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
MX-2100/2104 Installation and Operation Manual Chapter 1 General Information
Application Considerations 1-19
Table 1-2. Bandwidth Allocations
Use Allocation Units Allocation Rule
Frame
Synchronization
1 Mandatory
Management
Channel
Depends on Main Link Rate
Optional
(at least 9.6 kbps
recommended)
Channel Data Channel Main Link Rate in kbps
(used Bandwidth Allocation Unit kbps rate in parenthesis)
9.6 to 32
(0.4)
48 to 192
(0.8)
256, 384
(1.6)
512, 768
(3.2)
1024, 1536
(6.4)
All Modules
300 bps
600 bps
1.2 kbps
2.4 kbps
4.8 kbps
6.4 kbps
7.2 kbps
8 kbps
9.6 kbps
14.4 kbps
16 kbps
19.2 kbps
24 kbps
28.8 kbps
32 kbps
38.4 kbps
48 kbps
56 kbps
57.6 kbps
64 kbps
67.2 kbps
76.8 kbps
86.4 kbps
96.0 kbps
105.6 kbps
115.2 kbps
124.8 kbps
128 kbps
160 kbps
192 kbps
224 kbps
240 kbps
272 kbps
304 kbps
336 kbps
368 kbps
3
3
3
6
12
16
18
20
24
36
40
48
60
72
80
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
3
3
3
3
6
8
9
10
12
18
20
24
30
36
40
48
60
70
72
80
84
96
108
120
132
144
156
–
–
–
–
–
–
–
–
–
3
3
3
3
3
4
–
5
6
9
10
12
15
18
20
24
30
35
36
40
42
48
54
60
66
72
78
80
100
120
140
150
170
190
210
230
3
3
3
3
3
2
–
–
3
–
5
6
–
9
10
12
15
N/A
18
20
21
24
27
30
33
36
39
40
50
60
70
75
85
95
105
115
–
–
–
–
–
–
–
–
–
–
–
3
–
–
5
6
–
–
9
10
–
12
–
15
–
18
–
20
25
30
35
–
–
–
–
–
In accordance with
channel data rate.
Theoretical
minimum is 1
allocation unit per
active channel. For
low rate data (i.e.,
for data rates lower
than the bandwidth
allocation unit),
oversampling is used
to achieve an integer
number of bit
samples, e.g., when
the bandwidth
allocation unit is
0.8 kbps and the
channel data rate is
300 bps, the
effective bandwidth
used is 8 times
higher, 2.4 kbps.
2.4 kbps translate to
3 allocation units.
Therefore, the effect
of oversampling is to
increase the
bandwidth used to
transfer low-rate
channels.
64 kbps rate
available only for
main link rates of
128 kbps and higher
KHS.2 Only
N
×
2.4
N
×
4.8
N
×
9.6
N
×
6
–
–
N
×
3
–
–
–
N
×
3
–
–
–
N
×
3
Channel
End-to-End
Control Signals
1 allocation unit per module or for each two channels of the
same module, when applicable (1 allocation unit can carry
up to four control signals, e.g., two signals for two channels)
For each channel that requires
end-to-end signaling, including
voice channels