Alcatel USA 8702-50 MDR-8000 User Manual MDR 8000 Radio Family Users Manual Issue 9

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Document Title	MDR-8000 Radio Family Users Manual Issue 9
Document Creator	FrameMaker 7.0
Document Author:	Joe Watson

MDR-8000
Microwave Digital Radios
Users Manual
Alcatel Part Number 3EM11931AA
Issue 9, December, 2007
3400 West Plano Parkway
Plano, Texas 75075-5813 U.S.A.
NORTH AMERICA CUSTOMER SERVICE CENTER
24 HOURS PER DAY, 7 DAYS PER WEEK
PHONE the Call Center at
888-252-2832 (US and Canada)
or
613-784-6100 (International)
The Call Center Agent (CSA)
Will help connect you with Technical Assistance (TAC)
Or assist you with a Repair and Return
TAC
•
Phone-based technical support
•
After-hour emergencies
•
On-site technical support
•
E-mail support ml-tac.support@alcatel-lucent.com
•
Software and hardware upgrades
Repair and Return
•
Module repair
Other Services Offered
•
Training http://www.alcatel-lucent.com>support
– Technical Training
•
Field Services
– Installation and test
•
Registration http://www.alcatel-lucent.com>MyAccess
– Once registered
–
From “MyAlcatel” go to “Alcatel Support Documentation”
–
Register for access to Documentation and e-mail Update notifications
For Product Change Notices (PCN), Product Documentations, etc.
– Software and Hardware upgrade documentation
•
Customized and Comprehensive Service Agreements
ALCATEL-LUCENT’S PRIMARY MISSION IS
SATISFYING OUR CUSTOMERS' QUALITY EXPECTATIONS.
TAC
Technical Assistance Center
Telephone Assistance, Normal Working Hours (CST 8am 5pm M-F)
TAC supports all Alcatel North America Microwave products. This includes routine questions and
emergency service.
Telephone Assistance, Emergency After-Hours
• Defined as loss of traffic, standby equipment, or network visibility on traffic-bearing systems.
• Available through our Customer Service Agents (CSA).
Contact Information Ask the Customer Service Agent (CSA) for a Microwave (MW) or a Network
Management Service engineer (NMS).
Creating a TAC Action Request (AR)
Please provide the following information to the Customer Service Agent (CSA):
•
•
•
•
•
•
•
•
Last and First name
Company name
Telephone number
City and state (Street address if applicable) or Site Name and Location
Equipment type
A brief description of the problem affecting their equipment
Customer Priority: High, Medium, or Low.
TL-9000 Severity as described below.
TL-9000 Severities Defined
Critical
Problems severely affecting service, traffic, capacity, or network
management. They require immediate corrective action. (Ex.
Loss of network management capability, loss of traffic imminent
or existing).
Major
Conditions seriously affecting system operation. They require
immediate attention. (Ex. processor outage, loss of standby
equipment, loss of remote access, or network managers).
Minor
Problems not classified as critical or major.
Table of Contents
Section 1
General
Page
1.1
INTRODUCTION ............................................................................................. 1 - 1
1.2
CONTENT ....................................................................................................... 1 - 1
Section 2
Operation
2.1
GENERAL ........................................................................................................ 2 - 1
2.2
TURN-ON ........................................................................................................ 2 - 1
2.3
USER SYSTEM INTERFACE (USI) PROVISIONING FUNCTION/OPERATION ...... 2 - 2
2.4
OPERATING PROCEDURES .............................................................................. 2 - 2
2.4.1
Radio Receiver Manual Switching ..................................................................... 2 - 2
2.4.2
Radio Transmitter Manual Switching ................................................................. 2 - 5
2.4.3
Radio I/O Interface Manual Switching .............................................................. 2 - 5
2.4.4
MCS-11 Operation .......................................................................................... 2 - 7
2.4.5
Lamp Tests ....................................................................................................... 2 - 8
2.4.6
Alarm Checks .................................................................................................. 2 - 8
2.4.7
Orderwire Operation ....................................................................................... 2 - 8
2.4.8
Initiating Outgoing Orderwire Calls .................................................................. 2 - 8
2.4.9
Answering Incoming Orderwire Calls ................................................................ 2 - 8
2.5
TURN-OFF PROCEDURE ................................................................................... 2 - 9
2.6
EMERGENCY OPERATION .............................................................................. 2 - 9
2.7
MODEM OPERATION ...................................................................................... 2 - 9
2.8
CONTROLS, INDICATORS, TEST POINTS, AND CONNECTORS ....................... 2 - 9
Section 3
Interconnect
3.1
SECTION INTRODUCTION .............................................................................. 3 - 1
3.2
POWER CABLE CONNECTION ....................................................................... 3 - 1
3.3
PDU STRAPPING AND CONNECTIONS ........................................................... 3 - 4
3.4
SHELF/RACK ALARM CONNECTION .............................................................. 3 - 5
TOC - 1
Page
3.5
MDR-8000 SYNCHRONOUS REPEATER CONNECTIONS ................................ 3 - 5
3.5.1
Low Capacity DS1 Radios ................................................................................ 3 - 7
3.5.2
High Capacity DS3 Radios ............................................................................... 3 - 7
3.5.3
High Capacity OC3 Radios.............................................................................. 3 - 7
3.5.4
MDR-8000 Synchronous Repeater Compatibility Matrix ..................................... 3 - 8
3.5.5
MDR-8000 Synchronous Repeater Cables ......................................................... 3 - 8
3.6
DS1 CONNECTIONS (J303 IN AND J304 OUT) .............................................. 3 - 9
3.7
DS1 REPEATER (J314 ON ONE SHELF TO J314 ON SECOND SHELF) ............ 3 - 11
3.8
DS3 LBO STRAPPING AND CONNECTIONS ................................................. 3 - 12
3.9
DS3 LBO DS3 BNC CONNECTIONS (J21 THROUGH J26) ............................. 3 - 13
3.10
DS3 LBO WAYSIDE DS1 CONNECTIONS (J201 IN AND J202 OUT) ............. 3 - 14
3.10.1 Wayside DS1 Terminal .................................................................................. 3 - 14
3.10.2 Wayside DS1 Repeater .................................................................................. 3 - 14
3.11
DS3 REPEATER (J401 ON ONE SHELF TO J401 ON SECOND SHELF) ............ 3 - 16
3.12
FIBER OPTIC CABLE CONNECTIONS ............................................................. 3 - 18
3.12.1 2 or 4 Fiber Management Panel ..................................................................... 3 - 19
3.12.2 2x4 Fiber Switched Management Panel .......................................................... 3 - 19
3.13
OC3/STM-1 AUX INTERFACE BOARD WAYSIDE DS1 CONNECTIONS
(J201 IN AND J202 OUT) .............................................................................. 3 - 22
3.13.1 Wayside DS1 Terminal .................................................................................. 3 - 22
3.13.2 Wayside DS1 Repeater .................................................................................. 3 - 22
3.14
OC3/STM-1 REPEATER
(J203 ON ONE SHELF TO J203 ON SECOND SHELF) ................................... 3 - 23
3.15
ETHERNET CABLE CONNECTIONS ............................................................... 3 - 24
3.15.1 Automatic MDI/MDI-X Configuration............................................................... 3 - 24
3.15.2 Crossover Cable Option................................................................................. 3 - 25
3.15.3 Terminal Connections ..................................................................................... 3 - 29
3.15.4 Repeater Connections .................................................................................... 3 - 33
3.16
USI/CONTROLLER CABLE CONNECTION TO LAPTOP (J301) ......................... 3 - 35
3.17
SERVICE CHANNEL CONNECTIONS ............................................................ 3 - 37
3.17.1 2-Wire Handset Connection ........................................................................... 3 - 37
3.17.2 Service Channels Provisioning Options............................................................ 3 - 39
3.17.3 Audio 1, Audio 2 (J316, J317) Connections ................................................... 3 - 39
3.17.4 RS-232-1, RS-232-2 (J312, J313).................................................................... 3 - 43
TOC - 2
Page
3.18
MCS-11 CONNECTIONS .............................................................................. 3 - 44
3.18.1 MCS-11 Master (J307) ................................................................................... 3 - 45
3.18.2 MCS-11 Repeater-to-Spur Daisy Chain Connection (J308/J309) ....................... 3 - 48
3.18.3 MCS-11 Spur Connection (J310) .................................................................... 3 - 56
3.19
TMN CONNECTIONS ................................................................................... 3 - 58
3.19.1 Installing Module ........................................................................................... 3 - 58
3.19.2 Typical Interconnect Scenarios ........................................................................ 3 - 60
3.19.3 Front Access Connectors................................................................................. 3 - 64
3.19.4 MATING CABLES .......................................................................................... 3 - 67
3.19.5 Front Panel Craft Interface Connector J5 .......................................................... 3 - 68
3.20
ELMC (J315, J318) ........................................................................................ 3 - 69
3.21
FOREIGN ALARM INTERFACE (J305) ............................................................. 3 - 72
3.22
ALARM, STATUS, AND CONTROLS INTERCONNECT ..................................... 3 - 75
3.22.1 Controller Bus ................................................................................................ 3 - 77
3.22.2 Control Inputs ................................................................................................ 3 - 77
3.22.3 Station Alarm Inputs/TBOS Interface ............................................................... 3 - 77
3.22.4 Station Alarm Wiring ..................................................................................... 3 - 78
3.22.5 Relay Alarm/Status Outputs ............................................................................ 3 - 79
3.22.6 Relay Control Outputs .................................................................................... 3 - 80
Section 4
Initial Turnup
4.1
SECTION INTRODUCTION .............................................................................. 4 - 1
4.2
RECOMMENDED SEQUENCE ......................................................................... 4 - 1
4.3
SECURITY MANAGEMENT .............................................................................. 4 - 2
4.4
LOAD MDR-8000 SOFTWARE ON PC.............................................................. 4 - 2
4.5
TURN-ON PROCEDURE ................................................................................... 4 - 4
4.6
ESTABLISH COM PORT .................................................................................... 4 - 4
4.7
TEST PROCEDURES .......................................................................................... 4 - 7
4.8
PROVISIONING RADIO ................................................................................... 4 - 7
4.9
PROVISION ETHERNET FACILITY .................................................................... 4 - 29
4.9.1
Auto-Negotiation............................................................................................ 4 - 30
4.10
PROVISION DS1 FACILITY ............................................................................. 4 - 32
TOC - 3
Page
Section 5
Maintenance
5.1
INTRODUCTION ............................................................................................. 5 - 1
5.2
MAINTENANCE PHILOSOPHY......................................................................... 5 - 2
5.3
RECOMMENDED TEST EQUIPMENT ................................................................ 5 - 4
5.4
OPTIONAL TEST EQUIPMENT .......................................................................... 5 - 4
5.5
PERSONAL COMPUTER (PC)/LAPTOP .............................................................. 5 - 5
5.6
MDR-8000 ALARMS ........................................................................................ 5 - 7
5.7
ALARM MONITORING AND INSPECTION ....................................................... 5 - 7
5.8
RECOMMENDED PERIODIC CHECKS .............................................................. 5 - 8
5.9
RADIO TROUBLESHOOTING ........................................................................... 5 - 8
5.9.1
Troubleshooting USI Alarms .............................................................................. 5 - 8
5.9.2
Troubleshooting RCVR Lockup Problems ............................................................ 5 - 8
5.9.3
Troubleshooting Performance Screen Errors ....................................................... 5 - 9
5.10
ETHERNET-SPECIFIC TROUBLESHOOTING...................................................... 5 - 24
5.10.1 Troubleshooting Using Ethernet I/O Interface Module Front Panel Indicators ......5 - 24
5.11
TMN-SPECIFIC TROUBLESHOOTING .............................................................. 5 - 26
5.12
MODULE REPLACEMENT ............................................................................... 5 - 29
5.13
POWER SUPPLY REMOVAL AND REPLACEMENT ............................................ 5 - 32
5.14
CONTROLLER REMOVAL AND REPLACEMENT ............................................... 5 - 33
5.15
DS3 I/O INTERFACE REMOVAL AND REPLACEMENT ..................................... 5 - 37
5.16
OC3/STM-1/ETH I/O INTERFACE REMOVAL AND REPLACEMENT ................ 5 - 39
5.17
XMTR REMOVAL AND REPLACEMENT ........................................................... 5 - 40
5.18
XMT CRYSTAL OSCILLATOR FREQUENCY CORRECTION ................................ 5 - 46
5.19
XMTR OUTPUT LEVEL CHECK (NO PA) ........................................................... 5 - 47
5.20
IN-SERVICE XMTR CARRIER NULL ADJUSTMENT
USING SPECTRUM ANALYZER....................................................................... 5 - 48
5.21
XMTR OUTPUT LEVEL CALIBRATION ............................................................... 5 - 56
5.22
RCVR REMOVAL AND REPLACEMENT ............................................................ 5 - 61
5.23
RCV CRYSTAL OSCILLATOR FREQUENCY CORRECTION ................................ 5 - 64
5.24
PA REMOVAL AND REPLACEMENT ................................................................ 5 - 65
5.25
PA OUTPUT LEVEL CALIBRATION ................................................................... 5 - 67
5.26
CHANGING FREQUENCY............................................................................. 5 - 72
5.27
CLEANING ................................................................................................... 5 - 72
TOC - 4
Section 6
User Guide
6.1
INTRODUCTION ............................................................................................. 6 - 1
6.2
ANALOG SCREEN .......................................................................................... 6 - 1
6.2.1
PA (DC MON) ................................................................................................. 6 - 1
6.2.2
TX (PWR MON) ............................................................................................... 6 - 1
6.2.3
ATPC Voltage .................................................................................................. 6 - 1
6.2.4
RX (RSL 1) dBm ................................................................................................ 6 - 1
6.2.5
RX (EYE MON) ................................................................................................ 6 - 1
6.2.6
RX (AFC MON)................................................................................................ 6 - 1
6.2.7
Battery Voltage ................................................................................................ 6 - 1
6.3
DS1/E1 RADIO PERFORMANCE SCREEN ........................................................ 6 - 3
6.3.1
Repeater CRC Err Sec ...................................................................................... 6 - 3
6.3.2
Radio Severe Err Sec........................................................................................ 6 - 3
6.3.3
Radio Outage Sec............................................................................................ 6 - 3
6.3.4
Radio A and B Outage Sec .............................................................................. 6 - 3
6.3.5
Radio CRC Err Sec ........................................................................................... 6 - 3
6.3.6
Radio CRC Errors ............................................................................................. 6 - 3
6.3.7
Radio Internal BER............................................................................................ 6 - 3
6.3.8
Radio Average BER .......................................................................................... 6 - 3
6.4
DS3 RADIO PERFORMANCE MONITORING SCREEN ...................................... 6 - 5
6.4.1
Line 1-3 DS3 Errors .......................................................................................... 6 - 5
6.4.2
Line 1-3 DS3 BER ............................................................................................. 6 - 5
6.4.3
Radio Errors..................................................................................................... 6 - 5
6.4.4
Radio Error Seconds......................................................................................... 6 - 5
6.4.5
Radio Severe Error ........................................................................................... 6 - 5
6.4.6
Radio BER ....................................................................................................... 6 - 5
6.5
OC3/STM-1 RADIO PERFORMANCE MONITORING SCREENS ........................ 6 - 6
6.5.1
OC3/STM-1 Errors .......................................................................................... 6 - 6
6.5.2
OC3/STM-1 Error Seconds .............................................................................. 6 - 6
6.5.3
OC3/STM-1 Severe Error Seconds ................................................................... 6 - 6
6.5.4
OC3/STM-1 Severe Error Frame....................................................................... 6 - 6
6.5.5
OC3/STM-1 BER ............................................................................................. 6 - 6
6.5.6
Line 1-3 DS1 Error Seconds .............................................................................. 6 - 6
6.5.7
Radio Errors..................................................................................................... 6 - 6
TOC - 5
6.5.8
Radio Error Seconds ........................................................................................ 6 - 8
6.5.9
Radio Severe Error ........................................................................................... 6 - 8
6.5.10 Radio BER ....................................................................................................... 6 - 8
6.6
ETHERNET RADIO PERFORMANCE MONITORING SCREEN ............................. 6 - 8
6.6.1
RF Receive ....................................................................................................... 6 - 8
6.6.2
GPF Receive .................................................................................................... 6 - 9
6.7
ETHERNET PERFORMANCE MONITORING SCREEN ........................................ 6 - 9
6.7.1
IN (To RF Transmit)........................................................................................... 6 - 9
6.7.2
OUT (From RF Receive)................................................................................... 6 - 10
6.8
DS1/E1 RADIO CONTROL SCREEN .............................................................. 6 - 11
6.8.1
In-Service Controls ......................................................................................... 6 - 11
6.8.2
System Loopback Controls .............................................................................. 6 - 11
6.8.3
User Controls ................................................................................................. 6 - 11
6.8.4
DS1 Line Loopback Controls ........................................................................... 6 - 11
6.9
DS3 RADIO CONTROL SCREEN .................................................................... 6 - 13
6.9.1
In-Service Controls ......................................................................................... 6 - 13
6.9.2
System Loopback Controls .............................................................................. 6 - 13
6.9.3
User Controls ................................................................................................. 6 - 14
6.9.4
Wayside DS1 Line Loopback Controls ............................................................. 6 - 14
6.10
OC3/STM-1 RADIO CONTROL SCREEN ........................................................ 6 - 16
6.10.1 In-Service Controls ......................................................................................... 6 - 16
6.10.2 System Loopback Controls .............................................................................. 6 - 16
6.10.3 User Controls ................................................................................................. 6 - 16
6.11
ETHERNET RADIO CONTROL SCREEN ........................................................... 6 - 18
6.11.1 In-Service Controls ......................................................................................... 6 - 18
6.11.2 User Controls ................................................................................................. 6 - 18
6.11.3 System Loopback ........................................................................................... 6 - 19
6.11.4 DS1 Line Loopback ........................................................................................ 6 - 21
6.11.5 Inventory Screen ............................................................................................ 6 - 24
TOC - 6
Note
The information contained in this section is a summary of the section with the same title, but not the same section number, on the
enclosed CD. “Refer to CD” is used throughout this section to refer
the reader to the detail information on the CD. Go to this section on
the CD for interactive links to the detail information referred to in
this section.
USER GUIDE
INTRODUCTION
This section contains descriptions of screens not used or described in other sections.
Where there are operational differences, DS1/E1, DS3, and OC3/STM-1 and/or ETH
screens are shown separately.
6.1
ANALOG SCREEN
See Figure 6 - 1 and Figure 6 - 2. The Analog screen is used to display real-time analog
voltages and radio performance monitors for the ELMC address. Analog voltages are
updated automatically every second. Reset performance parameters to zero using the
Error Reset button (or hotkey F3) on the toolbar. TIME SINCE LAST RESET displays
the time in days, hours, minutes, and seconds since the last error reset.
6.2
6.2.1
PA (DC MON)
Indicates PA RF output level (Vdc).
6.2.2
TX (PWR MON)
Indicates XMTR module RF output level (Vdc).
6.2.3
ATPC Voltage
Indicates ATPC CONTROL signal output from controller to XMTR module(s) (Vdc).
6.2.4
RX (RSL 1) dBm
Indicates AGC MON output level from RCVR module (dBm).
6.2.5
RX (EYE MON)
Relative measure of noise level of receive signal (Vdc).
6.2.6
RX (AFC MON)
Indicates AFC MON output from single RCVR module (-3 Vdc = nominal frequency).
(The AFC MON signal is developed from the correction voltage applied to the crystal
oscillator on the single RCVR module.) Not provided by design and replaced with Path
Distortion on dual RCVR module.
6.2.7
Battery Voltage
Indicates battery power input (Vdc).
6-1
Alarm Status
Analog Monitor
Performance
Station Alarm
User Control
Provisioning
LOCAL ANALOG
ELMC Address [F8]:
J7915
ELMC Description:
SILVERTON
Communicating*
TRANSMIT Voltages
PA (DC MON)
3.13
3.03
TX (PWR MON)
1.91
ATPC Voltage
0.74
RECEIVE Voltages
RX (RSL 1) dbm
-45 dBm
-53 dBm
1.95
RX (EYE MON)
0.09
0.19
0.76
RX (AFC MON)
-2.95
-2.95
Battery Voltage
-50.8
-51.0
*Voltage not the same as PA Front Panel Test Point
LMW-3123B
01/29/04
Tuesday, July 29, 2003
1:44:19 PM
USI Version R1.06
Controller Version R1.06
Figure 6 - 1 Analog Screen (Single RCVR)
LOCAL ANALOG
ELMC Address [F8]:
J7915
ELMC Description:
SILVERTON
Communicating***
TRANSMITTER
RECEIVER
PA (DC MON)
N/A
N/A
RX (RSL) (MN)
TX (PWR MON)
5.00
3.25
ATPC Voltage
0.76
0.74
COMMON
Battery Voltage
-26 dBm
-29 dBm
RX (EYE MON) (MN)
0.53
0.94
Path Distortion (MN)
-62 dBm
-33 dBm
RX RSL (DV)
RX (EYE MON) (DV)
0.73
1.03
-53.5
-53.5
Path Distortion (DV)
*Voltage not the same as PA Front Panel Test Point
LMW-9073
01/29/04
Tuesday July 29 2003
6-2
1:44:19 PM
Version R1 04
8000 OC3
Figure USI
6-2
Analog ScreenMDR
(Dual
RCVR)
Controller Version R1 04
DS1/E1 RADIO PERFORMANCE SCREEN
See Figure 6 - 3. The Analog Monitor screen is used to display real-time analog voltages
and radio performance monitors for the ELMC address. Analog voltages are updated
automatically every second. Reset performance parameters to zero using the Error
Reset button (or hotkey F3) on the toolbar. TIME SINCE LAST RESET displays the
time in days, hours, minutes, and seconds since the last error reset.
6.3
6.3.1
Repeater CRC Err Sec
Repeater CRC Errored Seconds, indicates number of seconds that contain coding violations, slips, or frame losses in the data over the repeater cable.
6.3.2
Radio Severe Err Sec
Radio Severe Errored Seconds, indicates number of seconds that contain a predetermined number (N) of coding violations in the data over the RF path.
6.3.3
Radio Outage Sec
Radio Outage Seconds, indicates on-line RCVR errored seconds (number of seconds
that contain coding violations, slips, or frame losses in the data over the RF path).
6.3.4
Radio A and B Outage Sec
Radio A and B Outage Seconds, indicates on-line and off-line RCVR errored in the
same second.
6.3.5
Radio CRC Err Sec
Radio CRC Errored Seconds, indicates number of seconds that contain coding violations, slips, or frame losses in the data over the RF path.
6.3.6
Radio CRC Errors
Indicates number of errors in the data over the RF path.
6.3.7
Radio Internal BER
Indicates current BER of the data over the RF path.
6.3.8
Radio Average BER
Indicates average BER of the data over the RF path since last reset.
6-3
3 WAYS TO OPEN ANALOG MONITOR SCREEN
Analog and Performance Monitoring -- MDR-8000
File View Setup Options
Alarm Status
F4
Performance
F5
Error Reset [F3]
Alarm Status [F4]
Station Alarm
F6
Control
F7
Provisioning
F9
Inventory
F12
Power Adjust
Ctl+T
RSL
ELMC Address:
lower
Perf Monitor [F5]
Ctl+R
Station Alarm [F6]
Control [F7]
Provisioning [F9]
2. CLICK HERE
3. PRESS F5 ON KEYBOARD
Thursday, March 16, 2000
LOCAL PERFORMANCE
Communicating*
2:15:29 PM
1. CLICK HERE
PERFORMANCE
Repeater CRC Err Sec
Radio Severe Err Sec
Radio Outage Sec
Radio A and B Outage Sec
Radio CRC Err Sec
Radio CRC Errors
Radio Interval BER
0.00E-12
Radio Average BER
ELAPSED TIME:
0 DAYS , 02:24:39
LMW-8005
01/29/04
Figure 6 - 3 DS1/E1 Radio Performance Monitor Screen
6-4
DS3 RADIO PERFORMANCE MONITORING SCREEN
See Figure 6 - 4. Reset performance parameters to zero using the Error Reset button
(or hotkey F3) on the toolbar. TIME SINCE LAST RESET displays the time in days,
hours, minutes, and seconds since the last error reset.
6.4
6.4.1
Line 1-3 DS3 Errors
Indicates total number of coding violations, slips, or frame losses in the DS3 line data.
6.4.2
Line 1-3 DS3 BER
Calculated from code violation count and data rate.
6.4.3
Radio Errors
Indicates number of coding violations, slips, or frame losses in the data over the RF
path.
6.4.4
Radio Error Seconds
Any second during which a code violation was detected.
6.4.5
Radio Severe Error
Any second during which the code violation count exceeds the number of errors that
could occur in one second at 1 X 10-6 error rate.
6.4.6
Radio BER
Calculated from code violation count and data rate.
LOCAL PERFORMANCE
ELMC Address:
J7915
ELMC Description:
SILVERTON
TRANSMITTER
Communicating*
Line 1 DS3 Errors
24462
24462
Line 2 DS3 Errors
24461
Line 3 DS3 Errors
24461
Line 1 DS3 BER
Line 2 DS3 BER
Line 3 DS3 BER
Elapsed Time:
RECEIVER
Line 1 DS3 Errors
22629
22640
24461
Line 2 DS3 Errors
22630
22615
24461
Line 3 DS3 Errors
55635
22615
5.6 E-8
5.6 E-8
Line 1 DS3 BER
5.2 E-8
5.2 E-8
5.6 E-8
5.6 E-8
Line 2 DS3 BER
5.2 E-8
5.2 E-8
5.6 E-8
5.6 E-8
Line 3 DS3 BER
5.2 E-8
5.2 E-8
Radio Errors
784
Radio Error Seconds
Radio Severe Error Seconds
27
28
Radio BER
3.3 E-9
1.0 E-14
1 Days, 02:41:23
LMW-3123A
01/29/04
Monday, July 28, 2003
1:44:19 PM
USI Version R1.07
Controller Version R1.07
Figure 6 - 4 DS3 Radio Performance Screen
6-5
OC3/STM-1 RADIO PERFORMANCE MONITORING SCREENS
See Figure 6 - 5, Figure 6 - 6, and Figure 6 - 7. Reset performance parameters to zero
using the Error Reset button (or hotkey F3) on the toolbar. TIME SINCE LAST RESET
displays the time in days, hours, minutes, and seconds since the last error reset.
6.5
6.5.1
OC3/STM-1 Errors
Indicates total number of coding violations, slips, or frame losses in the OC3/STM-1 data.
6.5.2
OC3/STM-1 Error Seconds
Any second during which a code violation was detected. Count is initiated during any
second that qualifies as Unavailable Second.
6.5.3
OC3/STM-1 Severe Error Seconds
Any second during which the code violation count exceeds the number of errors that
could occur in one second at 1 X 10-6 error rate. Count is inhibited during any second
that qualifies as Unavailable Second.
6.5.4
OC3/STM-1 Severe Error Frame
Any second during which there is no start of frame for at least four consecutive frames.
6.5.5
OC3/STM-1 BER
Calculated from code violation count and data rate.
6.5.6
Line 1-3 DS1 Error Seconds
Any second during which a code violation was detected on the wayside DS1 line.
6.5.7
Radio Errors
Indicates number of coding violations, slips, or frame losses in the data over the RF
path.
Radio
OC3
TRANSMITTER (IN)
WaySide DS1
RECEIVER (OUT)
Errors
942
Errors
1192
Error Seconds
10
Error Seconds
12
Severe Error Seconds
100
Severe Error Seconds
120
Severe Error Frame Seconds
Severe Error Frame Seconds
30
BER
1.0 E-8
BER
5.2 E-7
1.0 E-14
Time Since Errors Reset:
0 Days, 00:00:00
LMW-5072
01/29/04
Monday, July 28, 2003
3:30:05 PM
USI Version R1.04
MDR-8000 OC3
Controller Version R1.04
Figure 6 - 5 OC3/STM-1 Radio, OC3/STM-1 Facilities Performance Screen
6-6
LOCAL PERFORMANCE
ELMC Address:
ELMC Description:
Communicating**
RADIO
OC3
TRANSMITTER
WAYSIDE DS1
RECEIVER
Line 1 DS1 Error Seconds
12
Line 1 DS1 Error Seconds
15
Line 2 DS1 Error Seconds
Line 1 DS2 Error Seconds
Line 3 DS1 Error Seconds
Line 1 DS3 Error Secondss
Time Since Errors Reset:
Monday, August 20, 2001
0 Days, 00:00:00
3:30:05 PM
USI Version R1.01
MDR-8000 OC3
Controller Version R1.01
LMW-5073
01/29/04
Figure 6 - 6 OC3/STM-1 Radio, Wayside DS1 Facilities Performance Screen
Error Reset
Alarm Status
Station Alarm
Performance
Analog Monitor
R101
ELMC Description:
OC3 6GHz Top
Communicating***
Radio
OC3
RECEIVER
Time Since Errors Reset:
Provisioning
LOCAL PERFORMANCE
ELMC Address:
Monday, July 28, 2003
User Control
WAYSIDE DS1
Errors
2143
Error Seconds
27
Severe Error Seconds
Severe Error Frame Seconds
BER
5.2 E-7
Radio Outage Sec
Radio A and B Outage Sec
0 Days, 00:00:00
3:41:41 PM
USI Version R1.04
MDR-8000 OC3
Controller Version R1.04
LMW-5074
01/29/04
Figure 6 - 7 OC3/STM-1 Radio, Radio Performance Screen
6-7
6.5.8
Radio Error Seconds
Any second during which a code violation was detected. Count is initiated during any
second that qualifies as Unavailable Second.
6.5.9
Radio Severe Error
Any second during which the code violation count exceeds the number of errors that
could occur in one second at 1 X 10-6 error rate. Count is inhibited during any second
that qualifies as Unavailable Second.
6.5.10
Radio BER
Calculated from code violation count and data rate.
ETHERNET RADIO PERFORMANCE MONITORING SCREEN
See Figure 6 - 8. Reset performance parameters to zero using the Error reset button on
the toolbar. TIME SINCE LAST RESET displays the time in days, hours, minutes and
seconds, since the last error reset.
6.6
6.6.1
6.6.1.1
RF Receive
Errors
Indicates total number of coding violations, slips, or frame losses in the Ethernet data.
6.6.1.2
Error Seconds
Any second during which a code violation was detected. Count is initiated during any
second that qualifies as Unavailable Second.
6.6.1.3
Severe Error Seconds
Any second during which the code violation count exceeds the number of errors that
could occur in one second at 1x 10-6 error rate. Count is inhibited during any second
that qualifies as Unavailable Second.
6.6.1.4
Severe Error Frame Seconds
Any second during which there is no start of frame for at least four consecutive frames.
6.6.1.5
BER
Calculated from code violation count and data rate.
6.6.1.6
Radio Outage Sec
Radio Outage Seconds, indicates on-line RCVR errored seconds (number of seconds
that contain coding violations, slips, or frame losses in the data over the RF path).
6.6.1.7
Radio A and B Outage Sec
Radio A and B Outage Seconds, indicates on-line and off-line RCVR errored in the
same second.
6-8
Communicating*
Radio
Ethernet
RF RECEIVE
GFP RECEIVE
Errors
Errors
Error seconds
Error Seconds
12
Severe Error Seconds
Severe Error Seconds
12
Severe Error Frame Seconds
Severe Error Frame Seconds
1.0 E-14
1.1 E-14
BER
Radio Outage Sec
Radio A and B Outage Sec
BER
2.9 E-12
1.5 E-12
MDR-1202
08/15/05
Figure 6 - 8 Ethernet Radio, Radio Performance Screen
6.6.2
6.6.2.1
GPF Receive
Errors
Indicates total number of coding violations, slips, or frame losses in the Ethernet data.
6.6.2.2
Error Seconds
Any second during which a code violation was detected. Count is initiated during any
second that qualifies as Unavailable Second.
6.6.2.3
Severe Error Seconds
Any second during which the code violation count exceeds the number of errors that
could occur in one second at 1 x 10-6 error rate. Count is inhibited during any second
that qualifies as Unavailable Second.
6.6.2.4
Severe Error Frame Seconds
Any second during which there is no start of frame for at least four consecutive frames.
ETHERNET PERFORMANCE MONITORING SCREEN
See Figure 6 - 9. Reset performance parameters to zero using the Error reset button on
the toolbar. TIME SINCE LAST RESET displays the time in days, hours, minutes, and
seconds since the last error reset.
6.7
6.7.1
6.7.1.1
IN (To RF Transmit)
Average Bytes/Sec
Indicates average number of frame bytes per second in the Ethernet RCV/radio XMT
data.
6-9
6.7.1.2
Total Frames
Indicates number of valid Ethernet frames in the Ethernet RCV/radio XMT data.
6.7.1.3
Error Frames
Frame Check Sequence (FCS) error count indicates the number of Ethernet frames
with errors in the Ethernet RCV/radio XMT data.
6.7.1.4
Dropped Frames
Indicates number of Ethernet frames dropped due to errors in the Ethernet RCV/radio
XMT data or lack of buffer space.
LOCAL PERFORMANCE (RS 232)
Communicating*
Radio
Ethernet
IN (to RF TRANSMIT)
Average Bytes / Sec
Total Frames
Time Since Errors Reset:
OUT (from RF RECEIVE)
Average Bytes / Sec
9, 084, 928
4, 013, 824
9, 519, 104
8.655579 E+9
1.804514 E+9
Total Frames
1.164721 E+10
1.316459 E+9
Error Frames
5, 431, 296
34995
65, 520
43, 682
Dropped Frames
5, 431, 296
34742
Error Frames
Dropped Frames
3 Days, 23:45:55
MDR-1203
08/15/05
Figure 6 - 9 Ethernet Radio, Ethernet Performance Screen
6.7.2
6.7.2.1
OUT (From RF Receive)
Average Bytes/Sec
Indicates average number of frame bytes per second in the Ethernet XMT/radio RCV
data.
6 - 10
6.7.2.2
Total Frames
Indicates number of valid Ethernet frames in the Ethernet XMT/radio RCV data.
6.7.2.3
Error Frames
Frame Check Sequence (FCS) error count indicates the number of Ethernet frames
with errors in the Ethernet XMT/radio RCV data.
6.7.2.4
Dropped Frames
Indicates number of Ethernet frames dropped due to errors in the Ethernet XMT/radio
RCV data, or lack of buffer space.
DS1/E1 RADIO CONTROL SCREEN
See Figure 6 - 10. The Control screen is used to enable or disable and display the status
of manual controls. Manual controls include equipment and function in-service controls, system loopback controls, user controls, and DS1/E1 loopback controls. The green
square indicates control is enabled. Highlight and click on control name to change
state.
6.8
6.8.1
In-Service Controls
IN-SERVICE controls are used to force A or B transmitter, receiver, and I/O interface
modules on -or off-line. IN-SERVICE manual controls are also used to lock the A or B
transmitter ATPC function high (ATPC High Pwr Lock) or low (ATPC Low Pwr Lock).
6.8.2
System Loopback Controls
When enabled, SYSTEM LOOPBACK manual controls loop I/O receiver to I/O transmitter (I/O LOOPBACK). I/O LOOPBACK is a local loopback function that can be used
to test the performance of a standalone radio.
6.8.3
User Controls
USER CONTROLS, defined by the customer and named on the User Control Names
Setup screen, are displayed and can be enabled or disabled if the optional AE-37( )
Relay Interface module is installed.
6.8.4
DS1 Line Loopback Controls
See Figure 6 - 11. When enabled, DS1 LINE LOOPBACK RCV to XMT manual controls
loop DS1/E1 lines individually (Line 1-16 loopback). DS1 LINE LOOPBACK RCV to
XMT is a far-end loopback function that can be used to test over-the-hop.
6 - 11
3 WAYS TO OPEN CONTROL SCREEN
Controls -- MDR-8000 DS1
File View Setup Options
Alarm Status
F4
Performance
F5
Alarm Status [F4]
Perf Monitor [F5]
Station Alarm [F6]
Station Alarm
F6
Control
F7
Provisioning
F9
Inventory
F12
Power Adjust
Ctl+P
ELMC
Address:
RSL
Control [F7]
Provisioning [F9]
2. CLICK HERE
3. PRESS F7 ON KEYBOARD
LOCAL CONTROL
J7914 Ctl+R
Communicating
Description:
DURANGO
1. CLICK HERE
Thursday, March 16, 2000
10:15:49 AM
IN-SERVICE
SYSTEM LOOPBACK
DS1 LINE LOOPBACK RCV to XMT
A Transmitter On Line
I/O LOOPBACK
Line 1 loopback
Line 11 loopback
B Transmitter On Line
USER CONTROLS
Line 2 loopback
Line 12 loopback
A Receiver On Line
GEN START
Line 3 loopback
Line 13 loopback
B Receiver On Line
TWR LIGHT OVRD
Line 4 loopback
Line 14 loopback
A I/O On Line
User Control #3
Line 5 loopback
Line 15 loopback
Line 6 loopback
Line 16 loopback
B I/O On Line
User Control #4
User Control #5
A ATPC High Power Lock
Line 7 loopback
User Control #6
B ATPC High Power Lock
Line 8 loopback
A ATPC Low Power Lock
Line 9 loopback
B ATPC Low Power Lock
Line 10 loopback
ACTIVE
HIGHLIGHT AND SELECT "YES"
ON CONFIRMATION MESSAGE
TO ENABLE FUNCTION
Figure 6 - 10 DS1/E1 Radio Control Screen
6 - 12
LMW-1006
01/29/04
I/O INTFC
MODULE
XMTR
MODULE
XMT
MUX
DS1 LINE ( ) LOOPBACK
(PER DS1)
I/O LOOPBACK
(ALL DS1s)
RCVR
MODULE
I/O INTFC
MODULE
DEMUX
RCV
LMW-6072
07/05/04
Figure 6 - 11 DS1/E1 Loopback
DS3 RADIO CONTROL SCREEN
See Figure 6 - 12. The Control screen is used to enable or disable and display the status
of manual controls. Manual controls include equipment and function in-service controls, system loopback controls, user controls, and DS1/E1 loopback controls. The green
square indicates control is enabled. Highlight and click on control name to change
state.
6.9
6.9.1
In-Service Controls
IN-SERVICE controls are used to force A or B transmitter, receiver, and I/O interface
modules on-or off-line. IN-SERVICE manual controls are also used to lock the A or B
transmitter ATPC function high (APC High Pwr Lock) or low (APC Low Pwr Lock).
6.9.2
System Loopback Controls
See Figure 6 - 13.When enabled, SYSTEM LOOPBACK manual controls loop I/O
receiver to I/O transmitter (I/O LOOPBACK). I/O LOOPBACK is a local loopback function that can be used to test the performance of a standalone radio.
6 - 13
6.9.3
User Controls
USER CONTROLS, defined by the customer and named on the User Control Names
Setup screen, are displayed and can be enabled or disabled if the optional AE-27()
Relay Interface module is installed.
6.9.4
Wayside DS1 Line Loopback Controls
See Figure 6 - 13. When enabled, DS1 LINE LOOPBACK RCV to XMT manual controls
loop DS1/E1 lines, individually (Line 1-16 loopback). DS1 LINE LOOPBACK RCV to
XMT is a far-end loopback function that can be used to test over-the-hop.
Controls
MDR 8000 DS3
File View Setup Options
F4
Alarm Status
F5
F6
Analog Monitor
F7
Performance
F8
Station Alarm
F9
User Control
Provisioning
LOCAL CONTROLS
ELMC Address:
J7915
Description:
SILVERTON
Communicating*
IN-SERVICE
SYSTEM LOOP-BACK
A Transmitter On Line
A I/O LOOPBACK
Line 1 Facility
Line 1 Equipment
B Transmitter On Line
B I/O LOOPBACK
Line 2 Facility
Line 2 Equipment
Line 3 Facility
Line 3 Equipment
A Receiver On Line
USER CONTROLS
B Receiver On Line
Control #1
A I/O On Line
Control #2
B I/O On Line
Control #3
A ATPC HIGH Power Lock
Control #4
B ATPC HIGH Power Lock
Control #5
A ATPC LOW Power Lock
Control #6
DS3 LINE LOOP-BACK
B ATPC LOW Power Lock
LMW-3117
05/14/06
Thursday, November 30, 2000
1:44:19 PM
USI Version R1.02
Controller Version R1.02
Figure 6 - 12 DS3 Radio Control Screen
6 - 14
DS3 LINE 1-3
UNI XMT
ASIC
I/Q
TO
XMTR
I/Q
ENFEC
I/O
LOOPBACK
(ALL DS3s)
TO/FROM
DS3 LBO
DEFEC
DS3 LINE 1-3
UNI RCV
ASIC
I/Q
I/Q
FROM
RCVR
I/Q
SW SWITCH
LOOPBACK I/O
CONTROL
ENABLED
FROM
CONTROLLER
LOOPBACK ENABLE
DS3 I/O INTFC
LMW-5056
07/05/04
Figure 6 - 13 DS3 System Loopback
6 - 15
6.10 OC3/STM-1 RADIO CONTROL SCREEN
See Figure 6 - 14. and Figure 6 - 15 The Control screen is used to enable or disable and display the status of manual controls. Manual controls include equipment and function inservice controls, system loopback controls, user controls, and DS1/E1 loopback controls.
The green square indicates control is enabled. Highlight and click on control name to
change state.
6.10.1
In-Service Controls
IN-SERVICE controls are used to force A or B transmitter, receiver, and I/O interface
(OC3/STM-1) modules on-or off-line. IN-SERVICE manual controls are also used to lock
the A or B transmitter ATPC function high (ATPC High Power Lock) or low (ATPC Low
Power Lock).
6.10.2
System Loopback Controls
See Figure 6 - 16 for SYSTEM LOOP-BACK. All loopbacks occur in the SMCRA on the I/O
interface module. Loopback functions in both directions are bridged type functions. Data
both loops back and continues. Loopbacks are named by facility in the direction of the loop.
When enabled, A/B OC3/STM-1 Facility loops the optical RCV/radio XMT input to the
radio RCV/optical XMT output. When enabled, A/B OC3/STM-1 Equipment loops the
demultiplexed RCV output of the DEMUX circuit into the input to the MUX circuit.When
enabled, A/B RC3 Equipment loops the output of the MUX circuit into the input of the
DEMUX circuit.
6.10.3
User Controls
USER CONTROLS, defined by the customer and named on the User Control Names Setup
screen, are displayed and can be enabled or disabled if the optional AE-27( ) Relay Interface module is installed.
6 - 16
ELMC Address:
RK201
Description:
DALLAS
Communicating*
IN-SERVICE
USER CONTROLS
A Transmitter Online
Control #1
A OC3 Facility
B OC3 Facility
Control #2
A RC3 Equipment
B RC3 Equipment
Control #3
A OC3 Equipment
B OC3 Equipment
B Transmitter Online
A Receiver Online
SYSTEM LOOP-BACK
Control #4
B Receiver Online
Control #5
A OC3 Input
Control #6
B OC3 Input
ATPC POWER LOCK
A OC3 Output
A ATPC High Power Lock
B OC3 Output
B ATPC High Power Lock
A Wayside DS1 Online
A ATPC Low Power Lock
B Wayside DS1 Online
B ATPC Low Power Lock
Thursday, April 16, 2002
1:47:10 PM
USI Version R1.01
MDR-8000 OC3
Controller Version R1.01
LMW-6084
01/29/04
Figure 6 - 14 OC3/STM-1 Radio Control Screen (Single RCVR)
DR301
ELMC Address:
LOCAL CONTROLS
Communicating
IN-SERVICE
SYSTEM LOOP-BACK
A Transmitter On Line
B Transmitter On Line
A Receiver On Line
B Receiver On Line
A OC3 Facility
B OC3 Facility
A RC3 Equipment
B RC3 Equipment
A OC3 Equipment
B OC3 Equipment
A OC3 Input
B OC3 Input
A OC3 Output
B OC3 Output
FORCED SWITCHING
A Main
A Diversity
B Main
B Diversity
LMW-9075
01/29/04
Monday, July 28, 2003
1:06:08 PM
USI Version R1.04
MDR-8000 OC3 Controller Version R1.04
Figure 6 - 15 OC3/STM-1 Radio Control Screen (Dual RCVR)
6 - 17
I/O INTFC
4 x 39
Translator
OR/RT
XMTR
SMCRA
MUX
RT
OC3
Equipment
LPBK
MUX
OT/RR
Switch
CMD
OC3
Facility
LPBK
MUX
RC3
Equipment
LPBK
RCVR
Switch
CMD
Switch
CMD
RR
MDR-1094
12/14/04
Figure 6 - 16 OC3/STM-1 Loopbacks
6.11 ETHERNET RADIO CONTROL SCREEN
See Figure 6 - 17. The Control screen is used to enable or disable and display the status
of manual controls. Manual controls include equipment and function in-service controls, system loopback controls, user controls, and DS1 loopback controls. The green
square indicates control is enabled. Highlight and click on control name to change
state.
6.11.1
In-Service Controls
In service controls are used to force A or B transmitter, receiver, and I/O interface modules on-or off-line. IN-SERVICE manual controls are also used to lock the A or B transmitter ATPC function high (ATPC High Power Lock) or low (ATPC Low Power Lock).
6.11.2
User Controls
USER CONTROLS, defined by the customer and named on the User Control Names
Setup screen, are displayed and can be enabled or disabled if the optional AE-27( )
Relay Interface module is installed.
6 - 18
6.11.3
System Loopback
See Figure 6 - 18 for the system loopback functions. There are three system loopback
functions available on the Ethernet radio; Eth facility loopback, RC3 equipment loopback, and Eth equipment loopback. All loopbacks occur on the Ethernet I/O interface
module. The loopback functions are controlled by software via the SYSTEM LOOPBACK controls on the USI Control screen.
6.11.3.1
Eth Facility Loopback
Eth facility loopback is a local loopback function that can be used to test the performance of a standalone radio. Eth Facility loopback is enabled by selecting A Eth Facility under SYSTEM LOOPBACK on the USI Control screen. This function loops the
Ethernet RCV/radio XMT (EthR/RT) input back into the Ethernet XMT/radio RCV
(EthT/RR) output. The actual loopback occurs in the PHY circuits on the I/O interface.
When enabled, the EthR/RT input is switched through the MUX to the EthT/RR output. The Eth/R/RT input also continues through the MUX to the ETHRA FPGA.
ELMC Address:
LOCAL CONTROLS (RS-232)
201R2
Communicating**
IN-SERVICE
A Transmitter On Line
B Transmitter On Line
A Receiver On Line
B Receiver On Line
IN-SERVICE
SYSTEM LOOP-BACK
Control #1
A Ethernet Facility
B Ethernet Facility
Control #2
A Radio Equipment
B Radio Equipment
Control #3
A Ethernet Equipment
B Ethernet Equipment
Control #4
A Ethernet In Active
Control #5
B Ethernet In Active
Control #6
A Ethernet Out Active
B Ethernet Out Active
A Ethernet Online
DS1 LINE LOOP-BACK RCV to XMT
Line 1 Facility
Line 1 Equipment
Line 2 Facility
Line 2 Equipment
Line 3 Facility
Line 3 Equipment
Line 4 Facility
Line 4 Equipment
B Ethernet Online
A DS1 Online
B DS1 Online
MDR-1204
08/08/05
Figure 6 - 17 Ethernet Radio, Ethernet Control Screen
6 - 19
ETHRA FPGA
ETH RC3 LPBK
(DATA + OH + WSDS1)
ETH TX
SW
CMD
PHY
MAC
FIFO
GFP
RADIO
FRAME
MULDEM
ETH RX
SW
CMD
ETH
EQUIP
LPBK
SW
CMD
ETH
FACILITY
LPBK
DS1 LINE INTFC
WS DS1 LINE 1
SW
CMD
TI/DS1
FRAMING
WS DS1 LINE 1
SW
CMD
ETH-1046
01/25/06
Figure 6 - 18 Ethernet Loopbacks
6.11.3.2
RC3 Equipment Loopback
RC3 equipment loopback is a local loopback function that can be used to test the performance of a standalone radio. RC3 Equipment loopback is enabled by selecting A
RC3 Equipment under SYSTEM LOOPBACK on the USI Control screen. This function loops the Eth RCV/radio XMT (EthR/RT) input back into the EthXMT/radio RCV
(EthT/RR) output. The actual loopback occurs in the ETHRA FPGA on the I/O interface. When enabled, the radio XMT (RT) output is switched through the MUX in the
ETHRA, replacing the radio RC (RR) input. The radio XMT (RT) output also continues
to the XMTR RT output.
6 - 20
6.11.3.3
Eth Equipment Loopback
Eth equipment Loopback is a farend loopback function that can be used to test the
over-the-hop performance of radios. Eth Equipment loopback is enabled by selecting A
Eth Equipment under SYSTEM LOOPBACK on the USI Control screen. This function
loops the radio RCV (RR) input into the radio XMT output. The actual loopback occurs
in the PHY circuits on the I/O interface. When enabled, the radio RCV (RR) input is
switched through the MUX in the ETHRA and through the MUX in the PHY, replacing
the Eth RCV/radio XMT (EthR/RT) output to the ETHRA. The radio RCV (RR) input
also continues through the MUX in the PHY to the EthT/RR output.
6.11.4
DS1 Line Loopback
There are two individual DS1 line loopback functions available on the Ethernet radio
Control screen; Line facility Loopback and Line Equipment Loopback. All loopbacks
occur on the Ethernet I/O interface module. The DS1 line loopback functions are controlled by software via the DS1 LINE LOOPBACK controls on the USI Control screen.
6.11.4.1
DS1 Line Facility Loopback
See Figure 6 - 19 for functional block diagram. DS1 facility loopback is a local loopback
function that can be used to test the performance of a standalone radio. Individual
DS1 line facility loopback is enabled by selecting Line 1, 2, 3, or 4 Facility under DS1
LINE LOOPBACK on the USI Control screen. This function loops the DS1 RX1, 2, 3,
or 4 Tip and Ring inputs to the DS1 TX1, 2, 3, or 4 Tip and Ring outputs. The actual
loopback occurs in the QuadFalc FPGA on the I/O interface. When enabled, the DS1,
RX1, 2, 3, or 4 Tip and Ring inputs are switched through the MUX in the QuadFalc,
replacing the radio inputs from the ETHRA. The radio DS1 Rx1, 2, 3, or 4 Tip and Ring
output of the QuadFalc also continues to the ETHRA FPGA.
6.11.4.2
DS1 Line Equipment Loopback
See Figure 6 - 20 for a functional block diagram. DS1 Equipment Loopback is a farend
loopback function that can be used to test the performance of radios over the hop. Individual Line Equipment facility loopback is enabled by selecting Line 1, 2, 3, or 4
Equipment under DS1 LINE LOOPBACK on the USI Control screen. This function
loops the DS1 TX1, 2, 3, or 4 Tip and Ring inputs from the RCV circuits on the ETHRA
to the DS1 RX1, 2, 3, or 4 Tip and Ring outputs of the QuadFalc to the XMT circuits in
the ETHRA. The loopback occurs in the QuadFalc FPGA on the I/O interface. When
enabled by the switch command, the DS1 TX1, 2, 3, or 4 Tip and Ring inputs are
switched through the MUX in the QuadFalc, replacing the radio DS1 inputs from the
AUX interface. The radio DS1 TX1, 2, 3, or 4 output of the QuadFalc continues to the
AUX interface board.
6 - 21
CAUTION
Possibility of
Service
Interruption
Loopbacks cause loss of traffic on DS1 outputs
to X-connect.
Quad Falc
DS1 RX 1 T/R
DS1 RX 2 T/R
DS1 RX 3 T/R
DS1 RX 4 T/R
DS1 TX 1 T/R
AUX
INTFC
Board
DS1 TX 2 T/R
Switch
CMD
ETHRA
FPGA
DS1 TX 3 T/R
Switch
CMD
DS1 TX 4 T/R
Switch
CMD
Switch
CMD
Note
Line 4 available in Terminal configuration.
Not available in Repeater configuration.
Figure 6 - 19 DS1 Facility Loopback – Ethernet
6 - 22
MDR-1164
04/28/05
CAUTION
Possibility of
Service
Interruption
Loopbacks cause loss of traffic on DS1 inputs
to ETHRA FPGA.
Quad Falc
DS1 RX 1 T/R
DS1 RX 2 T/R
Switch
CMD
DS1 RX 3 T/R
Switch
CMD
ETHRA
FPGA
Switch
CMD
DS1 RX 4 T/R
AUX
INTFC
Board
DS1 TX 1 T/R
Switch
CMD
DS1 TX 2 T/R
DS1 TX 3 T/R
DS1 TX 4 T/R
Note
Line 4 available in Terminal configuration.
Not available in Repeater configuration.
MDR-1171
05/31/05
Figure 6 - 20 DS1 Equipment Loopback – Ethernet
6 - 23
6.11.5
Inventory Screen
See Figure 6 - 21 for Inventory Screen. The inventory screen is used to display current
shelf inventory, including module type number, module part number, hardware revision, software revision (if applicable), serial number, and remarks (if any).
Inventory is automatically updated if modules are replaced. Manual changes to the
inventory list on the screen are performed only in the factory.
Alcatel User Interface – [Universal USI -- Inventory]
File View Setup Options
F4
F3
Prov. Save
F5
Alarm Status
ELMC Address:
R101
F6
F7
Performance
F8
Station Alarm
F9
User Control
Provisioning
LOCAL INVENTORY (RS-232)
Communicating***
Side A
Side B
Common
Select All
TYPE
Part Number
RV
MRev
ICS
Transmitter
Transmitter Cap Key
Transmitter Oscillator
Power Amplifier
Power Supply
I/O Interface
Receiver
Receiver Cap Key
Receiver Oscillator
UD-35AQ-4
N/A
N/A
UD-16BB-2
DS-35P-2
UD-36AQ-10
AE 27AF-1
N/A
N/A
3DH03236AD
3EM04177AB
3DH04123AC
3DH03218AA
3DH03164AB
3EM03134AB
3DH03239AD
3EM04177AB
3DH04123AC
AA
AB
AB
AA
AB
AB
AA
AB
AA
01
02
01
03
01
01
01
02
01
01
01
00
01
01
01
01
01
00
S/W REV
R02.01
L50W8389
EM1
CA09W929
CA09W146
CA02D619
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Tuesday, November 30, 2004
3:31:44 PM
Misc
CA02D546
CA07D577
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Item Change Status Universal USI Version P2.00q
Realization Variant - identifies
differences in design within
family item
identifiesOC3
source ofController
part
MDR-8000
Version P3.13
Manufacturing Revision identifies enhancement-type
changes
Figure 6 - 21 Inventory Screen
6 - 24
Serial Number
MDR-1162
11/21/06

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : Yes
Tagged PDF                      : Yes
Page Mode                       : UseOutlines
XMP Toolkit                     : Adobe XMP Core 4.0-c316 44.253921, Sun Oct 01 2006 17:14:39
Producer                        : Acrobat Distiller 7.0.5 for Macintosh
Create Date                     : 2007:12:05 14:55:35Z
Modify Date                     : 2010:03:02 14:30:50-06:00
Creator Tool                    : FrameMaker 7.0
Metadata Date                   : 2010:03:02 14:30:50-06:00
Format                          : application/pdf
Title                           : MDR-8000 Radio Family Users Manual Issue 9
Description                     : MDR-8000 Radio Users Manual
Creator                         : Joe Watson
Subject                         : MDR-8000 Radio Family, Users Manual, Issue 9
Document ID                     : uuid:b233fada-a499-11dc-9956-0003935a57b0
Instance ID                     : uuid:c9f2928e-938a-4528-aa25-21c13be10c80
Has XFA                         : No
Page Count                      : 34
Page Layout                     : SinglePage
Author                          : Joe Watson
Keywords                        : MDR-8000, Radio, Family, Users, Manual, Issue, 9

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