Typical Configurations
41
T. 38
16
Record-a-Call
12
Every Record-a-Call session uses a conference resource and
a voice mail session from the available pool. The maximum
number of simultaneous sessions supported is 12, but may be
limited to less than this by the available resources.
CIM ports
4 (12)
These ports may be used to connect ASU cabinets only. Up
to 2 Quad CIM cards can be installed to increase the number
of CIM ports.
Analog trunks
36
96
ASUs supported
4 (12)
Additional ASU cabinets may be connected to the Quad CIM
cards.
LS trunks (in ASU)
22 (38)
The internal ASU (AMB) has 6 LS trunks and up to four
Universal ASU cabinets may be added with 4 LS trunks each
(or four ASU II cabinets with 8 LS trunks each).
IP networking
yes
The system can support a maximum of 2000 programmed IP
trunks, but the number which can be used at any one time will
be limited by other resources.
MMC modules
(installed slots)
Echo Canceller (3,4,5,6)
Quad DSP (3,4,5,6)
DSP II (4,5,6)
Dual FIM (1,2,3,4)
T1/E1 (1,2,3,4)
Quad BRI (1,2,3,4)
Quad CIM (1,2,3,4)
The maximum number of usable framer and FIM modules
may be limited by the E2T capacity of the system, especially
in the base configuration (single processor).
Digital links
16
Digital trunks may be on embedded Quad BRI modules (12),
Dual T1/E1 modules (8), T1/E1 combo modules (4), or
external NSU cabinets (16).
Peripheral cabinets
6 (+6 expanded)
The number of peripheral cabinets may be doubled by using
an expanded peripheral cabinet, but this will only increase the
line size and does not increase the traffic capacity.
NSU/DSU cabinets
8
To install the maximum number of NSUs and peripheral
cabinets at the same time will require chaining of the NSUs.
Note that the maximum usable capacity may be limited by the
E2T and DSP resources before the physical capacity is
reached.
Note:
The MXe III has an improved processor card in both positions (533 MHz CPU
with DDR2 memory). This does not increase any of the allowed maximum values on the
controller, but does permit more features to be combined at higher performance levels.
Refer to the System Engineering Tool for detailed performance evaluations on this (or
any other) controller.
Table 11: Maximum MXe configuration (continued)
FEATURE/
RESOURCE
VALUE/QUANTITY
NOTES
BASE MXE
EXPANDED
Page 2 of 2
Summary of Contents for MiVOICE BUSINESS
Page 1: ...Mitel MiVoice Business RELEASE 7 2 ENGINEERING GUIDELINES ...
Page 15: ...Chapter 1 ABOUT THIS DOCUMENT ...
Page 16: ......
Page 22: ...Engineering Guidelines 8 ...
Page 23: ...Chapter 2 SYSTEM OVERVIEW ...
Page 24: ......
Page 28: ...Engineering Guidelines 14 ...
Page 29: ...Chapter 3 TYPICAL CONFIGURATIONS ...
Page 30: ......
Page 73: ...Chapter 4 PHONES AND VOICE APPLICATIONS ...
Page 74: ......
Page 95: ...Phones and Voice Applications 81 Figure 9 ICP Connection Paths and Limitations ...
Page 100: ...Engineering Guidelines 86 ...
Page 101: ...Chapter 5 POWER ...
Page 102: ......
Page 128: ...Engineering Guidelines 114 ...
Page 129: ...Chapter 6 PERFORMANCE ...
Page 130: ......
Page 135: ...Chapter 7 APPLICATIONS ...
Page 136: ......
Page 142: ...Engineering Guidelines 128 ...
Page 143: ...Chapter 8 EMERGENCY SERVICES ...
Page 144: ......
Page 151: ...Chapter 9 IP NETWORKING ...
Page 152: ......
Page 167: ...Chapter 10 LICENSING ...
Page 168: ......
Page 183: ...Chapter 11 BANDWIDTH CODECS AND COMPRESSION ...
Page 184: ......
Page 209: ...Chapter 12 NETWORK CONFIGURATION CONCEPTS ...
Page 210: ......
Page 244: ...Engineering Guidelines 230 ...
Page 245: ...Chapter 13 NETWORK CONFIGURATION SPECIFICS ...
Page 246: ......
Page 309: ...Appendix A CAT 3 WIRING ...
Page 310: ......
Page 315: ...CAT 3 Wiring 301 Figure 55 CX MX MXe AX and LX Minimum Cable Standard ...
Page 316: ...Engineering Guidelines 302 ...
Page 317: ...Appendix B INSTALLATION EXAMPLES ...
Page 318: ......
Page 335: ...Appendix C LLDP AND LLDP MED CONFIGURATION EXAMPLES ...
Page 336: ......
Page 347: ...Appendix D VOIP AND VLANS ...
Page 348: ......
Page 353: ...Appendix E VOIP SECURITY ...
Page 354: ......
Page 381: ... ...