide... -
Page 76: View Directory
76 Chapter 7 Command Line Interface (CLI) VIew directory Table 20 includes the CLI commands to display the setup parameters. The commands are accessed from the VIew directory. Table 20 VIew directory CLI commands CLI command LNst ChSt <chan1> <chan2> ChDt <chan>... -
Page 77: Cntrl Directory
This includes links and channels in an environment with a partial E1 arrangement. Warning: Channels are not available to process calls when a link is disabled. If a link is disabled the R2MFC MBM is out-of-service. Table 21 CNtrl directory CLI commands (Sheet 1 of 3) CLI command CSd <chan>... - Page 78 78 Chapter 7 Command Line Interface (CLI) Table 21 CNtrl directory CLI commands (Sheet 2 of 3) CLI command CEnbl <chan> CEnblGrp <start_chan> <end_chan> LEnbl CoFlm <chan> CoFlmGrp <start_chan> <end_chan> NN40010-300 Description Performs channel enabling. Where: chan is the channel number in the range of 1...15, 17...31. This command sends a message to both protocol handlers.
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Page 79: Config Directory
All parameters are stored-country-specific and non-country-specific. The stored configuration is used when the config DIP switches on the faceplate are set to custom profile. Only one configuration (custom profile) is stored. This command deletes the previous configuration contents. R2MFC Media Bay Module Installation and Configuration Guide... - Page 80 As a result, the custom profile does not exist, and other parameters are not included in custom profile use factory default settings. A live system is not affected, because current configuration is stored in RAM. The R2MFC MBM tries to read configuration from Flash memory on restart.
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Page 81: Alarm Directory
I errors and can have values of: • 0 – BPV • 1 – FBER • 2 – SLIP • 3 – CRC4 limcount is the threshold error count in the range of 1...1000. R2MFC Media Bay Module Installation and Configuration Guide... - Page 82 PCM link number, 0 or 1. perstime is the persistence time for group 2 alarm handling in the range of 0...50000. Displays the R2MFC MBM alarm task database content. Where: link_no is the PCM link number, 0 or 1.
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Page 83: Swerr Directory
Prints detailed debug information for one swerr message, stepping up (forward in time). Prints detailed debug information for the current swerr message. Prints the descriptions of all the commands in the swerr directory. R2MFC Media Bay Module Installation and Configuration Guide... -
Page 84: Mfc Directory
84 Chapter 7 Command Line Interface (CLI) MFC directory Table 25 includes the CLI commands for the configuration and control of MFC-R2 protocols. The commands are accessed from the MFC directory. Table 25 MFC directory CLI commands (Sheet 1 of 3) CLI command ICm <mfc_link>... - Page 85 0 or 1. count_type is either 0 (minimal range) or 1 (optional range). value has values of 3...12 for minimal range or 0...15 for optional range. R2MFC Media Bay Module Installation and Configuration Guide...
- Page 86 0 or 1. value is the expected number of ANI digits in the range of 1...16. Sets the number of received DID digits, after which the R2MFC MBM sends ANI requests to the CO.
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Page 87: R2 Directory
0 or 1. Sets the ringing signal. Where: link is the number of the link, 0 or 1. flag is either 0 (ringing signal is not used) or 1 (ringing signal is used). R2MFC Media Bay Module Installation and Configuration Guide... - Page 88 88 Chapter 7 Command Line Interface (CLI) Table 26 R2 directory CLI commands (Sheet 2 of 2) CLI command SeizeOption <link><flag> SzAckOpt <link><flag> SearchMode <link><mode> NN40010-300 Description Sets seize interworking with opposite link upon detecting seize from far end. Where: link is the number of the link, 0 or 1.
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Page 89: Pri Directory
Chapter 7 Command Line Interface (CLI) 89 Description Displays the user and network side information. For R2MFC MBM the value is hard-coded as network side. Sets the dial type to overlap or non-overlap. Where: dial_type is either 0 (enblock/non-overlap) or 1 (overlap). - Page 90 90 Chapter 7 Command Line Interface (CLI) NN40010-300...
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Page 91: Configuring Dip Switch Settings And Definitions
DIP switch settings and co u ntry co nfigu ra tio n R2MFC Media Bay Module Installation and Configuration Guide Figure 31 on page 92 d ia g n o stics co u n try... - Page 92 Configuring DIP switch settings and definitions Figure 30 Country selection DIP switch settings Mexico 1 Argentina Brazil 1 Unassigned Unassigned Unassigned Unassigned Unassigned Figure 31 Second dial tone DIP switch settings. Disabled Note: Second dial tone is controlled using switch 6. Changes to this switch are effective immediately, and do not cause the MBM to restart.
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Page 93: Country Code Defaults
Country code defaults This section contains the default configuration associated to the country code set by the DIP switches on the faceplate of the R2MFC MBM. Mexico Config 1 E1 physical characteristics • Connector type: BNC • Line coding: HDB3... -
Page 94: Mfc Register Signaling
Meanings of the MFC signals are configurable. MFC signal tables are part of the country-specific parameters. Table 29 shows the MFC signal configuration in the R2MFC MBM accessed through the CLI for Mexico Config 1. Table 30 accessed through the CLI for Mexico Config 1. -
Page 95: Mexico Config 2
FW_Digit_8 FW_Digit_9 FW_Digit_0 I_10 FW_Digit_11 I_11 FW_Digit_12 I_12 FW_Digit_13 I_13 FW_Digit_14 I_14 FW_Digit_15 I_15 FW_Categ_1 II_1 R2MFC Media Bay Module Installation and Configuration Guide Meaning Signal FW_Categ_9 II_9 FW_Categ_10 II_10 FW_Categ_11 II_11 FW_Categ_12 II_12 FW_Categ_13 II_13 FW_Categ_14 II_14 FW_Categ_15 II_15... -
Page 96: R2 Line Signaling
MFC signal configuration in the R2MFC MBM accessed through the CLI for Mexico Config 2. Table 33 on page 97 R2MFC MBM accessed through the CLI for Mexico Config 2. These values are preconfigured by the faceplate DIP switches as shown in Interface (CLI),” on page 73... - Page 97 FW_Digit_8 FW_Digit_9 FW_Digit_0 I_10 FW_Digit_11 I_11 FW_Digit_12 I_12 FW_Digit_13 I_13 FW_Digit_14 I_14 FW_Digit_15 I_15 FW_Categ_1 II_1 R2MFC Media Bay Module Installation and Configuration Guide Signal Meaning Signal BW_OutOfOrder BW_B_Congest A_10 BW_B_Congest B_10 A_11 BW_B_Congest B_11 A_12 BW_B_Congest B_12 A_13 BW_B_Congest...
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Page 98: Brazil Config 1
Configuring DIP switch settings and definitions Brazil Config 1 E1 physical characteristics • Connector type: BNC • Line coding: HDB3 E1 framing Frame mode: Alternate Register signaling • Regret option: ON • End of dialing (Incoming): 4 • End of dialing (Outgoing): 4 R2 line signaling Brazil Config 1 R2 signals are according to CCITT standard. - Page 99 Table 35 shows the MFC signal configuration in the R2MFC MBM accessed through the CLI for Brazil Config 1. Table 36 accessed through the CLI for Brazil Config 1. These values are pre-configured by the faceplate DIP switches as shown in on page 73 for information on the CLI.
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Page 100: Brazil Config 2
Configuring DIP switch settings and definitions Table 36 Interpretation of transmitted MFC signals (Sheet 2 of 2) Meaning Signal BW_OutOfOrder BW_ChangOrder FW_ReqFault I_12 FW_EndDigits I_15 Brazil Config 2 E1 physical characteristics • Connector type: BNC • Line coding: HDB3 E1 framing Frame mode: Alternate Register signaling •... -
Page 101: R2 Line Signaling
MFC signal configuration in the R2MFC MBM accessed through the CLI for Brazil Config 2. Table 39 on page 102 R2MFC MBM accessed through the CLI for Brazil Config 2. These values are preconfigured by the faceplate DIP switches as shown in Interface (CLI),” on page 73... -
Page 102: Argentina Config 1
Configuring DIP switch settings and definitions Table 38 Interpretation of received MFC signals (Sheet 2 of 2) Meaning Signal Meaning FW_Digit_8 FW_Categ_8 FW_Digit_9 FW_Categ_9 FW_Digit_0 I_10 FW_Categ_10 FW_Digit_11 I_11 FW_Categ_11 FW_ReqFault I_12 FW_Categ_12 FW_Digit_13 I_13 FW_Categ_13 FW_Digit_14 I_14 FW_Categ_14 FW_EndDigits I_15 FW_Categ_15 Table 39 Interpretation of transmitted MFC signals... -
Page 103: E1 Framing
Meanings of the MFC signals are configurable. MFC signal tables are part of the country-specific parameters. Configuring DIP switch settings and definitions Signal Idle Seize acknowledge Answer Clear back Block R2MFC Media Bay Module Installation and Configuration Guide Table 40 for the Argentina Backward... - Page 104 MFC received signal configuration in the R2MFC MBM accessed through the CLI for Argentina Config 1. R2MFC MBM accessed through the CLI for Argentina Config 1. These values are pre-configured by the faceplate DIP switches as shown in Interface (CLI),”...
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Page 105: Chile Config 1
Signal FW_Digit_13 I_13 FW_Digit_14 I_14 FW_Digit_15 I_15 FW_Categ_1 II_1 Idle Seize acknowledge Answer Clear back R2MFC Media Bay Module Installation and Configuration Guide Meaning Signal FW_Categ_15 II_15 FW_KD_Local II_3 FW_KD_LnDst II_2 Table 28 for the Chile Config 1 Backward Signal... -
Page 106: Mfc Register Signaling
Table 41 shows the MFC received signal configuration in the R2MFC MBM accessed through the CLI for Chile Config 1. MBM accessed through the CLI for Chile Config 1. These values are pre-configured by the faceplate DIP switches as shown in Interface (CLI),”... -
Page 107: Panama Config 1
FW_Digit_6 FW_Digit_7 FW_Digit_8 FW_Digit_9 FW_Digit_10 I_10 FW_Digit_11 I_11 FW_Digit_12 I_12 FW_Digit_13 I_13 FW_Digit_14 I_14 FW_Digit_15 I_15 R2MFC Media Bay Module Installation and Configuration Guide Meaning Signal FW_Categ_1 II_1 FW_Categ_2 II_2 FW_Categ_3 II_3 FW_Categ_4 II_4 FW_Categ_5 II_5 FW_Categ_6 II_6 FW_Categ_7 II_7... - Page 108 Configuring DIP switch settings and definitions NN40010-300...
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Page 109: Appendix B Diagnostic And Loopback Dip Switch Settings
DIP switch settings. Figure 32 Diagnostics and Loopback Dip Switch Settings Diagnostic mode 1 Diagnostic mode 2 Diagnostic mode 3 R2MFC Media Bay Module Installation and Configuration Guide Loopback mode 1 (Continuity) Loopback mode 2 (Card edge) - Page 110 Diagnostic and loopback DIP switch settings NN40010-300...
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Page 111: Mfc Signal Definitions
FW_Digit_2 FW_Digit_3 FW_Digit_4 FW_Digit_5 FW_Digit_6 FW_Digit_7 FW_Digit_8 FW_Digit_9 FW_Digit_10 FW_Digit_11 FW_ Digit_12 FW_ Digit_13 FW_Digit_14 FW_Digit_15 R2MFC Media Bay Module Installation and Configuration Guide MFC signal meaning FW_Categ_1 FW_Categ_2 FW_Categ_3 FW_Categ_4 FW_Categ_5 FW_Categ_6 FW_Categ_7 FW_Categ_8 FW_Categ_9 FW_Categ_10 FW_Categ_11 FW_Categ_12 FW_Categ_13... - Page 112 MFC Signal Definitions NN40010-300...
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Page 113: Appendix D
Signaling Pin 1 ignored Pin 2 ignored Pin 3 RXD (receive data) Pin 4 ignored Pin 5 GND (ground) Pin 6 TXD (transmit data) Pin 7 ignored Pin 8 ignored R2MFC Media Bay Module Installation and Configuration Guide... - Page 114 CLI Cable Pinout NN40010-300...
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