Polycom SVP010 User Manual
Page 12
SpectraLink 8000 SVP Server: Administration Guide for Mitel and Cisco
PN: 1725-36031-001_H.doc
12
not linear due to the Erlang
1
calculation for telephony traffic. The
possible installed handsets figures are approximate and meant as a
guideline and not as an absolute recommendation for any facility.
Possible installed handsets
Number of
SVP
Servers
Number of
calls
possible
per Server
Total possible
installed handsets
@ 100% in
active calls
Erlang
@ 10% in
active calls
@ 15% in
active calls
@ 20% in
active calls
1 80
80 65
500
433
325
2 64
128
111
1000
740
555
3 60
180
160
1500
1067
800
4 58
232
211
2000
1407
1055
5 57
285
262
2500
1747
1310
6 56
336
312
3000
2080
1560
7 56
392
367
3500
2447
1835
8 55
440
415
4000
2767
2075
9 55
495
469
4500
3127
2345
10 55
550 524
5000
3493
2620
11 55
605 578
5500
3853
2890
12 54
648 621
6000
4140
3105
13 54
702 674
6500
4493
3370
14 54
756 728
7000
4853
3640
15 54
810 782
7500
5213
3910
16 54
864 836
8000
5573
4180
1
An Erlang is a unit of telecommunications traffic measurement. Strictly speaking, an Erlang represents the
continuous use of one voice path. In practice, it is used to describe the total traffic volume of one hour.
Erlang traffic measurements are made in order to help telecommunications network designers understand traffic
patterns within their voice networks. This is essential if they are to successfully design their network topology and
establish the necessary trunk group sizes.
Erlang traffic measurements or estimates can be used to work out how many lines are required between a telephone
system and a central office (PSTN exchange lines), or between multiple network locations.
Please visit
www.erlang.com
for additional information.