Specifications
Table Of Contents
- Preface
- Quick Start Guide
- Table of Contents
- Chapter 1 General Information
- Functional Description
- Physical Description
- Application Considerations
- Basic MX-2100 System
- Redundancy (not for MX-2104)
- Dual Link Operation (not for MX-2104)
- Priority Bumping \(not for MX 2104\)
- Switched Backup Operation (not for MX-2104)
- Switch Mode
- System Management
- System Timing Considerations
- DTE Timing (KML.1, KML.2, KML.3, KML.4 and KML.10 Modules)
- External DCE Timing (KML.1, KML.2, KML.3 and KML.4 Modules)
- DCE Timing (KML.1, KML.2, KML.3 and KML.4 Modules)
- Internal Timing (KML.5, KML.6, KML.7, KML.8, and KML.F Modules)
- Loopback Timing (KML.5, KML.6, KML.7, KML.8, and KML.F Modules)
- DCE Timing (KML.7, KML.8, and KML.F Modules)
- Main Link Timing Considerations in Bypassing and Multidrop Configurations
- Data Channel Clock Modes
- Timing Modes of ISDN Channels
- Sub Link Timing
- Main Link Interface Characteristics
- V.35 Interface (Module KML.1)
- RS-232 Interface (Module KML.2)
- V.36/RS-422/RS-530 Interface (Module KML.3)
- X.21 Interface (Module KML.4)
- G.703 Codirectional Interface (Module KML.5)
- Standard DDS CSU/DSU (Module KML.6)
- T1 Link Interface (Module KML.7)
- E1 Link Interface (Module KML.8)
- ISDN "S" Interface (Module KML.10/S)
- ISDN "U" Interface (Module KML.10/U)
- Fiber-Optic Link Interface (Module KML.F)
- I/O Module Applications
- Technical System Characteristics
- Chapter 2 Installation
- Introduction
- Site Requirements and Prerequisites
- Input Power Requirements
- Grounding
- Channel Connection Considerations
- Front and Rear Panel Clearance
- Ambient Requirements
- Electromagnetic Compatibility Considerations
- Current and Power Requirements of MX-2100 Power Supply Modules
- Current and Power Capabilities of MX-2100 Power Supply Modules
- Ratings of Ring and Feed Voltage Supplies
- Equipment Needed
- Package Contents
- Installation and Setup of MX-2100
- Interfaces and Connections
- Initial Setup and Configuration
- Chapter 3 Configuring MX-2100
- Chapter 4 Operation
- Chapter 5 Diagnostics
- Appendix A Connection Data
- Appendix B Alarms
- Appendix C SNMP Management
- Appendix D Software Download
- Appendix E Configuration Parameters
- Appendix F Command Set Description
- General
- Commands
- BYE
- CLR ALM
- CLR LOOP
- CLR MONITOR
- CONNECT SWITCH
- DATE
- DEF AGENDA
- DEF AGENT
- DEF ALM DEBOUNCE
- DEF CALL
- DEF CH
- DEF CON
- DEF DB FLIP
- DEF DP
- DEF FRAME
- DEF MANAGER LIST
- DEF ML
- DEF ML CALL
- DEF NAME
- DEF NODE
- DEF NP
- DEF PWD
- DEF ROUTE
- DEF SP
- DEF SYS
- DISCONNECT SWITCH
- DSP AGENT
- DSP ALM
- DSP BERT
- DSP CH CON
- DSP FLIP
- DSP HDR TST
- DSP MANAGER LIST
- DSP KVF5 or DSP PBX
- DSP KVF6
- DSP SIGNALING or DSP SIG
- DSP PRBS_INJ
- DSP REM AGENT
- DSP REV
- DSP ST FRAME
- DSP ST ML
- DSP ST SLOT
- DSP ST SYS
- EDIT DB
- EXIT
- F
- FLIP ML
- HELP
- INIT DB
- INIT F
- LOAD DB 1\2
- LOAD IO
- LOOP
- ML RECOVERY
- MONITOR
- REBUILD FRAME
- RESET LOC
- RESET IO
- RESET ML
- TIME
- UPDATE DB 1\2
- Index
- DC Power Supply Connection
Chapter 1 General Information MX-2100/2104 Installation and Operation Manual
1-38 Application Considerations
When it is necessary to report an alarm condition, MX-2100 initiates the call set
up. After the destination answers, MX-2100 sends the complete contents of the
alarm buffer. Following the transmission of the alarm buffer contents, MX-2100
disconnects automatically.
To increase reporting reliability, MX-2100 enables the user to define the number
of dialing retries, and an alternate number, to be called in case the primary
number cannot be reached. If the call cannot be established, the full contents of
the buffer is sent the next time a call is set up.
System Timing Considerations
One of the critical requirements of data communications networks is timing
accuracy. The basic requirement is that all the equipment in the network must
operate at exactly the same clock rate or at an integer sub-multiple of the clock
rate. If this condition is not met, then from time to time bits transmitted between
two equipment units that operate at even slightly different clock rates will be lost,
or the same bit may be read twice. Such occurrences, that lead to the loss of bit
count integrity, are highly undesirable and may cause severe and periodic
disruptions in network operation.
Many networks use very accurate timing sources, such as atomic clocks, to provide
the primary timing signals to the main network nodes, e.g., telephone switching
offices, digital switches, etc. From the nodes, the timing is disseminated via the
communication links.
Since very accurate timing sources are often free-running, communication
equipment usually includes "elastic" buffers that absorb small timing differences. An
elastic buffer is a first-in first-out (FIFO) memory with separate write (input) and
read (output) clocks. For example, such buffers are inserted in the receive path of
the MX-2100 KML modules operating in the DTE or external DCE modes.
MX-2100 is designed to support reliable propagation of the timing information, by
allowing the selection of the appropriate timing mode in accordance with system
requirements and the type of main link interface module installed in the unit. The
following are the different main link interfaces with the available types of timing
modes:
• With KML.1, KML.2, KML.3 and KML.4 modules, three main link timing
modes are available:
− DTE
− External DCE
− DCE.
• When operating in the DCE or external DCE modes, the timing of the main
link transmit clock can be locked to an external source (the external clock
signal supplied to one of the data channels), or derived from an internal
oscillator.
• With KML.5 and KML.6 modules, two main link timing modes are available:
− Internal
− Loopback.