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 \(not for MX2104\)
- 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 KVF5orDSP PBX
- DSP KVF6
- DSP SIGNALINGorDSP 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
1-16 Application Considerations
1.3 Application Considerations
Basic MX-2100 System
Basic System Structure
The basic MX-2100 system consists of two MX-2100 units connected by a single
link, as shown in Figure 1-9.
MX-2100
MX-2100
Modem
Modem
KML
KML
I/O
M
o
d
u
l
es
I/O Modules
Figure 1-9. Basic MX-2100 System Structure
System Multiplexing Capabilities
To provide the flexibility necessary to support up to 12 I/O modules of various
types for the MX-2100 or up to 4 I/O modules of various types for the MX-2104,
with each module capable of operation in several modes, the system uses
permanent on-demand allocation of main link bandwidth. This means that
bandwidth is permanently allocated to the active channels of each module when
the module is inserted into the enclosure, and the allocation is made in
accordance with the selected data rate and the end-to-end signaling requirements
of each channel. The main link bandwidth is dynamically reallocated when a
change occurs in the number of modules or of active module channels, or when
the operating mode of the main link or of the modules are changed. For special
applications, the user can disable the automatic allocation and perform manual
allocation.
Although in general, dynamic on-demand bandwidth allocation requires that the
link is resynchronized after each change in allocation, the allocation algorithm
used by MX-2100 has been optimally designed so that it does not require
resynchronization. It only requires reallocation of time slots, thereby reducing the
disruption to other channels when the bandwidth required by a module or a
module channel changes. In many cases, the required changes are made even
without time slot reallocation: for example, disconnecting or reducing the data rate
carried by a channel never requires reallocation.
Bandwidth allocation is performed by organizing the data in frames. Frame length
varies with the main link data rate, as listed in Table 1-1.