NEC UNIVERGE NEAX 2000 IPS User Manual

Chapter 3 System Highlights

UNIVERGE

NEAX

2000 IPS

Request For Proposal (RFP) Reference Guide

Page 3-9

Issue 6

Traffic Capacity In Erlang (For TDM Circuits)

Calculation Procedure

TDSW

LC

Internal Traffic

(I-erl)

LC

STA

LC

External Traffic

COT

(E-erl)

C.O.

Total system traffic capacity (T-erl) is obtainable by the following formula.

T (erl) = I (erl) + E (erl)

In the

U

NIVERGE

NEAX

2000 IPS, external traffic capacity is obtained from the Central Office Trunk

(COT) quantity by employing the “Erlang B Table”. There is no limitation for the internal traffic capacity.
The time slot is assigned for individual station and the connection between stations can be made
without limitation through TDSW (Time Division Switch). Consequently, when describing the traffic
capacity in Erlang, it is meaningless unless specifying the ratio of the internal and external traffic. From
the above idea, total system traffic capacity (T-erl) is actually obtained by the following formula:

T (erl) = Internal Traffic (I-erl) + External Traffic (E-erl)

= E (erl) ‚ (Ratio of external traffic)

When assuming the external and internal traffic is even.

T (erl) = E (erl) + 0.5

For example:
System configuration

:

• 384 Lines
• 64 C. O. Trunks
• External traffic: Internal traffic: = 7:4

In this system, external traffic capacity is obtained from “Erlang B” table. That is, 64 C. O. Trunks at
grade of service of 0.01 can carry 50.6 erl. Total traffic capacity of this system is obtained from above
50.6 erl and ratio of external traffic as shown below:

T (erl) = E (erl) ÷

(Ratio of external traffic)

= 50.6 ч

7__

7

ч

3

= 72.3 erl

Traffic capacity per station line

= 72.3erl ÷ 384

lines

= 0.19 erl/L