Nortel Networks 411-2021-111 Benutzerhandbuch
Contents
vii
DMS-MTX DualMode Metrocell Cell Site Description
Figure 3-4
Frame layout of a 120
°
STSR Metrocell site with one RF frame
(front view) 3-9
Figure 3-5
Frame layout of a 120
°
STSR Metrocell site with three RF frames
(front view) 3-9
Figure 3-6
Block diagram of a 120
°
STSR Metrocell using one RF Frame 3-10
Figure 3-7
Block diagram of a 120
°
STSR Metrocell using three RF Frames 3-
11
Figure 3-8
Frame layout of a 60
°
STSR Metrocell with two RF frames (front
view) 3-22
Figure 3-9
Typical frame layout of a 60
°
STSR Metrocell with four RF frames
(front view) 3-22
Figure 3-10
Block diagram of a 60
°
STSR Metrocell with two RF Frames 3-23
Figure 3-11
Block diagram of a 60
°
STSR Metrocell with four RF Frames 3-25
Figure 5-1
Power distribution for the CE and RF Frames in a Metrocell 5-5
Figure 6-1
Example of Metro TRU datafill 6-6
Figure 6-2
Example of Metro ICRM/TRU hardwire configuration 6-7
List of tables
Table 1-1
Channel designation and frequency assignment 1-5
Table 3-1
RF Frame 1 PA to ATC connection for an omni Metrocell with up to
20 channels 3-5
20 channels 3-5
Table 3-2
RF Frame 1 PA to ATC connection for an omni Metrocell with 21
channels or more 3-6
channels or more 3-6
Table 3-3
RMC to splitter connections for an Omni Metrocell 3-7
Table 3-4
Component requirement for an omni Metrocell 3-7
Table 3-5
PA to ATC connection for a 120
°
Metrocell with one RF Frame 3-12
Table 3-6
PA to ATC connection for a 120
°
Metrocell with 20 channels or less
per RF frame for one sector 3-13
Table 3-7
PA to ATC connection for a 120
°
Metrocell with 21 channels or
more per RF frame for one sector 3-15
Table 3-8
RMC to splitter connections for a 120
°
STSR Metrocell with one RF
Frame 3-17
Table 3-9
RMC to splitter connections for a 120
°
STSR Metrocell with three
RF Frames 3-18
Table 3-10
Component requirement for a 120
°
STSR Metrocell with one RF
Frame 3-20
Table 3-11
Component requirement for a 120
°
STSR Metrocell with three RF
Frames 3-20
Table 3-12
PA to ATC connection for a 60
°
STSR Metrocell using two RF
Frames 3-28
Table 3-13
PA to ATC connection for a 60
°
STSR Metrocell using four RF
Frames 3-30
Table 3-14
RMC to splitter connections for a 60
°
STSR Metrocell with two RF
Frames 3-33
Table 3-15
RMC to splitter connections for a 60
°
STSR Metrocell with four RF
Frames 3-34
Table 3-16
Component requirement for a 60
°
STSR Metrocell with two RF
Frames 3-37
Table 3-17
Component requirement for a 60
°
STSR Metrocell with four RF
Frames 3-37