User's Manual
Table Of Contents
- Installation
- Overview AS4000
- Overview AS4020
- Preparation
- Rack Installation
- AS4000 AC Rack Cabling and Wiring
- AS4000 CT Shelf Cabling and Wiring
- _
- Expansion Rack Cabling
- Setup and Test
- System Testing
- AS4000 AC Setup and Test
- Access Concentrator: Turn-Up and DC measurements
- Setting Up the Access Concentrator
- _
- Setting the TEI and Baud Rate for Netspan Connection
- Creating AC Shelf/Rack on Sitespan
- Setting up AC Rack and Shelf configuration
- Configure AC Cards
- Configure AC Shelf properties
- Check Boot Sequence
- Alarm and Status Indications (Test 3)
- Self Test (Test 4)
- Test CTU cabling to the DDF E1 Cards
- Test CTU cabling to the Distribution Frame (DDF) GR303 Cards.
- Test XTU cabling to the DDF
- Connecting the AC to the Network
- Connect E1s/T1s to the Switch or Cross-Connect at the DDF
- Access Concentrator Rack Commissioning Test Results
- AS4000 CT Setup and Test
- AS4020 CT Setup and Test
- _
- General
- Repair and Return Procedure
- Repair Charges
- Return & Repair Tag
- Packing and Shipment
- Glossary
- Index
Setup and Test
137
Set RX sensitivity using a DACU without Calibrated Coupler
This procedure should be used to commission the CT if using a DACU. At the end of this test
a label with the calibrated value should be attached to the coupler. Calibrated attenuators and
cables are provided with the DACU for this test.
The RX sensitivity is set according to the required CT RX level. It is important to note that the
lower the modulation rate the further the geographical spread. For maximum range the
AS4020 should use QPSK 1/2. Higher data rates may be achieved using higher orders of
modulation but the range will lessen as the modulation rate increase. This level is determined
as part of the planning function and takes into consideration the highest modulation rate to be
offered and the noise floor predicted in the planning stage.
The RX Level is set dependant on the highest operational modulation rate as follows. By
undertaking an appropriate level of RF planning the level is optimised in order to balance
uplink data rate and system range.
Typical levels are shown below for two network configuration scenarios:
For networks where only a single RF Channel is operating, or only adjacent + one RF
Channels are used (no co or adjacent channel interference), the following CT Rx levels apply:
Rx Level (dBm / RW) Modulation
Code
Rate
Below 3GHz
Above
3GHz
Session
ids for
LAT TE
command
in Mode 3
QPSK 1/2 -105 dBm -103dBm 58 or 59
QPSK 3/4 -103 dBm -101dBm 56 or 57
16QAM 1/2 -97 dBm -95dBm 54 or 55
16QAM 3/4 -93 dBm (see note 1) -91dBm 52 or 53
64QAM 3/4 Not supported on the uplink
Table 1
Note 1: Note, 16QAM ¾ is only supported on the uplink with up to 7RW codes active.
For networks where co or adjacent frequencies are reused to provide “cellular type”
network coverage with limited available spectrum (ie. A relatively high level of co and
adjacent channel interference), the following CT Rx levels apply:
Rx Level (dBm / RW) Modulation
Code
Rate
Below 3GHz
Above
3GHz
Session
ids for
LAT TE
command
in Mode 3
QPSK 1/2 -103 dBm -100dBm 58 or 59
QPSK 3/4 -101 dBm -98dBm 56 or 57
16QAM 1/2 -94 dBm -92dBm 54 or 55
16QAM 3/4 -90 dBm (see note 1) -88dBm 52 or 53
64QAM 3/4 Not supported on the uplink
Table 1a
1. The DACU should be powered up and allowed to warm up for 30 mins to achieve
stability prior to setting the RX sensitivity. For details on setting up the DACU see
Connecting the DACU
2. Enter the loss values in the DACU calibration chart for the relevant frequency See
chart below