Alcatel MDR-8000 User manual
MDR-8000
/i/s
/u
Alcatel Part Number 3EM15726AA
3400 West Plano Parkway
Plano, Texas 75075-5813 U.S.A.
Part 2 of 2
Issue 2, June, 2004
Microwave Digital Radios
Users Manual
4-1
4
INITIAL TURNUP
4.1
SECTION INTRODUCTION
This section describes the procedures required to turn up the MDR-8000 Microwave
Digital Radios after installation.
This provisioning part of the section describes provisioning options available with the
MDR-8000 software application. Provisioning allows for the definition, editing, and storing
of specific functions. The MDR-8000 provides the ability to provision equipment and facili-
ties through a series of Windows™-based screens and messages. The Provisioning menu
lists equipment and functions which may be provisioned. You should use only those provi-
sioning screens that are applicable to your radio. Refer to the Users Guide section and
applicable DS1/E1, DS3, or OC3 Initial Turnup section on the attached CD for more infor-
mation.
4.2
RECOMMENDED SEQUENCE
Perform the following initial turnup procedures in sequence:
1
Install software on PC.
Software installed at the factory before delivery should not be overwrit-
ten by downloading to the radio controller at initial turnup. Refer to
Maintenance section on the attached CD for procedure to upgrade exist-
ing software.
2
Establish communication between radio and USI computer.
Saving provisioning on disk provides a reference for any future provi-
sioning changes.
3
Provision radio. See Figure 4-1.
The radio has been properly aligned and tested at the factory before shipment eliminating
the need for testing after initial turn-up. The only time testing and/or adjustment is
required is after a maintenance action such as removal and replacement procedure and/or
constant alarms requiring corrective maintenance action. The completed maintenance
action procedure(s) will reference any required test procedure(s).
Note
Note
4-2
Figure 4-1 Provisioning Sequence
FIG 4-5
DS3 RADIO
CONFIG
PROVISIONING
FIG 4-2
DS1/E1, DS3, OC3 RADIO
CONFIG
PROVISIONING
FIG 4-6
DS3
FACILITIES
PROVISIONING
FIG 4-3
DS1/E1 RADIO
CONFIG
PROVISIONING
FIG 4-4
DS1/E1
FACILITIES
PROVISIONING
FIG 4-8
OC3 RADIO
CONFIG
PROVISIONING
FIG 4-9
OC3
FACILITIES
PROVISIONING
FIG 4-10
OC3 RADIO
WAYSIDE DS1 FACILITIES
PROVISIONING
FIG 4-7
DS3 RADIO
WAYSIDE DS1 FACILITIES
PROVISIONING
FIG 4-11
DS1/E1, DS3, OC3 RADIO SERVICE CHANNEL PROVISIONING
FIG 4-12
DS1/E1, DS3, OC3 RADIO
AUDIO PROVISIONING
FIG 4-13
DS1/E1, DS3, OC3 RADIO
MCS-11 PROVISIONING
FIG 4-14
DS1/E1, DS3, OC3 RADIO
MCS TRANSPORT/PPP
TRANSPORT PROVISIONING
FIG 4-17
DS1/E1, DS3, OC3 RADIO
CONTROL NAMES
PROVISIONING
START
OPTIONAL
ENTRY
LMW-9038-sm
05/07/04
FIG 4-16
DS1/E1, DS3, OC3 RADIO
ELMC REMOTE TIME-OUT
CONSTANT PROVISIONING
FIG 4-18
DS1/E1, DS3, OC3 RADIO
STATION ALARM NAMES
PROVISIONING
END
OPTIONAL
ENTRY
FIG 4-15
DS1/E1, DS3, OC3 RADIO
ELMC PROVISIONING
DS1/E1 DS3 OC3
4-3
4.3
PROVISIONING RADIO
Screen shown is for DS1 Radio. DS3 and OC3 radio configuration pro-
visioning is similar. Changes to provisioning do not have to be made in
any particular order.
Open radio provisioning screens. On main screen, double click on tower icon. Status and
alarm screen displays. Click on Provisioning. Check current provisioning and change as
required.
Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 1 of 4)
Note
ATPC Enabled A&B PA Present
RADIO CONFIG:
HS Tx/HS Rx TERMINAL
6-8 GHz
SYSTEM ALARM
Visual/Audible Relays ON/NO Station Alarm 13-16 RSL Alarm Enable
RSL-Sw Enable Eye BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 DS1 16 LINES 128 TCM
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
SELECT DISABLE OR DOUBLE CLICK TO ENABLE
(00 DISPLAYS). ENTER 2-DIGIT NUMBER
BETWEEN 00 AND 99 AS IDENTIFICATION FOR
RADIO RCV/XMT PAIR.
USE FOR FREQUENCY COORDINATION IN
CONGESTED AREAS THAT HAVE NEARBY
TRANSMITTERS AT SAME FREQUENCY WITH
SAME MODULATION. ID MUST BE SAME AT BOTH
ENDS OF HOP. IF RCV ID DOES NOT MATCH ID
RECEIVED FROM FAR-END XMTR, A USI ALARM
AND RACK ALARM ARE GENERATED.
DISPLAYS NUMBER OF LINES AVAILABLE AS
DETERMINED BY CAPACITY KEY. CHANGING NUMBER
OF LINES REQUIRES CHANGING CAPACITY KEY.
SELECT APPROXIMATE ERROR RATE AT WHICH EYE
CLOSURE ALARM ACTIVATES AND SWITCHING OCCURS:
EYE BER=1X10-5, 1X10-6, 1X10-7, 1X10-8 OR SELECT
Eye BER Disable TO ACTIVATE ALARMS AT APPROXIMATELY
1X10-6 WITHOUT RECEIVERS SWITCHING.
SELECT A&B PA Present IF SHELF IS EQUIPPED
WITH A&B PAs, A OR B PA ONLY IF SHELF IS EQUIP-
PED WITH ONLY ONE PA, OR NO PA IF SHELF IS NOT
EQUIPPED WITH PA. UNEQUIPPED PA ALARMS ARE
DISABLED.
SELECT Major/Minor TO TRIGGER MAJOR ALARM
ON ANY ALARM ON
ON-LINE SIDE AND MINOR ALARM
ON
ANY ALARM ON OFF-LINE SIDE. SELECT
Visual/
Audible TO TRIGGER RACK ALARM ON ANY ALARM
ON ON-LINE SIDE.
DISPLAYS ELMC OPTION KEY TYPE INSTALLED ON CON-
TROLLER. STAT (STATUS)/PROV (REMOTE PROVISIONING)/
WAYSIDE (WITH WAYSIDE DS1 MONITORING). NOT PRO-
VISIONABLE. CHANGING DISPLAY REQUIRES CHANGING
OPTION KEY.
SELECT TERMINAL, REPEATER, RING TERMINAL OR
RING REPEATER FROM DROP DOWN LIST. SELECT
REPEATER IF TRAFFIC AND SERVICE CHANNEL (FOUR
RAILS OF X/Y DATA) ARE BEING TRANSPORTED
BETWEEN
J314 OF BOTH SHELVES.
ENABLE OR DISABLE AUTOMATIC POWER
CONTROL (ATPC) FUNCTION. SELECT
ATPC Disable, ATPC Enabled, OR ATPC
with Timeout FROM DROP DOWN LIST.
SEE SHEET 2 0F 3 FOR DETAILS.
DISPLAYS MODULATION SCHEME.
NOT PROVISIONABLE
DISPLAYS RADIO TYPE
NOT PROVISIONABLE
BACKSPACE TO DELETE CURRENT ADDRESS
AND ENTER 5-DIGIT REMOTE RACK ADDRESS.
SEE FIGURE 6-11 FOR DETAILS.
SELECT RSL-Sw Enable TO ENABLE
AUTOMATIC RECEIVER SWITCHING BASED ON
RSL. WHEN ENABLED, RECEIVER SWITCHES IF:
1. ON-LINE RCV RSL IS BELOW RCV
AGC THRESHOLD, AND
2. OFF-LINE RCV RSL IS ABOVE RCV
AGC THRESHOLD.
SELECT RSL-Sw Disable TO DISABLE
AUTOMATIC RECEIVER SWITCHING.
LMW-7084
Sheet 1 of 2
02/04/03
SELECT Station Alarm 13-16 TO ENABLE STATION
ALARM 13-16 INPUTS TO RELAY INTFC. WHEN
EXTERNAL TBOS IS WIRED TO RADIO, SELECT
TBOS Display 1-8 TO ENABLE TBOS DRIVERS ON
CONTROLLER AND SELECT A TBOS DISPLAY (1-8)
TO VIEW.
SELECT Relays ON/NO (NORMALLY OPEN-HIGH
IMPEDANCE) OR Relays ON/NC (NORMALLY CLOSED-
GROUND) ON ALARM FOR ALARM/STATUS OUTPUTS OR
Relays OFF. REFER TO RELAY INTERFACE IN THEORY
SECTION FOR DETAILS.
4-4
Screen shown is for DS1 Radio. DS3 and OC3 radio configuration pro-
visioning is similar. Changes to provisioning do not have to be made in
any particular order.
Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 2 of 4)
Note
ATPC Enabled A&B PA Present
RADIO CONFIG:
HS Tx/HS Rx TERMINAL
6-8 GHz
SYSTEM ALARM
Visual/Audible RELAYS ON/NO Station Alarm 13-16 RSL Alarm Enable
Disable AGC BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 DS1 16 LINES 128 TCM
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
LMW-7085
Sheet 2 of 2
06/04/02
SELECT ATPC OR ATPC T/O ENABLE AUTOMATIC XMT POWER CONTROL (ATPC) FUNCTION. WHEN PROVISIONED
ATPC OR ATPC T/0, ONE RCVR OUT-OF-LOCK CAUSES HIGH POWER ATPC FOR 10 SECONDS EVERY ONE MINUTE.
IF BOTH RCVRS ARE OUT-OF-LOCK, ATPC GOES TO HIGH POWER AND STAYS AT HIGH POWER UNTIL ONE RCVR
(REVERTS TO ONE RCVR OUT-OF-LOCK MODE) OR BOTH RCVRS LOCK. WHEN PROVISIONED ATPC T/O (TIMEOUT),
IF CMD PATH IS LOST, ATPC GOES TO HIGH POWER FOR FIVE MINUTES THEN GOES TO LOW POWER. THEN, EVERY
HOUR, ATPC GOES HIGH FOR 10 SECONDS AND THEN GOES TO LOW POWER. THIS CONTINUES UNTIL THE CMD
PATH IS RESTORED. SELECT DISABLE TO DISABLE ATPC FUNCTION.
NOTES
1. ATPC T/O IS A CMD PATH FUNCTION PERFORMED AT XMTR.
2. ATPC TRACKS RCVR WITH HIGHEST LEVEL.
3. LOW POWER ATPC IS 10dB DOWN FROM HIGH POWER.
SELECT RSL Alarm Enable TO ENABLE ALARM ON USI
ALARM AND STATUS SCREEN WHEN RSL DROPS
BELOW THRESHOLD. SELECT RSL Alarm Disable TO
INHIBIT ALARM.
4-5
Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 3 of 4)
ATPC Enabled A&B PA Present
RADIO CONFIG:
HS Tx/HS Rx TERMINAL
SYSTEM ALARM
Visual/Audible RELAYS ON/NO Station Alarm 13-16
RSL-SW Enable Eye BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 DS1 16 LINES
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
LMW-9088
09/08/03
6-8 GHz
128 TCM
Ring Repeater Normal
Terminal
Repeater
Ring Terminal
Ring Repeater
Normal
Master
Primary
Secondary
SELECT RING REPEATER MASTER AT ANY ONE RADIO IN THE RING, TO ENABLE THE
CONFIGURATION THAT IS USED TO BREAK THE LOOP OF A SYNCHRONOUS RING. IN THIS
CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE DISABLED (NORMALLY
ENABLED), PREVENTING THE RING FROM CLOSING ON ITSELF. WHEN A RING FAILURE OCCURS,
THE MASTER RECEIVES A RING FAIL MESSAGE FROM THE FAILED RADIO AND RESPONDS BY
ENABLING THE RF SERVICE CHANNEL AND REPEATER SYNC TO CONNECT THE SERVICE
CHANNELS. THE FAILURE IS WHAT NOW BREAKS THE SERVICE CHANNEL LOOP, PREVENTING
THE RING FROM CLOSING ON ITSELF.
SELECT RING REPEATER NORMAL AT ALL RADIOS IN THE RING, EXCEPT THE ONE
PROVISIONED MASTER. THIS ENABLES THE CONFIGURATION THAT ENABLES RF SERVICE
CHANNEL AND REPEATER SYNC, ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH
THE RF AND REPEATER PORTS. WHEN A FAILURE IS DETECTED ON THE RF OR REPEATER
PORT, THE ASSOCIATED RADIO SENDS A RING FAIL MESSAGE TO THE MASTER.
SELECT RING REPEATER PRIMARY WHEN THE RADIO IS IN THE MIDDLE OF A SUBTENDING
RING AND IS THE PRIMARY SERVICE CHANNEL CONNECTION POINT TO ANOTHER RING. IN
THIS CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE ENABLED,
ALLOWING SERVICE CHANNEL DATA TO PASS THROUGH THE RF AND REPEATER PORTS.
WHEN A FAILURE OCCURS, THE RF SERVICE CHANNEL AND REPEATER SYNC ARE DISABLED.
SELECT RING REPEATER SECONDARY WHEN THE RADIO IS IN THE MIDDLE OF A
SUBTENDING RING AND IS THE SECONDARY SERVICE CHANNEL CONNECTION POINT TO
ANOTHER RING. IN THIS CONFIGURATION, THE RF SERVICE CHANNEL AND REPEATER
SYNC ARE DISABLED. WHEN A FAILURE OCCURS, THE RF SERVICE CHANNEL IS ENABLED.
MASTER RING CONFIGURATIONS – Master rings are networks that consist entirely of a loop of
synchronous repeaters. All nodes in the same ring direction use the same clock timing. Timing may be
different for each direction. All service channel data is passed synchronously around the ring. The
status of the ring is monitored using messages in the ELMC channel.
SUBTENDING RING CONFIGURATIONS – Subtending rings are networks that connect asynchronously
to another ring at two locations (called primary and secondary connection points). The networks consist
of a string of synchronous repeaters. All nodes in the same direction use the same clock timing. Timing
may be different for each direction. All service channel data is passed synchronously within the
subtending ring section and asynchronously to the main ring. Asynchronous connection must use LMC1
for the ELMC connection. Messages are sent on LMC1 by the subtending ring primary and secondary
nodes to monitor for continuity of the synchronous connection.
Note
4-6
Figure 4-2 DS1/E1, DS3, OC3 Radio Configuration Provisioning (Sheet 4 of 4)
ATPC Enabled A&B PA Present
RADIO CONFIG:
HS Tx HS Rx Ring Repeater Normal
SYSTEM ALARM
Visual/Audible RELAYS ON/NO Station Alarm 13-16 RSL Alarm Enable
Degrade Enable
Disable AGC BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 OC3 OC-3 128 QAM
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
LMW-9089
09/08/03
Terminal
Repeater
Ring Terminal
Ring Repeater
Normal
Master
Primary
Secondary
RING TERMINAL MASTER – NOT USED
SELECT RING TERMINAL NORMAL AT FIRST RADIO IN AN INCOMPLETE RING, WHEN BUILDING
OUT A NEW RING. THIS PREVENTS HAVING TO GO BACK AND REPROVISION EACH RADIO WHEN
THE RING IS COMPLETE. AS EACH NEW HOP IS ADDED, PROVISION THE RADIOS ON EACH END
AS RING TERMINAL NORMAL AND PROVISION ALL RADIOS IN BETWEEN AS RING REPEATER
NORMAL. IN THE RING TERMINAL NORMAL CONFIGURATION, THE REPEATER CABLE IS NOT
INSTALLED. SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS ENABLED, ALLOWING
SERVICE CHANNEL DATA TO PASS THROUGH THE RF PORT. WHEN THE RING IS COMPLETE,
PROVISION ONE RADIO RING REPEATER MASTER AND ALL OTHER RADIOS AS RING REPEATER
NORMAL.
SELECT RING TERMINAL NORMAL AT RADIOS AT ENDS OF STUBS OFF SUBTENDING RINGS.
SELECT RING TERMINAL PRIMARY WHEN THE RADIO IS THE PRIMARY CONNECTION POINT
TO THE MAIN RING. IN THIS CONFIGURATION, THE REPEATER CABLE IS NOT INSTALLED.
SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS ENABLED, ALLOWING SERVICE
CHANNEL DATA TO PASS THROUGH THE RF PORT. THE RF SERVICE CHANNEL IS DISABLED
WHEN A FAILURE OCCURS.
SELECT RING
TERMINAL
SECONDARY WHEN THE RADIO IS THE SECOND CONNECTION
POINT TO THE MAIN RING. IN THIS CONFIGURATION, THE REPEATER CABLE IS NOT
INSTALLED. SYNC ALARMS ARE INHIBITED. THE RF SERVICE CHANNEL IS DISABLED. THE
RF SERVICE CHANNEL IS ENABLED WHEN A FAILURE OCCURS ALLOWING SERVICE
CHANNEL DATA TO PASS THROUGH THE RF PORT.
4-7
Figure 4-3 DS1/E1 Radio Configuration Provisioning
AT PC Enabled A&B PA Present
RADIO CONFIG:
HS Tx/HS Rx TERMINAL
SYSTEM ALARM
Visual/Audible RELAYS ON/NO Station Alarm 13-16 RSL Alarm Enable
Disable AGC BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 DS1 16 LINES 128 TCM 6-8 GHz
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
LMW-7100-SM
09/16/02
SELECT ONE:
* NS Tx/NS Rx
NS Tx/HS Rx
* NS Tx/SD Rx
* HS Tx/HS Rx
* HS Tx/SD Rx
FD TxA/Rx A
FD TxA/Rx B
NS = NON-STANDBY
HS = HOT-STANDBY
SD = SPACE DIVERSITY
FQ = FREQUENCY DIVERSITY
* ALTHOUGH THERE ARE A TOTAL
OF 7 CONFIGURATIONS, ONLY 4
EXAMPLES ARE ILLUSTRATED.
4-8
DS1/E1 PROVISIONING EXAMPLE 1: NS Tx/NS Rx
DS1/E1 PROVISIONING EXAMPLE 2: NS Tx/SD Rx
LBO
RPTR
CH
RF
IN/OUT
I
Q
RX
RS
RF
RF
DS1/E1
1-16
RPTR
CH
DS1/E1
1-16
XMTR
ADIPLEXER
RCVR
A
I/O
INTER-
FACE
A
PA
(OPTIONAL)
LMW-5051-SM
09/16/02
LBO
RPTR
CH
RF
IN/OUT
I
Q
RX
RS
RX
RS
RF
RF
DS1/E1
1-16
RPTR
CH
DS1/E1
1-16
XMTR
A
DIPLEXER
XMT
SW
RCVR
A
I/O
INTER-
FACE
A
RCV
FILTER
RCVR
B
I/O
INTER-
FACE
B
PA
(OPTIONAL)
RF
LMW-5050-sm
07/24/01
RF
IN
FROM
SECOND
ANTENNA
4-9
DS1/E1 PROVISIONING EXAMPLE 3: HS Tx/HS Rx
DS1/E1 PROVISIONING EXAMPLE 4: HS Tx/SD Rx
LBO
RPTR
CH
RF
IN/OUT
I
Q
RX
RS
I
Q
RX
RS
RF
RF
RF
DS1/E1
1-16
RPTR
CH
DS1/E1
1-16
XMTR
A
DIPLEXER
XMT
SW
RCVR
A
I/O
INTER-
FACE
A
XMTR
B
RCVR
B
I/O
INTER-
FACE
B
PA
(OPTIONAL)
(OPTIONAL)
RF
LMW-5049-sm
07/24/01
PA
MX DX
LBO
RPTR
CH
RF
IN/OUT
I
Q
RX
RS
I
Q
RX
RS
RF
RF
DS1/E1
1-16
RPTR
CH
DS1/E1
1-16
XMTR
A
DIPLEXER
XMT
SW
RCVR
A
I/O
INTER-
FACE
A
XMTR
B
RCV
FILTER
RCVR
B
I/O
INTER-
FACE
B
PA
(OPTIONAL)
(OPTIONAL)
RF
RF
LMW-5048-SM
09/16/02
PA
RF
IN
FROM
SECOND
ANTENNA
MX DX
4-10
Figure 4-4 DS1/E1 Facilities Provisioning
LMW-3020-sm
12/16/03
DS1 LINE LENGTH
LINES
INSERT CHANNEL
DROP CHANNEL
LINE CODING
31 2 4
ON
ON
AMI
ON
ON
AMI
OFF
OFF
AMI
OFF
OFF
AMI
75 6
OFF
OFF
AMI
OFF
OFF
AMI
OFF
OFF
AMI
8
OFF
OFF
AMI
Select All
AIS INHIBIT
OFF OFF OFF OFF OFF OFF OFF OFF
LINE
INSERT CHANNEL
DROP CHANNEL
LINE CODING
119 10 12
OFF
OFF
AMI
OFF
OFF
AMI
OFF
OFF
AMI
OFF
OFF
AMI
1513 14
OFF
OFF
AMI
OFF
OFF
AMI
OFF
OFF
AMI
16
OFF
OFF
AMI
Select All
AIS INHIBIT
OFF OFF OFF OFF OFF OFF OFF OFF
AIS SIGNAL
ALL ONES
0-150
SELECT ALL 1s OR ALL 0s AIS
DATA FORMAT FOR ALL LINES. SELECT ON OR OFF.WHEN
SET TO ON,
AIS INSERTION
IS INHIBITED ON SELECTED
DS1/E1.
SELECT AMI OR B8ZS CODING
FOR EACH DS1 LINE. E1 LINE
CODING IS ALWAYS HDB3.
FOR EACH LINE, SELECT
ON TO DROP LINE OR OFF
TO DISABLE LINE AND
ALARMS.
SELECT ON TO DROP
ALL LINES OR OFF TO
DISABLE ALL LINES
AND ALARMS.
SELECTING ON INSERTS LOCAL DATA AND TURNS ON
ALARM REPORTING. SELECTING NM (NOT MONITORED),
DEFAULT SETTING, INSERTS LOCAL AIS DATA BUT TURNS
OFF ALARM REPORTING. SELECTING
OFF
TURNS OFF LOCAL
DATA INSERT AND TURNS OFF ALARM REPORTING.
SELECT
ON
FOR ALL LINES IN USE AT A TERMINAL OR DROP-
AND-INSERT REPEATER. SELECT NM FOR ALL LINES NOT
USED AT A TERMINAL AND DROP-AND-INSERT REPEATER.
SELECT OFF FOR ALL LINES AT A NON-STANDBY THROUGH
REPEATER, OR SELECT
OFF
FOR LINES 1 THROUGH 4 AND
NM FOR LINES 5 THROUGH 16 AT A PROTECTED REPEATER.
SELECT
ON
TO
INSERT ALL
LINES OR
OFF
TO
DISABLE ALL LINES
AND ALARMS.
SELECT
ON
TO INHIBIT AIS
INSERTION ON ALL LINES.
SELECT
OFF
TO ENABLE
AIS INSERTION ON ALL
LINES.
SELECT AMI
OR B8ZS
CODING FOR
ALL DSI LINES
FOR ALL DS1 LINES, SELECT RANGE
THAT MATCHES ACTUAL DISTANCE
TO CROSS-CONNECT 0-150 (TEO OFF),
150-330 (TEO ON), 330-480 (TEO OFF)
OR
480-660 (TEO ON)
FT. FOR E1, NO DIS-
TANCE
IS DISPLAYED.
Note
The term "LINE" is used to describe an input/output signal at DS1/E1 rate (1.544 MB/S 2.043 MB/S). The
term "CHANNEL" is used to describe a multiplexed signal, at a higher rate than DS1/E1. The inserted
channel is output of multiplexer circuit. The dropped channel is input to demultiplexer circuit. The multiplexer
and demultiplexer circuits are located on I/O interface module.
Note
If installation at both ends of a hop are complete except for connecting to customer inputs/outputs and it is
desirable to have an alarm-free system, alarm reporting on the incomplete connections can be disabled
temporarily through provisioning. You can communicate over the hop even if you do not have the radio connected
to customer DS1 inputs; however, you will alarm unless you select OFF to disable INSERT CHANNEL (located on the
USI DS1 Facilities screen) for all equipped lines. Disabling the DS1 insert function disables both the lines and
alarm reporting for the lines. After all customer connections are complete, alarm reporting can be restored to
normal. To restore alarm reporting to normal, set INSERT CHANNEL on DS1 Facilities screen to ON.
4-11
Figure 4-5 DS3 Radio Configuration Provisioning
ATPC Enabled A&B PA Present
RADIO CONFIG:
HS Tx/HS Rx TERMINAL
SYSTEM ALARM
Visual/Audible RELAYS ON/NO Station Alarm 13-16
Degrade Enable
RSL Alarm Enable
Disable AGC BER Disable
RCV SWITCHING:
RADIO TYPE:
MDR-8000 DS3 3 LINES 64 QAM
OPTIONS:
Stat/Prov/WaySideOption Key:
SYSTEM ID:
TEST1 Disable
RADIO LINK ID:ELMC:
LMW-7101-SM
09/16/02
SELECT ONE:
* NS Tx/NS Rx
NS Tx/HS Rx
* NS Tx/SD Rx
* HS Tx/HS Rx
* HS Tx/SD Rx
* FREQ DIV
* HS Tx/NS Rx
* SIMPLEX NS Tx
SIMPLEX HS Tx
* SIMPLEX NS Rx
* SIMPLEX HS/SD Rx
NS = NON-STANDBY
HS = HOT-STANDBY
SD = SPACE DIVERSITY
FQ = FREQUENCY DIVERSITY
SELECT Degrade Enable TO ACTIVATE APPROXIMATE ERROR RATE
AT WHICH BER Deg Alm ALARM ACTIVATES AND SWITCHING OCCURS:
1X10-5, 1X10-6, 1X10-8, ON DS3 FACILITIES PROVISIONING SCREEN.
SELECT Degrade Disable TO ACTIVATE BER Deg Alm AT SELECTED
ERROR RATE WITHOUT RCVRS SWITCHING.
* Although there are a total of 11
configurations available, only 9
examples are illustrated.
4-12
DS3 PROVISIONING EXAMPLE 1: NS Tx/NS Rx
DS3 PROVISIONING EXAMPLE 2: NS Tx/SD Rx
RPTR
CH
LBO
DS3
1 OR 3
WAYSIDE DS1
1 OR 3
I/O
INTFC
XMTR DIPLEXERPA
I
Q
I
Q
(OPTIONAL)
RF
IN/OUT
RCVR
LMW-3124-sm
05/17/03
LBO I
RF
RF
Q
I
Q
I
SC SYNC
Q
I/O
INTFC
A
I/O
INTFC
B
XMTR
ADIPLEXER
RCV
FILTER
PA
(OPTIONAL)
RF
IN/OUT
RF
IN
FROM
DIVERSITY
ANTENNA
RCVR
A
RCVR
B
LMW-3125-sm
05/17/03
SC/SYNC2ND MDR-8000
SHELF (RPTR)
SPLITTER (XMT)
COMBINER (RCV)
X-CONN (TERM)
OR
2ND MDR-8000
SHELF (RPTR)
WAYSIDE DS1
DS3
4-13
DS3 PROVISIONING EXAMPLE 3: HS Tx/HS Rx
DS3 PROVISIONING EXAMPLE 4: HS Tx/SD Rx
LBO
I
Q
I
Q
I
Q
I/O
INTFC
A
I/O
INTFC
B
XMTR
A
I
Q
XMTR
B
DIPLEXER
PA
XMT
SW
(OPTIONAL)
PA
(OPTIONAL)
RF
IN/OUT
RCVR
A
RCVR
B
LMW-3126-sm
05/17/03
RPTR
CH
DS3
1 OR 3
WAYSIDE DS1
1 OR 3
SYNCSC
LBO
I
Q
I
Q
I
Q
I/O
INTFC
A
I/O
INTFC
B
XMTR
A
I
Q
XMTR
B
DIPLEXER
PA
XMT
SW
(OPTIONAL)
PA
(OPTIONAL)
RF
IN/OUT
RCVR
A
RCVR
B
LMW-3127-sm
05/17/03
RPTR
CH
DS3
1 OR 3
WAYSIDE DS1
1 OR 3
RCV
FILTER
RF
IN
FROM
SECOND
ANTENNA
SYNCSC
4-14
DS3 PROVISIONING EXAMPLE 5: FREQ DIV
DS3 PROVISIONING EXAMPLE 6: HS Tx/NS Rx
LBO
I
Q
I
Q
I
Q
I/O
INTFC
A
I/O
INTFC
B
XMTR
A
I
Q
XMTR
B
PA XMT
FILTER
XMT
FILTER
RCV
FILTER
CIRCU-
LATOR
CIRCU-
LATOR
CIRCU-
LATOR
CIRCU-
LATOR
CIRCU-
LATOR
(OPTIONAL)
PA
(OPTIONAL)
RF
IN/OUT
RCVR
A
RCVR
B
LMW-3128-sm
05/17/03
RPTR
CH
DS3
1 OR 3
WAYSIDE DS1
1 OR 3
RCV
FILTER
SYNCSC
I
Q
I
Q
SC SYNC
I/O
INTFC
A
LBO
I/O
INTFC
B
XMTR
A
I
RF
RF
RF
RF
QXMTR
B
DIPLEXER
PA
XMT
SW
(OPTIONAL)
PA
(OPTIONAL)
RF
IN/OUT
RCVR
A
LMW-5061-sm
08/02/01
3
DS3
TO/FROM
X-CONN
3
WAYSIDE
DS1
SPLITTER (XMT)
COMBINER (RCV)
3
DS3
3
WAYSIDE
DS1
4-15
DS3 PROVISIONING EXAMPLE 7: SIMPLEX NS Tx
DS3 PROVISIONING EXAMPLE 8: SIMPLEX NS Rx
DS3 PROVISIONING EXAMPLE 9: SIMPLEX HS/SD Rx
LBO
1 OR 3
DS3
1 OR 3
WAYSIDE
DS1
1 OR 3
DS3
1 OR 3
WAYSIDE
DS1
I/O
INTFC XMTR FILTERPA
I
Q
RF
(OPTIONAL)
RF
IN/OUT
LMW-5058-sm
05/17/03
FROM
X-CONN
LBO
1 OR 3
DS3
1 OR 3
WAYSIDE
DS1
1 OR 3
DS3
1 OR 3
WAYSIDE
DS1
I/O
INTFC RCVR FILTER
I
Q
RF
RF
IN/OUT
LMW-5057-sm
05/17/03
TO
X-CONN
LBO
I
Q
I
Q
I/O
INTFC
A
I/O
INTFC
B
RCVR
A
RCVR
B
LMW-5059-sm
07/09/03
1 OR 3
DS3
1 OR 3
DS3
1 OR 3
WAYSIDE
DS1
1 OR 3
WAYSIDE
DS1
TO
X-CONN
RF
RF FILTER
FILTER
RF IN
RF IN
MAIN
ANT
DIVERSITY
ANT
4-16
Figure 4-6 DS3 Facilities Provisioning
BIT ERROR RATE
DS3 DEGRADE=10E-5
INPUT LINE BRIDGE
Select All
NA
TX/RX INTERFACE A
123 123
TX/RX INTERFACE B
DS3 LINES
XMT ALARM DISABLE
OFF
XMT VMR DISABLE
ON
NA
OFF
ON
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
ON
RCV ALARM DISABLE
OFF
RCV VMR DISABLE
OFF
AIS SIGNAL DISABLE
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
AIS SIGNAL TIMING
10/350 10/350
10/350 10/350 10/350 10/350
10/350
SELECT ON TO BRIDGE DS3 LINE 1 ONTO SELECTED
LINE(S) 2 AND/OR 3 TO PREVENT ALARMS ON UNUSED
LINE(S). SELECT OFF TO DISABLE FUNCTION.
SELECT ON TO DISABLE AIS (BLUE SIGNAL) INSERTION ON LINE
WHEN LOSS OF UPSTREAM DS3 FRAME IS DETECTED. SELECT OFF
TO INSERT AIS (BLUE SIGNAL) WHEN RADIO OR DS3 FRAME LOSS
IS DETECTED.
SELECT ON TO DISABLE VIOLATION MONITORING AND REMOVAL (VMR) ON
LINE DUE TO LOSS OF UPSTREAM DS3 FRAME. DS3 PARITY ERRORS ARE NOT
REMOVED AND ARE PASSED ON TO NEXT SECTION. SELECT OFF TO ENABLE
VMR AND REMOVE DS3 PARITY ERRORS.
SELECT OFF TO REPORT ALL ALARMS. SELECT ON TO
DISABLE ALARMS FOR LINE.
LMW-9039-sm
06/03/03
SELECT 10/350 TO INSERT AIS (BLUE SIGNAL) WHEN DS3 FRAME LOSS IS DETECTED
FOR AT LEAST 10ms AND REMOVE AIS WHEN FRAME LOSS HAS CLEARED FOR 350ms.
SELECT 3/3 TO INSERT AIS WITHIN 3ms OF DS3 FRAME LOSS DETECTION AND REMOVAL
WITHIN 3ms AFTER FRAME LOSS CLEARS.
WHEN Degrade Enable IS SELECTED ON RADO CONFIGURATION PROVISIONING SCREEN,
SELECT APPROXIMATE ERROR RATE AT WHICH BER Deg Alm ALARM ACTIVATES AND RCVR
SWITCHING OCCURS: 10E-5 (1X10-5), 10E-6 (1X10-6), 10E-7 (1X10-7), OR 10E-8 (1X10-8).
WHEN Degrade Disable IS SELECTED, SELECT ERROR RATE AT WHICH BER Deg Alm
ACTIVATES WITHOUT RCVRS SWITCHING.
Note
I
f installation at both ends of a hop are complete except for connecting to customer inputs/outputs and it is
desirable to have an alarm-free system, alarm reporting on the incomplete connections can be disabled
temporarily through provisioning. You can communicate over the hop even if you do not have the radio
connected to customer DS3 and wayside DS1 inputs; however, you will alarm. On the DS3 Facilities screen,
set XMT ALARM DISABLE and RCV ALARM DISABLE to ON to disable DS3 alarm reporting on the wayside DS1
F
acilities screen, set ALARM Lockout to ON to disable alarm reporting for all equipped wayside DS1 lines.
A
fter all customer connections are complete, alarm reporting can be restored to normal.
4-17
Figure 4-7 DS3 Radio Wayside DS1 Facilities Provisioning
ALARM LOCK OUT
Select All
OFF
DS1 CARD A
123 123
DS1 CARD B
DS1 LINES
DS1 LINE CODING
AMI
AIS INHIBIT
OFF
AIS INSERT
1
OFF
AMI
OFF
1
OFF
AMI
OFF
1
OFF
AMI
OFF
1
OFF
AMI
OFF
1
OFF
AMI
OFF
1
SELECT ON TO DISABLE ALARM REPORTING FOR WAYSIDE DS1 LINE.
SELECT OFF TO REPORT ALL ALARMS FOR THAT LINE.
SELECT AMI OR B8ZS CODING FOR WAYSIDE DS1 LINE.
LMW-3133C-sm
01/29/01
SELECT 1(ALL ONES) OR 0(ALL ZEROES) FOR ALARM INDICATION SIGNAL (AIS) LINE CODE.
SELECT ON TO DISABLE AIS INSERTION ON WAYSIDE DS1 LINE WHEN LOSS OF UPSTREAM
DS1 FRAME IS DETECTED. SELECT OFF TO INSERT AIS WHEN DS1 FRAME LOSS IS DETECTED.
4-18
Figure 4-8 OC3 Radio Configuration Provisioning
LMW-7033-sm
05/17/03
SYSTEM ID:
RADIO TYPE:
RADIO CONFIG:
SYSTEM ALARM
RCV SWITCHING:
OPTIONS:
ELMC: TEST 1 RADIO LINK ID: Disable
MDR-8000 OC3 OC3-3 128 TCM
HS Tx HS Rx TERMINAL
ATPC Enabled A&B PA Present
Visual/Audible RELAYS ON/NO Station Alarm 13-16 RSL Alarm Enable
Disable AGC BER Disable
Option Key: Stat/Prov/WaySide
SELECT ONE ON EACH
None
NS Tx
HS Tx
FD Tx
None
NS Rx
HS Rx
SD Rx
FD Rx
SELECT
FIBER
CONFIGURATION
++
2 Fiber
2 Fiber Switched
4 Fiber
4Fiber Switched
FIBER
CONFIGURATION
IS SELECTED ON
OC3 FACILITIES
PROVISIONING
SCREEN (FIG 7-6).
*
Although there are a total of 34 configurations
available, only 13 examples are illustrated.
Resulting Configurations
(Provisioning Examples 7-1 thru 7-13)
None/ NS Rx/2 Fiber
None/HS Rx/2 Fiber
None/HS Rx/2 Fiber SW
None/HS Rx/4 Fiber SW
None/SD Rx/2 Fiber
None/SD Rx/2 Fiber SW
None/SD Rx/4 Fiber SW
None/FD Rx/2 Fiber
None/FD Rx/2 Fiber SW
None/FD Rx/4 Fiber
NS Tx/None/2 Fiber
*NS Tx/NS Rx/2 Fiber
NS Tx/HS Rx/2 Fiber
NS Tx/HS Rx/2 Fiber SW
NS Tx/HS Rx/4 Fiber SW
*NS Tx/SD Rx/2 Fiber
*NS Tx/SD Rx/2 Fiber SW
*
HS Tx/SD Rx/2 Fiber
*
HS Tx/SD Rx/2 Fiber SW
HS Tx/SD Rx/4 Fiber SW
FD Tx/None/2 Fiber
FD Tx/None/2 Fiber SW
FD Tx/None/4 Fiber
FD Tx/None/4 Fiber SW
*
FD Tx/FD Rx/2 Fiber
*
FD Tx/FD Rx/2 Fiber SW
*
FD Tx/FD Rx/4 Fiber
*
FD Tx/FD Rx/4 Fiber SW
*NS Tx/SD Rx/4 Fiber SW
HS Tx/None/2 Fiber
HS Tx/None/2 Fiber SW
*HS Tx/Hs Rx/2 Fiber
*HS Tx/HS Rx/2 Fiber SW
*HS Tx/HS Rx/4 Fiber SW
NS = NON-STANDBY
HS = HOT-STANDBY
SD = SPACE DIVERSITY
SW = SWITCHED
TO
=
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