Avaya Canada NTHV5XD User Manual Users Guide

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Users Guide

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NTXXXXXX
Internet Broadband Wireless Access
Internet BWA System 3200
User guide
Draft Rel 3.0 October 2000
What’s inside...
System description
Ordering Information
Technical specifications
Trouble clearing procedures
User interface description
Installation and commissioning procedures
Copyright  2000 Nortel Networks, All Rights Reserved
The information contained herein is the property of Nortel Networks and is strictly confidential. Except as expressly authorized in
writing by Nortel Networks, the holder shall keep all information contained herein confidential, shall disclose it only to its employees
with a need to know, and shall protect it, in whole or in part, from disclosure and dissemination to third parties with the same degree
of care it uses to protect its own confidential information, but with no less than reasonable care. Except as expressly authorized in
writing by Nortel Networks, the holder is granted no rights to use the information contained herein.
Nortel Networks, the Nortel Networks logo, the Globemark, How the World Shares Ideas, and Unified Networks are trademarks of
Nortel Networks.
Printed in Canada
iii
Contents
About this document
System description
1-1
Overview 1-1
Frequency band 1-1
Capacity 1-1
Frequency plan 1-2
System features 1-2
Equipment layout and main assemblies 1-3
Terminal signal flow 1-4
System interfaces 1-5
Interface cable pins 1-6
Hand-held terminal interface 1-6
Ordering Information
2-1
Detailed equipment codes 2-1
Technical specifications
3-1
Mechanical and environmental specifications 3-1
Equipment interface specifications 3-2
Frequency plan specifications 3-2
System performance specifications 3-3
Trouble clearing procedures
4-1
Testing the Radio faults 4-1
RF Loopback test 4-1
Loopback test for the local tributary 4-1
Loopback test for the remote tributary 4-1
Clearing the Radio alarms 4-2
Alarm interface pins 4-4
Warranty and field support 4-5
Warranties 4-5
Standard return service 4-5
48-hour emergency service 4-7
Technical support and information 4-7
User interface description
5-1
Hand-held terminal description 5-1
User guide NTXXXXXX Rel 3.0 Draft October 2000
iv Contents
Hierarchy of the HHT menus 5-3
Functions of the HHT keypad keys 5-4
Parameters for the Near Radio menu 5-5
Control submenu 5-5
Status submenu 5-6
Inventory submenu 5-8
Test submenu 5-9
Parameters for the Far Radio menu 5-10
Control submenu 5-10
Parameters for the Link menu 5-10
Control submenu 5-10
Installation and commissioning procedures
Chapter task list 6-1
List of procedures
6-1
Unpacking, identifying and matching the system 6-2
6-2
Installing the Internet BWA System 3200 on a pole 6-5
6-3
Connecting the interface cables 6-13
6-4
Setting up the Internet BWA System 3200 6-17
6-5
Aligning the antenna of the Internet BWA System 3200 6-20
6-6
Commissioning the Internet BWA System 3200 6-24
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
6-1
v
About this document
This section provides an overview of the Internet BWA System 3200 user
guide.
Audience
This document is intended for:
• installers
• system line-up and test (SLAT) engineers/technicians
• maintenance engineers
User interface conventions
The following conventions are used in procedures in this document.
bold
Bold entries identify a command or a userID entered by means of the
craft interface terminal (CIT).
↵
This symbol means the return key must be pressed.
Bold
Bold entries with initial capital letters identify buttons, fields and menu
items as seen on the user interface screen.
User guide NTXXXXXX Rel 3.0 Draft October 2000
vi About this document
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
1-1
System description
1-
This document describes the Internet BWA System 3200.
Overview
The Internet BWA System 3200 establishes high-speed, reliable point-to-point
wireless links. The Internet BWA System 3200 uses a 4-FSK modulation
scheme and carries up to four E1 (2.048 Mbits/s) or up to four DS1 (1.544
Mbits/s) signals.
Frequency band
The Internet BWA System 3200 operates in the 15, 18, 23, 24/26, 28, 31 and
38 GHz frequency ranges.
Capacity
The capacity upgrade is software programmable from 2xE1 to 4xE1 and from
1xDS1 to 2xDS1 to 4xDS1. The capacity upgrade affects traffic because the
upgrade changes the following parameters:
• occupied bandwidth
• receive baseband filters
• data rate of operation
Table 1-1 lists the bandwidths for the radio frequency (RF) channels.
Table 1-1
RF channel bandwidths
Capacity
Channel bandwidth (MHz)
2 x E1
3.5 (for all frequencies)
4 x E1
7.0 (for all frequencies)
1 or 2 x DS1
2.5 (for all frequencies)
4 x DS1
5.0 (for all frequencies)
User guide NTXXXXXX Rel 3.0 Draft October 2000
1-2 System description
For systems with a specific capacity (for example, a 4 x E1 capacity), the
activation of a new tributary within that capacity is software programmable,
either locally or remotely. The activation of a new tributary within an existing
capacity does not cause any errors to the existing traffic. Inactive tributaries do
not cause alarms.
Frequency plan
Frequency plans are in accordance with:
•
•
•
current ITU-R recommendations and annexes as applicable for
international products
FCC rules, part 101 (as amended on October 1, 1997, replaces parts 21 and
94)
Industry Canada (SRSP-314.5, SRSP-318.5, SRSP-321.8) for North
American products
Table 1-2 lists the frequency plans.
Table 1-2
Frequency plans
Frequency
band
15 GHz
18 GHz
Frequency
14.4- 15.35 17.7- 19.7
range (MHz)
23 GHz
24/26 GHz 28/29 GHz 31 GHz
38 GHz
21.2- 23.6
24.25- 26.5 27.5- 29.5
37.0- 40.0
31.0- 31.3
System features
The Internet BWA System 3200 provides:
• scalable channel capacity to precisely match traffic volume
• scalable channel selection (digital synthesizer set in 250 kHz steps)
• selectable AMI or B8ZS line coding for DS1 signals (E1 signals use HDB3
coding only)
• selectable framing type (Unframe, Frame or ESF for DS1 signals)
• hand-held wireless terminal to perform configuration, maintenance, and
performance monitoring of the outdoor unit (ODU)
• receive signal strength indicator (RSSI) on the outdoor unit to guide
service personnel in antenna alignment
• forward error correction (FEC) and link ID codes
• common ODU and frequency synthesizer to minimize the number of spare
units and cost
• simple installation and maintenance from the “twist and lock” design of the
outdoor unit.
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
System description 1-3
Equipment layout and main assemblies
The Internet BWA System 3200 includes an outdoor unit (ODU), an antenna
and a mounting assembly (see Figure 1-1). A terminal site requires one
Internet BWA System 3200 to handle the radio signals for both the east and
west directions.
Figure 1-1
Internet BWA System 3200—physical layout
MOP0082t.eps
Outdoor unit
Antenna
Interface cable
assembly
Mounting
assembly
Outdoor unit
The outdoor unit contains a Modem, an RF module, a power supply and a
remote communication link. Removal of the outdoor unit is possible without
the need to realign the antenna.
Mounting assembly
The Internet BWA System 3200 includes a mounting assembly to hold the
radio to a pipe mount. The mounting assembly design provides three 30°
elevation adjustment increments for a 90° elevation adjustment range. The
mounting assembly design also provides two 45° azimuth adjustment
increments for a 90° azimut adjustment range.
User guide NTXXXXXX Rel 3.0 Draft October 2000
1-4 System description
Terminal signal flow
This description covers the signal flow for a 38 Ghz frequency plan. Figure 1-2
shows a block diagram of the Internet BWA System 3200 components.
Figure 1-2
Internet BWA System 3200 components—block diagram
F6357p.eps
Twisted pair
120 Ohm
Cable
Interface
Modem
DSP
Functions
Battery (-)
Battery (+)
FM
Modulated
Source
Upconverter
Chain
Modulation
Filter, Gain
and D/A
Synthesizer
and
Lock
Detector
Microprocessor
Control,
Temperature
and
Monitor Function
Modulation
Removal
IF AGC,
IF Filters
and
IF Detector
Power
Control
and Mute
Multiplier
Output
Power
Detector
Tx Data
Twisted pair
Rx Data
Twisted pair
RS485 A
RS485 B
Integrated
Parabolic
Antenna
Summary Alm
(NC/NO)
I/Q
Baseband
Gain Adjust
and A/D's
AGC voltage
& Coaxial I/O
or Wireless
link I/O
BNC Interface
Receiver
Mixer
and
IF LNA
Transmit signal path
The transmitter side of the RF module consists of a frequency modulated
source at the T/R spacing frequency of 1260 MHz. The output of the
frequency-modulated source is then upconverted to an X-Band frequency by a
local oscillator that can be set for low side or high side injection. Next the RF
signal is multiplied to a frequency within the operating band of 37.0 to 39.5
GHz.
Harmonic mixing using a local oscillator (LO), at half the output transmit
frequency, down-converts the incoming remote site RF input signal to an IF of
1260 MHz. Internal RF frequency settings will determine if the RF input
signal frequency is above or below the transmitter RF frequency. NRZ
baseband modulation is imparted on and recovered from the 38 GHz carrier via
a proprietary scheme that permits using a single multi-channel frequency
synthesizer.
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
System description 1-5
Receive signal path
An analog AGC voltage is applied in the IF circuitry under microprocessor
control to reduce the dynamic range of the A/D input signal. Both broadband
and narrow-band detection is employed. Broadband detection is analog
detection at 1.26 GHz. Narrow-band detection is within the DSP. This design
enables the receiver to cope with large adjacent channel signal levels and
provides excellent A/D dynamic range to recover the desired signal.
System interfaces
Figure 1-2 shows the interfaces on the outdoor unit (ODU).
Figure 1-3
Outdoor unit interfaces
F6358p.eps
Ground
connection
Polarization
indicator
(2 places)
Interface
cable
pins
Port for
coaxial I/O and
wireless link I/O
Mounting
screw
(4 places)
Top View
Bottom View
User guide NTXXXXXX Rel 3.0 Draft October 2000
1-6 System description
Interface cable pins
The interface cable pins connect:
• Up to four E1 lines (120 Ohm, balanced) or up to four DS1 lines (100 Ohm,
balanced)
• DC power
• alarm telemetry information
•
•
two relays for summable and programmable alarms
two dry-contact (Form-C) relay outputs that report on link performance
and critical alarms
Hand-held terminal interface
The Internet BWA System 3200 includes an optional wireless hand-held
terminal (HHT) that operates with batteries. The HHT communicates with the
Internet BWA System 3200 using an unlicensed 433.92 MHz channel.
To support this channel, both the HHT and the outdoor unit (ODU) have radio
433.92 MHz transceivers and matching whip antennas. You can use the HHT
to set and control, and to monitor the following features:
• receive signal strength indicator (RSSI) for antenna alignment
• Transmit Mute
• Transmit Modulation
• Transmitter Frequency
• Receiver Frequency
• radio frequency (RF) Filter Bandwidth
• bit error rate (BER)
• Link ID
• ODU Temperature
• Software Revision
• Fault Alarms
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
2-1
Ordering Information
2-
This chapter describes the ordering information for the Internet BWA System
3200.
Detailed equipment codes
Table 2-1 to Table 2-4 provides information on the different types of
equipment and kits. Table 2-5 provides information on rules. These rules
correspond to the number in the “Eqpt rule” column in Table 2-1 to Table 2-4.
Table 2-1
18 GHz equipment
Equipment description
PEC
CPC
Eqpt rule
ODU iBAR100 18GHz, A-1,T1
ODU iBAR100 18GHz, A-2,T1
ODU iBAR100 18GHz, B-1,T1
ODU iBAR100 18GHz, B-2,T1
NTHV50DA
NTHV50DB
NTHV50DG
NTHV50DH
A0833177
A0833178
A0833180
A0833181
1.1
Equipment description
PEC
CPC
Eqpt rule
ODU iBAR100 23GHz, A-1,T1
ODU iBAR100 23GHz, A-2,T1
ODU iBAR100 23GHz, B-1,T1
ODU iBAR100 23GHz, B-2,T1
NTHV50GA
NTHV50GB
NTHV50GG
NTHV50GH
A0833182
1.1
Table 2-2
23 GHz equipment
A0833183
A0833184
A0833185
User guide NTXXXXXX Rel 3.0 Draft October 2000
2-2 Ordering Information
Table 2-3
Antennas
Equipment description
PEC
CPC
Eqpt rule
15GHz 60cm high performance antenna
15GHz 120cm high performance antenna
NTHV30BC
NTHV30BE
A0832988
A0832975
1.1
18GHz 60cm high performance antenna
18GHz 120cm high performance antenna
NTHV30DC
NTHV30DE
A0832976
A0832977
23GHz 60cm high performance antenna
23GHz 60cm high performance antenna
23GHz 120cm high performance antenna
NTHV30GA
NTHV30GB
NTHV30GC
A0832974
A0832978
A0832981
26GHz 30cm high performance antenna
26GHz 60cm high performance antenna
NTHV30KA
NTHV30KC
A0832980
A0832979
28GHz 30cm high performance antenna
28GHz 45cm high performance antenna
28GHz 60cm high performance antenna
NTHV30MA
NTHV30MB
NTHV30MC
A0832982
A0832984
A0832985
38GHz 30cm high performance antenna
38GHz 60cm high performance antenna
NTHV30UA
NTHV30UC
A0832986
A0832987
Equipment description
PEC
CPC
Interface mounting bracket
ODU cable end connector
433 MHz whip antenna (variable length)
Wireless hand-held unit (with 2x 433 MHz Antenna)
Multi-conductor interface cable
NTHV??
NT
Table 2-4
Miscellaneous equipment
Eqpt rule
Alignment Accessory kit:
Test cable, 3200-2312 (Female reverse SMA to male
BNC)
Note: Nortel can supply additional cabling as required to support site or job applications. For more
information about cabling availability, contact your Nortel Networks sales representative.
Table 2-5
Equipment rules
Rule
No.
Description
1.1
—end—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Ordering Information 2-3
User guide NTXXXXXX Rel 3.0 Draft October 2000
2-4 Ordering Information
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
3-1
Technical specifications
3-
Tables 3-1 to 3-3 contain the technical specifications for the Internet BWA
System 3200.
Mechanical and environmental specifications
Table 3-1 provides the mechanical specifications for the Internet BWA System
3200.
Table 3-1
Physical, electrical and environmental specifications
Dimensions
281 mm W x 281 mm H x 83 mm D
11 in. W x 11 in. H x 3.25 in. D
Weight
5 kg (11 lb)
Input voltage
±20 to ± 60 Vdc
Power consumption
25 W
Operating temperature
-33 to +55°C (-27 to 131°F)
Storage temperature
-40 to +70°C (-40 to 158°F)
Relative humidity
Up to 100% under all weather conditions
ODU-IDU cable length
250 m with a nominal ±48 Vdc supply voltage
Regulatory requirements
FCC Part 101, FCC Part 15, UL, CSA
User guide NTXXXXXX Rel 3.0 Draft October 2000
3-2 Technical specifications
Equipment interface specifications
Table 3-2 contains the interface specifications for the Internet BWA System
3200.
Table 3-2
Digital interface
Tributary Rate
1.544 Mbps per ITU-T G.703
Line Code
B8ZS or AMI
I/O Impedance
100 ohms balanced and terminated by a connector
Payload (programmable)
1 x DS-1, 2 x DS-1, 4 x DS-1
Channel Bandwidth
2.5 MHz, 2.5 MHz, 5 MHz
Frequency plan specifications
Frequency plans are in accordance with the current ITU-R Recommendations
and their Annexes as applicable for International products, and in accordance
with FCC rules, Part 101 (as amended on October 1, 1997) (replaces Part 21
and Part 94) and Industry Canada (SRSP-314.5, SRSP-318.5, SRSP-321.8) for
North American products.
The following ETSI frequency bands (GHz) are offered
Frequency band
(GHz)
FCC
Industry Canada
15
Part 101 (amended SRSP-314.5,
on October 1, 1997) SRSP-318.5,
SRSP-321.8
ITU-R
EN 301 128
18
EN 301 128
23
EN 300 198
24/26
ETS 300 431
28
ETS 300 431
38
EN 300 197
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Technical specifications 3-3
System performance specifications
Table 3-3 contains the system performance specifications for the Internet BWA
System 3200.
Table 3-3
Frequency plans and reliability
Frequency
Band
15GHz
18GHz
23 GHz
24/26 GHz 28/29 GHz 31 GHz
38 GHz
Frequency
Range (MHz)
14.4-15.35
17.7-19.7
21.2-23.6
24.25-26.5 27.5-29.5
31.0-31.3
37.0-40.0
Channel Selection Software: set in 250 kHz steps
Frequency Source:
Digital synthesizer
Frequency Stability:
±10 ppm
Modulation:
4-level frequency shift keying (FSK)
Residual BER:
≤ 10
Forward Error Correction (FEC): Reed Solomon
System Gain at 10-6 BER
1 x DS-1
109
(BW=2.5 MHz)
109
111
109
107
107
107
2 x DS-1
106
(BW=2.5 MHz)
106
105
105
104
104
103
4 x DS-1
(BW=5 MHz)
103
103
102
102
101
101
100
RF Power
Output* (dBm)
+18
+18
+18
+17
+16
+16
+16
Power Control
Range (dB)
up to 30
up to 30
up to 30
up to 30
up to 25
up to 25
up to 25
Power Control Range Resolution: -In steps of 1 dB
Rx Threshold at 10-6 BER (dBm)
1 x DS-1
-91
(BW=2.5 MHz)
-91
-91
-91
-91
-91
-91
2 x DS-1
-88
(BW=2.5 MHz)
-88
-87
-87
-86
-86
-85
4 x DS-1
(BW=5 MHz)
-85
-84
-84
-83
-83
-82
-85
User guide NTXXXXXX Rel 3.0 Draft October 2000
3-4 Technical specifications
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
4-1
Trouble clearing procedures
4-
This chapter contains information for fault locating, testing, and clearing
alarms for the Internet BWA System 3200.
Testing the Radio faults
The Internet BWA System 3200 has three types of loopback tests for fault
isolation.
RF Loopback test
This loopback retunes the receiver to the transmit frequency. RF leakage
through the diplexer assembly prompts the local receiver to synchronize with
the local transmitter. This loopback test provides an unambiguous check of all
active circuitry in the Internet BWA System 3200.
Unwanted emissions are squelched by the transmit diplexer (out-of-band of the
RF bandpass filter). This loopback test is used for troubleshooting purposes.
To use this function, refer to Chapter 5, “User interface description”.
Loopback test for the local tributary
Loops the tributary input (data from customer) back onto tributary output (data
to customer) at local terminal. This test checks connection to the customer
equipment. To use this function, refer to Chapter 5, “User interface
description”.
Loopback test for the remote tributary
Loops the remote tributary output (data to customer) back into remote tributary
input. This test checks the radio link operation. This loopback test does not
include the remote tributary line driver or the remote tributary line receiver. To
use this function, refer to Chapter 5, “User interface description”.
User guide NTXXXXXX Rel 3.0 Draft October 2000
4-2 Trouble clearing procedures
Clearing the Radio alarms
Table 4-1 lists the Internet BWA System 3200 alarms, an explanation of the
alarm, the probable cause, and the action required to clear it.
Table 4-1
iBAR-100 system alarms
Alarm
Explanation
Probable cause
Action required
Tributary N Tx LOS
The Internet BWA
System 3200 cannot
detect a signal at the
tributary input.
Defective customer
equipment connected to
Internet BWA System 3200.
Verify customer
equipment. Replace if
defective.
Internet BWA System 3200
cable is disconnected.
Connect cable.
The cable from customer test Connect test set cable.
set to Internet BWA System
3200 is disconnected.
Tx low output power Far-end radio is
reporting that the RSSI
from the local radio is
too low
Rx Frame Loss
(radio)
Insufficient Tx power setting
at the local site.
Increase Tx power setting
at the local site.
Atmospheric problems
Wait for the end of
atmospheric problems
There is a Tx failure at the
The receiver has
detected a loss of frame far-end site.
condition on the Radio
Severe propagation (RSSI is
channel.
very low).
Check for other alarms in
the system.
Check that the Tx power
is set correctly at the
far-end site.
Check the RF cables.
Wait for the end of
propagation activity.
Low RSSI
The performance
degradation threshold
has been crossed.
Internet BWA System 3200
Minor propagation activity.
If the RSSI is lower than
the threshold, wait for the
end of propagation
activity.
Waveguide or RF connector
is incorrectly installed.
Verify the waveguide and
cabling connection.
NTXXXXXX Rel 3.0 Draft October 2000
Trouble clearing procedures 4-3
Table 4-1 (continued)
iBAR-100 system alarms
Alarm
Explanation
Probable cause
Action required
Equipment failure.
If the RSSI is identical to
the expected value, and
the alarm remains active
for a long period of time,
then a component may be
defective.
If necessary, replace the
ODU at the local site or
the far-end site.
Tributary N Rx AIS
The Internet BWA
System 3200 is
receiving an AIS signal
from the far-end radio.
AFC Loop OOL
The automatic
frequency control (AFC)
loop is out of loop.
AGC Loop OOL
The automatic gain
control (AGC) loop is out
of loop.
Verify customer
Defective customer
equipment. Replace if
equipment at tributary N at
the far-end. The far-end radio defective.
has a Tributary N Tx LOS
alarm at tributary N.
TX synthesizer OOL There is a failure of the
Tx synthesizer.
The Tx synthesizer is
defective.
Reset the Tx frequency.
RX synthesizer OOL There is a failure of the
Rx synthesizer.
The Rx synthesizer is
defective.
Reset the Rx frequency
or replace the ODU.
Temperature
over-range or
under-range
Replace the ODU.
The temperature of the
unit is above or below
the safe operating
range.
Frame-Alignment-W The far-end radio is not
ord (FAW) mismatch transmitting the correct
FAW (link ID).
Commission the two
The far-end radio was not
commissioned with the same radios to have the same
FAW.
FAW as the local radio.
User guide NTXXXXXX Rel 3.0 Draft October 2000
4-4 Trouble clearing procedures
Alarm interface pins
The alarm interface pins refer to pins 12, 18 and 23 from the 31-pin interface
on the ODU (see Table 4-2).
Table 4-2
Pin assignments for the 31-pin interface
Pin
Description
Pin
Description
Case Gnd
17
RX Tributary 3 Ring
Reserved
18
Summary Alarm relay (NC)
TX Tributary 1 Tip
19
TX Tributary 4 Tip
TX Tributary 1 Ring
20
TX Tributary 4 Ring
RX Tributary 1 Tip
21
RX Tributary 4 Tip
RX Tributary 1 Ring
22
RX Tributary 4 Ring
RS 485+
23
Alarm relay Common (CC)
TX Tributary 2 Tip
24
DC Power Conn#1
TX Tributary 2 Ring
25
RS422 RX+
10
RX Tributary 2 Tip
26
RS422 RX-
11
RX Tributary 2 Ring
27
DC Power Conn#2
12
Programmable Alarm Relay
(NC)
28
RS422 TX-
13
RS 485-
29
RS422 TX+
14
TX Tributary 3 Tip
30
DC Power Conn#2
15
TX Tributary 3 Ring
31
DC Power Conn#1
16
RX Tributary 3 Tip
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Trouble clearing procedures 4-5
The descriptions of the alarm pins in Table 4-2 on page 4-4 are:
• summary alarm relay (pin 18):
— activates when any of the alarms in Table 4-1 on page 4-2 are active
— the relay contact is open in normal condition and closes in alarm
condition
• programmable alarm relay (pin 12):
— activates when a programmed alarm is on. A programmed alarm can be
any of the alarms in Table 4-1 on page 4-2 (as provisioned by the
customer)
— The relay contact is closed in normal condition and open in alarm
condition
• Alarm relay common (pin 23):
— common (ground) contact for both pins 12 and 18
Warranty and field support
This section covers warranties and technical support information.
Warranties
Nortel Networks Public Networks Division warrants products to be free from
defects in material and workmanship for a period of:
• twelve (12) months from the date of shipment on a “furnish only” basis
• twelve (12) months from the date of acceptance or eighteen (18) months
from the date of shipment for material supplied on an engineer, furnish and
install (E, F, and I) basis, whichever is the shorter period
Standard return service
A replacement unit is shipped prepaid to the customer. During normal business
hours, you can call the repairs and emergencies department and receive
authorization to return the defective item.
After marking the item with the assigned repair order number and a description
of the fault, ship the item prepaid to:
For customers in Canada:
Nortel Networks
9300 Trans Canada Highway
St. Laurent, QC
H4S 1K5
Att: Repairs and Emergencies, Dept. 4350
Tel: 1-888-594-8474 (English or French)
Select option 3 for Radio
User guide NTXXXXXX Rel 3.0 Draft October 2000
4-6 Trouble clearing procedures
For customers in the United States:
Nortel Networks
917 Air Park Center Drive
Nashville, TN
37217
Att: Repair and Return
Tel.: 1-800-251-1758
For customers in the Caribbean and Latin America:
Nortel Networks (CALA)
1500 Concord Terrace
Sunrise, FL
U.S.A.
33323-2815
Att: Repair Coordinator
Tel.: (954) 851-8449
For customers in China:
Nortel Networks China Limited
11/F, Nortel Tower, Sun Dong An Plaza
No.138, Wang Fu Jing Street
Beijing 100006, China
Tel: 86-10-6528 8877
Fax: 86-10-6528 0701
86-10-6528 0702
For customers in Australia:
Nortel Networks Distribution Centre
Unit 2, Parklands Estate
21 South Street
Rydalmere NSW Australia 2116
Tel: 612-9325-5301
Fax: 612-9937-7154
For customers in Singapore:
Nortel Networks Singapore Pte. Ltd.
c/o Emery Worldwide
4, Changi South Lane
Nan Wah Building
Singapore 486127
Tel: (61) 2 8870 5480 (Sydney)
Fax: (61) 2 8870 7154 (Sydney)
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Trouble clearing procedures 4-7
For customers in the Philippines:
Nortel Philippines Repair Center
c/o Skyfreight Forwarders Inc.
AEI Liaison Office
Ninoy Aquino Avenue
Paranaque, Metro Manila
Philippines
Tel: (632) 917-4401
Fax: (632) 917-4145
48-hour emergency service
During and after normal business hours, you can call the repairs and
emergencies department:
• United States: 1-800-423-9658
• Canada: 1-800-361-2575
Request an emergency replacement and provide:
• your name
• your company name
• your telephone number
• your exact unit code and name
•
your shipping address
The repair coordinator assigns a repair order number that must be marked on
the unit being returned. Ship the unit prepaid to the same address as the
standard repair service. At the same time, Nortel Networks will ship an
identical replacement unit prepaid to within 48 hours.
Technical support and information
The support that the service centers provide includes:
• emergency support for a service-affecting problem
• trouble clearing guidance
• product maintenance support
• retrofit procedure inquiries
• support for hardware and software issues
• explanation and clarification of Nortel Technical Publication (NTP)
documentation.
User guide NTXXXXXX Rel 3.0 Draft October 2000
4-8 Trouble clearing procedures
Customers can direct requests for additional information to the nearest
technical assistance service center (see Table 4-3).
Table 4-3
Technical assistance service centers
For problems that affect service
For 24-hour emergency recovery or software
upgrade support for:
United States:
1-800-275-3827 (1-800-ASK-ETAS)
• restoration of service for equipment that has been
carrying traffic and is out of service
• issues that prevent traffic protection-switching
Canada:
• issues that prevent completion of software
upgrades
1-800-361-2465
• restoration of service for equipment that has been
carrying traffic and is experiencing signal
degradation
International:
770-708-4985
For problems that do not affect service
For 24-hour support for:
United States:
• issues that require immediate assistance
1-800-275-8726 (1-800-ASK-TRAN)
• technical support and upgrade notification
(8 a.m. to 10 p.m. EST only).
Canada:
1-800-361-2465
International:
770-708-4981
Fax-on-demand service
Customers can obtain technical information about selected Nortel Networks
TransportNode products through the 24 hour fax-on-demand telephone
service. In the United States and Canada, customers can reach this service at
the following toll-free number: 1-800-451-1685.
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
5-1
User interface description
5-
This chapter describes how to use wireless hand-held terminal (HHT). The
HHT operates on batteries and allows quick and easy monitoring and changes
to the system parameters of the Internet BWA System 3200.
Hand-held terminal description
The HHT can operate within 75 meters (225 feet) of the ODU. The LCD
display provides visual access to a series of system software menus and
parameters on two lines of 16 characters each.
The HHT gives access to a series of menus with provisioning, monitoring,
control, maintenance and query commands for the Internet BWA System 3200.
•
•
•
•
The HHT remains active until the user logs off or the HHT loses
communication with the Internet BWA System 3200.
When viewing or setting parameters, the HHT powers down 60 seconds
after the last entry.
Under normal operating conditions, normal battery life is 25 hours with the
use of industrial-grade alkaline cells, .
The HHT can lock up when the batteries are weak or not correctly
installed. If the HHT locks up, remove and insert the batteries again.
User guide NTXXXXXX Rel 3.0 Draft October 2000
5-2 User interface description
• If you enter incorrect data, “Invalid Value” appears on the LCD.
The circuit is usually in a muted state. The channel opens when the HHT issues
a command. The HHT can communicate to the ODU of the Internet BWA
System 3200 with the use of either:
• a wireless channel (418 MHz or 433.92 MHz channel with the use the of
whip antennas on the ODU and on the HHT)
• a coaxial cable (RG-58U cable) that connects between the ODU and the
HHT
Refer to Figure 1-3 on page 1-5 for the location of the wireless link or coaxial
I/O port.
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
User interface description 5-3
Hierarchy of the HHT menus
The HHT user interface is menu driven. The menus allow you to set and view
the parameters for the local and the far-end radios. Figure 5-1 shows the
hierarchy of the HHT menus.
Figure 5-1
The HHT menus hierarchy
R0015p.eps
Enter & hold
ODU Address:
Serial number
Enter
Menu
Near Radio
Enter
Control
Enter
Menu
Status
Enter
Menu
Inventory
Enter
Menu
Test
Enter
Tx Freq
Rx Freq
Tx Power
FAW
Capacity
Cbl Lngth
Line Coding
Tribut Enab
Tx Freq
Rx Freq
Tx Power
FAW
Capacity
Cbl Lngth
Line Coding
Tribut Stat
Mute
Tx Freq Rng
Rx Freq Rng
RSSI
Temp
Blk Error Cnt
Sum Alarms
PEC
Prod rel ver
Ser No
ODU SW
DSP SW
Mute
Local loopback
RF loopback
Rem loopback
Menu
Far Radio
Link
Enter
Enter
Control
Enter
Line Coding
Tribut Enab
Menu
Freq
Tx Power
FAW
Capacity
Control
Enter
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5-4 User interface description
Functions of the HHT keypad keys
As Figure 5-1 shows, the menu items are:
• Near Radio
• Far Radio
• Link
The submenu items are:
• Control
• Inventory
• Status
• Test
After you enter the radio terminal address, the “Near Radio” menu is the
default menu item. Table 5-1lists the HHT keypad keys with the keypad key
functions.
Table 5-1
HHT keypad keys
Key
Press this key to...
scroll through all the menu or submenu items
scroll through all the parameters within a submenu
access a submenu within a menu item (see Figure 5-1)
access the parameters within a submenu
enter new values for the parameters
return to the previous menu or submenu items
delete a keypad entry
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
User interface description 5-5
Parameters for the Near Radio menu
This section describes the parameters within the submenus of the “Near
Radio” menu item
Control submenu
This section lists the parameters within the “Control” submenu of the “Near
Radio” menu. The “Control” submenu allows you to change to the parameters.
Tx Freq
To enter a value to set the transmit RF frequency (in MHz).
Values:
see Chapter 3, “Technical specifications” for channel centers
Rx Freq
To enter a value to set the receive RF frequency (in MHz).
Values:
see Chapter 3, “Technical specifications” for channel centers
Tx Power
To enter a value to set the transmit power level in dBm.
Values:
18 to XX dBm (15/18/23 GHz) Recommended: 20 dBm
17 to XX dBm (24/26 GHz) Recommended: 20 dBm
16 to XX dBm (28 GHz) Recommended: 20 dBm
16 to XX dBm (31/38 GHz)Recommended: 20 dBm
FAW
To enter a value to select one of eight possible frame alignment words (FAW)
in the radio frame. This is also used as the Link ID. Both near end and far end
radios must have the same FAW. The Internet BWA System 3200 only
processes a frame that contains the correct FAW.
Values:
0 to 7
Capacity
To enter a value to set the number of tributaries that the radio can multiplex into
the main channel. See also the “Tribut Enab” parameter for this submenu.
Values:
2: include tributaries 1 and 2
4: include all tributaries (tributaries 1 to 4)
Cbl Lngth
To enter a value to indicate the length of the cable in meters. This parameter
applies for DS1 systems only.
Values:
0 to 40, 41 to 80, 81 to 121, 122 to 162, 163 to 200
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5-6 User interface description
Line Coding
To enter a value to select AMI or B8ZS coding for all tributaries. This
parameter applies for DS1 systems only. For an E1 system, the line coding is
always HDB3.
Values:
0: AMI
1: B8ZS
Tribut Enab
To enter a value to enable or disable tributaries 1 ot 4. A disabled tributary has
no alarms. This parameter has two or four screens (one for each tributary) that
refer to the “capacity” setting for the radio. See also the “Capacity” parameter
in this submenu.
Values:
0: disable
1: enable
Status submenu
This section lists the parameters within the “Status” submenu of the “Near
Radio” menu. The “Status” submenu allows you to only view to the
parameters.
Tx Freq
To view the transmit RF frequency (in MHz).
Rx Freq
To view the receive RF frequency (in MHz).
Tx Pwr
To view the transmit power level in dB.
Values:
40 dB (15/18/23 GHz)
30 dB (24/26/28 GHz)
25 dB (31/38 GHz)
FAW
To view the assigned frame alignment word (FAW) in the radio frame.
Values:
0 to 7
Capacity
To view the number of tributaries that the radio can multiplex into the main
channel.
Values:
Internet BWA System 3200
2: include tributaries 1 and 2.
4: include all tributaries (tributaries 1 to 4)
NTXXXXXX Rel 3.0 Draft October 2000
User interface description 5-7
Cbl Lngth
To view the length of the cable in meters. This parameter applies for DS1
systems only.
Values:
0 to 40, 41 to 80, 81 to 121, 122 to 162, 163 to 200
Line Coding
To view the DS1 line coding parameter (AMI or B8ZS) for all tributaries in the
system. For an E1 system, the line coding is always HDB3.
Values:
0: AMI
1: B8ZS
Trib Stat
To view the status of tributaries 1 to 4. This parameter has two or four screens
(one for each tributary) that refer to the number of tributaries that the radio can
receive.
Values:
0: disable
1: enable
Mute
To view the status of the transmitter output.
Values:
0: the Tx output is enabled
1: the Tx output is muted (disabled)
Tx Freq Rng
To view the transmit frequency range.
Values:
17.7 & 19.7 (18 GHz)
21.2 & 23.6 (23 GHz)
Rx Freq Rng
To view the receive frequency range.
Values:
17.7 & 19.7 (18 GHz)
21.2 & 23.6 (23 GHz)
RSSI
To view the received signal strength indication (RSSI) value in dBm.
Values:
0 to -86/89 dBm (18 GHz with 4/2 tributaries)
0 to -85/88 dBm (23 GHz with 4/2 tributaries)
Temp
View the internal temperature of the ODU.
Values:
-128 to +127 °C
User guide NTXXXXXX Rel 3.0 Draft October 2000
5-8 User interface description
Blk Error Cnt
To view the cumulative block error count from the FEC decoder. At this
parameter, the system first reads the counter and then clears it.
Values:
Sum Alarms
To view all active alarms. You can scroll through each active alarm. Refer to
Chapter 4, “Trouble clearing procedures” for the alarm definitions.
Values:
Temperature overrange
Temperature underrange
Tx low output power
Rx frame loss
Low RSL
AFC loop OOL
AGC loop OOL
Tx synthesizer OOL
Rx synthesizer OOL
FAW error alarm
Data link alarm
Tributary 1 Tx LOS
Tributary 2 Tx LOS
Tributary 3 Tx LOS
Tributary 4 Tx LOS
Tributary 1 Rx AIS
Tributary 2 Rx AIS
Tributary 3 Rx AIS
Tributary 4 Rx AIS
Inventory submenu
This section lists the parameters within the “Inventory” submenu of the “Near
Radio” menu.
PEC
Displays the ODU PEC code
Product rel ver
Displays the ODU release version
Serial No.
Displays the ODU serial number
ODU SW
Displays the version number of the ODU controller software . The number has
an implied decimal point before the last two digits (for example: 110 = version
1.10)
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
User interface description 5-9
DSP SW
Displays the serial number of the digital signal processing (DSP) software.
This is the version number in the revision register of the field programmable
gate array (FPGA) .
Values:
0 to 255
Test submenu
This section lists the parameters within the “Test” submenu of the “Near
Radio” menu. The test menu allows you to disable the transmitter to perform
loopback tests.
Tx Mute
To enable or disable the transmitter.
Values:
0: enable the Tx output
1: disable (mute) the Tx output
local loopbk
To loopback local tributaries 1to 4. Loops the tributary input (data from
customer) back onto tributary output (data to customer) at local terminal. This
test checks connection to the customer equipment. This parameter has two or
four screens that refer to the “capacity” setting for the radio.
Values:
0: disabled
1: enabled
RF loopbk
When you enable the RF loopback, the system changes the Rx frequency to
match the Tx frequency. The system also changes the FAW to a different value
in order to disable reception from the far-end radio. When you disable the RF
loopback, the radio switches back to the original Rx frequency and FAW.
Values:
0: disable RF loopback
1: enable RF loopback
Rem loopbk
To loopback the remote tributaries 1to 4. Loops the remote tributary output
(data to customer) back into remote tributary input. This test checks the radio
link operation.
This loopback test does not include the remote tributary line driver or the
remote tributary line receiver. This parameter has up to four screens that refer
to the “capacity” setting for the radio.
Values:
0: disabled
1: enabled
User guide NTXXXXXX Rel 3.0 Draft October 2000
5-10 User interface description
Parameters for the Far Radio menu
This section describes the parameters within the control submenu of the “Far
Radio” menu item.
Control submenu
This section lists the parameters within the “Control” submenu of the “Far
Radio” menu. The “Control” submenu allows you to change to the parameters.
Line Coding
To enter the DS1 line coding method (AMI or B8ZS) for all tributaries in the
far-end radio. For an E1 system, the line coding is always HDB3.
Values:
0: AMI
1: B8ZS
Tribut Enab
To modify the status of the the far-end tributaries 1 to 4. A disabled tributary
has no alarms. This parameter has two or four screens that refer to the
“capacity” setting for the radio.
Values:
0: disable
1: enable
Parameters for the Link menu
This section describes the parameters within the control submenu of the
“Link” menu item.
Control submenu
This section lists the parameters within the “Control” submenu of the “Link”
menu. The “Control” submenu allows you to change to the parameters.
Freq
To enter two values to set the frequencies for the near-end and far-end
transmitters (in MHz). With inputs to this parameter, the radio coordinates the
frequency change with the far-end radio. If the radios lose communication for
more than 10 seconds after a change in the parameters, the parameters revert
to their previous settings.
This parameter uses one screen to enter Value 1 (the near-end Tx frequency),
then another screen to enter Value 2 (the far-end Tx frequency). A third screen
(the “Go” screen) launches the global frequency changes.
Value 1:
see Chapter 3, “Technical specifications” for channel centers
Value 2:
see Chapter 3, “Technical specifications” for channel centers
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
User interface description 5-11
Tx Power
To set the transmit power level in dBm. The local radio communicates with the
far-end radio to arrange the change in power level. If the radios lose
communication for more than 10 seconds after a parameter change, the
parameter reverts to its previous setting.
Values:
18 to XX dBm (15/18/23 GHz) Recommended: 20 dBm
17 to XX dBm (24/26 GHz) Recommended: 20 dBm
16 to XX dBm (28 GHz) Recommended: 20 dBm
16 to XX dBm (31/38 GHz)Recommended: 20 dBm
Link FAW
To select one of eight possible frame alignment words (FAW) in the radio
frame. The FAW is also used as the Link ID. Both near end and far end radios
must have the same FAW. With a change to this parameter, the local radio
communicates with the far-end radio to arrange the FAW change. If the radios
lose communication for more than 10 seconds after a parameter change, the
parameter reverts to its previous setting.
Values:
0 to 7
Capacity
To set the number of tributaries multiplexed into the main radio channel for
both the near and the far-end radios. With a change to this parameter, the local
radio communicates with the far-end radio to arrange the capacity change. If
the radios lose communication for more than 10 seconds after a parameter
change, the parameter reverts to its previous setting.
Values:
2: include tributaries 1 and 2
4: include all tributaries (tributaries 1 to 4)
User guide NTXXXXXX Rel 3.0 Draft October 2000
5-12 User interface description
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
6-1
Installation and commissioning
procedures
6-
This chapter includes the procedures for the installation and commissioning of
the Internet BWA System 3200.
Chapter task list
Table 6-1 lists the procedures in this chapter.
Table 6-1
Procedure
Details
Unpacking, identifying and matching the system
Procedure 6-1 on page 6-2
Installing the Internet BWA System 3200 on a pole
Procedure 6-2 on page 6-5
Connecting the interface cables
Procedure 6-3 on page 6-13
Setting up the Internet BWA System 3200
Procedure 6-4 on page 6-17
Aligning the antenna of the Internet BWA System 3200
Procedure 6-5 on page 6-20
Commissioning the Internet BWA System 3200
Procedure 6-6 on page 6-24
—end—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-2 Installation and commissioning procedures
Procedure 6-1
Unpacking, identifying and matching the system
Use this procedure to unpack and handle the Internet BWA System 3200. Use
this procedure to also identify and match the Internet BWA System 3200
system (radio-link).
Requirements
Before you start:
• Select an appropriate area to unpack the shipping container. This area must
be level, dry and dust-free.
• Identify the frequencies that the radio is to operate in. The bandwidth of
the radio (bandpass filters) cannot be changed in the field. The radio must
return to the factory if you require a change in bandpass filters.
Action
Step
Action
Unpack and inspect the Internet BWA System 3200 components
CAUTION
Possible damage to the Internet BWA System 3200
Use caution when you unpack the Internet BWA
System 3200 terminal from its packaging. The radio
terminal and integrated antenna are sensitive to minor
changes.
Remove all parts and accessories from the container and packing material.
Keep the packaging materials for pssible returns.
Check the equipment contents with the packing list and report any
discrepancies immediately.
Inspect the equipment for damage.
Locate the two 433.92 MHz whip antennas.
Place the 433.92 MHz antennas in a safe area or mount them directly to the
RF unit and Hand-held unit to ensure that they are not misplaced.
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-3
Procedure 6-1 (continued)
Unpacking, identifying and matching the system
Step
Action
Verify that the equipment includes the components in Table 6-2.
Table 6-2
Internet BWA System 3200 components
Qty
Item
Description
38 GHz RF unit
Model Number CA381E1SP or
(HP)
Whip antenna (433 MHz or 418
MHz)
RF unit: Reverse SMA Female
Connector
Cable end connector for the RF unit CONXALL 23280-31SG-350K
(TLS) (31-pin)
Interface mounting bracket
Includes hardware
Optional items
RS-485 to RS-232 interface kit
Interface between the radio RS-485
communications channel and the
user’s laptop or PC RS-232 I/O port
Wireless hand-held unit
Includes a Whip 433 MHz Antenna
Multi-conductor Interface cable
Length based on purchase
Coaxial test cable
Female reverse SMA to male BNC
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-4 Installation and commissioning procedures
Procedure 6-1 (continued)
Unpacking, identifying and matching the system
Step
Action
Identify and match the Radio terminal
Match an “A” radio terminal with a “B” radio terminal as shown in Table 6-3.
Table 6-3
Matching options
“A” Terminal
“B” Terminal
System
A-1
B-1
A-1 & B-1
A-2
B-2
A-2 & B-2
B-1
A-1
B-1 & A-1
B-2
A-2
B-2 & A-2
Each RF channel plan contains four sub-bands. Each type of Internet BWA
System 3200 (A-1, A-2, B-1 and B-2) equips a specific bandpass filter. A radio
link includes two terminals. One terminal has its transmitter frequency 1260
MHz above its duplex receiver. The other radio terminal has its transmitter at
1260 MHz below its duplex receiver. Refer to Table 6-4.
Table 6-4
Options for International (T/R = 1260 MHz)
Group
Transmit (MHz)
Receive (Mhz)
A-1
37050-37650
38310-38910
A-2
37600-38200
38860-39460
B-1
38310-38910
37050-37650
B-2
38860-39460
37600-38200
—end—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-5
Procedure 6-2
Installing the Internet BWA System 3200 on a pole
Use this procedure to install the Internet BWA System 3200 on a pole.
The Internet BWA System 3200 assembly kit contains the outdoor unit (ODU),
the main antenna, and the interface mounting bracket. The ODU contains a
whip antenna and wave guide flange
DANGER
Risk of personal injury
Incorrect or unsafe installation can result in personal injury
Requirements
The requirements include the lists of tools and materials
Tools
Required tools:
• 11mm / 7/16” open wrench
• 13mm / 1/2” open wrench
•
phillips screwdriver (medium)
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-6 Installation and commissioning procedures
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Equipment
Required equipment (refer to Figure 6-1 and Figure 6-2):
• One azimuth adjustment plate (part 101488-1) that attaches with:
— One U-bolt, 4.5 pipe, 3/8-16
— Two 3/8-16 hex nuts, bronze
— Two 3/8 flat washers
— Two 3/8 split lock washers
• One azimuth adjustment rod with hardware
• Two pole mount clamps that attach with:
— Four 3/8-16 x 6.0" bolts, galvanized
— Four 3/8-16 hex nuts, galvanized
— Four 3/8 flat washers, galvanized
— Four 3/8 split lock washers, galvanized
• One antenna mounting plate and hardware
• One elevation adjustment rod with a brass cylinder
• One antenna with a mounting flange
• One outdoor unit (ODU)
Figure 6-1
Mounting equipment for the Internet BWA System 3200
MOP0093p.eps
Pole clamp
(2 places)
Elevation
adjustment rod
Brass
cylinder
Antenna mounting
plate
Direction of
Antenna
Azimuth
adjustment
rod
Azimuth adjustment
plate
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-7
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Figure 6-2
Mounting equipment for the Internet BWA System 3200 (2 of 2)
MOP0095p.eps
Antenna
mounting
bolts
Antenna
mounting
bolts
Azimuth
adjustment
plate
Part of U-bolt
Action
Step
Action
Determine what side of the pole to install the antenna on
The antenna mounts to receive the signals from the right side of the pole (see
Figure 6-2).
If
Then
you must install the antenna to receive the
signals from the left side of the pole
go to step 2
otherwise
go to step 6
Place the antenna on a flat surface.
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-8 Installation and commissioning procedures
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Step
Action
Remove the four 1/4-20 screws that attach the antenna mounting flange to
the antenna (see Figure 6-3)
Figure 6-3
Antenna mounting flange
MOP0098p.eps
Antenna
flange screws
(4 places)
CAUTION
When rotating the flange, make sure that you do not
remove the feed from the reflector.
Carefully rotate the flange 180° so that the drain hole remains on the bottom.
Insert the four 1/4-20 screws that attach the antenna mounting flange to the
antenna.
Attach the mounting assembly to the pole
Use a carpenter level to level the pole to ensure that the antenna remains flat
along the horizontal plane.
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-9
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Step
Action
Position the azimuth adjustment plate (P/N 101488-1) to the pole in the
position that refers to the direction of the antenna as shown in Figure 6-4.
Figure 6-4
Position of the mounting assembly
MOP0093p.eps
Pole clamp
(2 places)
Elevation
adjustment rod
Brass
cylinder
Antenna mounting
plate
Direction of
Antenna
Azimuth
adjustment
rod
Azimuth adjustment
plate
To attach the azimuth adjustment plate to the pole, use the U-bolt (100441-1),
the flat washers, the split lock washers and the the 3/8 x16 bronze nuts (refer
to Figure 6-2 on page 6-7).
Position the antenna mounting plate on the opposite side of the azimuth
adjustment plate as shown in Figure 6-4.
10
The azimuth adjustment rod attaches to the antenna mounting plate at the
factory.
11
•
remove the 3/8 hex nut, the flat and the split lock washers from the
azimuth adjustment rod
•
insert the azimuth adjustment rod into the slot of the azimuth adjustment
plate (see Figure 6-4).
Replace and tighten the 3/8 hex nut, the flat and split lock washers on the
azimuth adjustment rod.
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-10 Installation and commissioning procedures
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Step
Action
12
Use the pole clamps and hardware to attach the antenna mounting plate to
the pole as shown in Figure 6-4 on page 6-9 and Figure 6-2 on page 6-7.
13
Attach the galvanized flat washer, galvanized split lock washer and 3/8-16
galvanized hex nut to the end of the azimuth adjustment rod.
Install the antenna on the mounting assembly
14
Place the brass cylinder in one of the elevation adjustment holes (for the best
elevation angle) on the antenna mounting flange (see Figure 6-5).
Figure 6-5
Antenna installation (1 of 2)
MOP0094p.eps
ODU mounting slots
(4 places)
Elevation
adjustment holes
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-11
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Step
Action
15
Use the antenna mounting bolts in four places to hold the antenna to the
mounting assembly (see Figure 6-6). Do not tighten the bolts completely to
perfrom the alignment procedures
Figure 6-6
Antenna installation (2 of 2)
MOP0095p.eps
Antenna
mounting
bolts
Antenna
mounting
bolts
Azimuth
adjustment
plate
Part of U-bolt
Mount the ODU
16
Insert the ODU screws into the ODU mounting slots and twist the ODU
completely counterclockwise (see Figure 6-5 on page 6-10).
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-12 Installation and commissioning procedures
Procedure 6-2 (continued)
Installing the Internet BWA System 3200 on a pole
Step
Action
17
Make sure that you mount the ODU with the correct polarization at the top of
the ODU (see Figure 6-7). Figure 6-7 shows a vertical polarization.
Figure 6-7
ODU installation
MOP0096p.eps
Polarization
indicators
Azimuth adjustment screws
—end—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-13
Procedure 6-3
Connecting the interface cables
Use this procedure to connect all interface cables to the ODU of the Internet
BWA System 3200 .
DANGER
Risk of personal injury
Incorrect or unsafe installation can result in personal injury
The interface between all user equipment and the Internet BWA System 3200
is a 100-Ohm (DS1) or 120-Ohm (E1) twisted-pair cable assembly. The
twisted-pair cable assembly provides conductors for:
• alarm telemetry information
• programmable alarms
• the RS-485 communication link
• DC power source
• transmit and receive data lines (tributaries)
The cable has a drain wire and color-coded solid conductors of 24 AWG. The
bundled pairs are wrapped in a foil shield with internal drain wire and covered
with a wire braid and insulating jacket. The outer braid and drain wire
terminate at pin 1.
Requirements
Before you begin this procedure:
• Route the customer cables to an appropriate customer interface point (for
example, a cross-connect panel).
Note: For continued compliance with applicable regulatory requirements,
the DS1/E1 lines of the system cannot directly connect to a DS1/E1
network. They must connect only behind registered terminal equipment.
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-14 Installation and commissioning procedures
Procedure 6-3 (continued)
Connecting the interface cables
•
Additional guidelines before the connection of the interface cable:
— When cutting the cable length, be sure to add extra length for the
service loop.
— Ensure that a strain relief is added to each cable connection.
— Ensure that the external connector is sealed and waterproof.
— Follow standard installation practices.
– Avoid sharp corners.
– Attach the interface cable to the tower members or cable runways
with the use of hanger kits or tie-wraps at one meter intervals.
— When routing the interface cable, avoid blocking the wireless antenna
pattern.
•
•
•
•
•
•
•
•
•
•
•
•
•
11mm / 7/16” open wrench
13mm / 1/2” open wrench
phillips screwdriver (medium)
Cable cutter
Knife, skinning
Pliers, long nose
Cable ties (P0567238)
Screwdriver, slotted 1/8 inch
Anti-static kit
Wire cutter
Crimper (for coaxial cable)
Wire wrap tool (for twisted pair cable)
Soldering iron with solder
Tools
Equipment
•
•
•
one (1) 433.92 MHz antenna with reverse SMA connector
one (1) optional RG-58U test cable with a reverse SMA female connector
fitted at one end and a BNC male connector at the other end.
one (1) twisted pair interface cable
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-15
Procedure 6-3 (continued)
Connecting the interface cables
Action
Step
Action
Connect to the customer equipment
Connect the twisted-pair wires of the interface cable to the customer
equipment as shown in Table 6-5 (use a twisted-pair for each Tx and Rx
connection.
Table 6-5
Input pin assignments for twisted-pair interface cable
Pin
Signal Description
Pin
Signal Description
Case Gnd
17
RX Tributary 3 Ring
Reserved
18
Summary Alarm relay (NC)
TX Tributary 1 Tip
19
TX Tributary 4 Tip
TX Tributary 1 Ring
20
TX Tributary 4 Ring
RX Tributary 1 Tip
21
RX Tributary 4 Tip
RX Tributary 1 Ring
22
RX Tributary 4 Ring
RS 485+
23
Alarm relay Common (CC)
TX Tributary 2 Tip
24
DC Power Conn#1
TX Tributary 2 Ring
25
RS422 RX+
10
RX Tributary 2 Tip
26
RS422 RX-
11
RX Tributary 2 Ring
27
DC Power Conn#2
12
Programmable Alarm Relay
(NC)
28
RS422 TX-
13
RS 485-
29
RS422 TX+
14
TX Tributary 3 Tip
30
DC Power Conn#2
15
TX Tributary 3 Ring
31
DC Power Conn#1
16
RX Tributary 3 Tip
Record the wire colors for each pin in the columns in Table 6-5 or label the
wires for easy identification at the DS1/E1 equipment end.
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-16 Installation and commissioning procedures
Procedure 6-3 (continued)
Connecting the interface cables
Step
Action
If you connect less than 4 DS1 channels or less than 4 E1 channels, insulate
the ends of the unused twisted pairs with electrical tape. Then label and
fasten the ends for future identification.
CAUTION
Reduced system performance
Failure to use the correct cable types significantly
reduces system performance.
Connect the female end of the interface cable to the 31-pin male connector
on the ODU (align the connector guide pins and rotate to set the cable in
place and do not force the cable connector into the ODU connector).
Attach the wireless link antenna
Remove the 433.92-MHz antenna with reverse SMA connector from the
accessory kit.
Remove the plastic guard cap from the ODU port for wireless or coaxial I/O
(refer Figure 1-3 on page 1-5 for the location of the wireless I/O port).
Attach the 433.92-MHz antenna to the ODU port.
Ground and weatherproof the connectors
CAUTION
Risk of equipment damage
Failure to properly ground the Internet BWA System 3200 and
mounting structure causes poor performance and a higher risk
of damage from lightning.
Attach a 6-AWG cable between the grounding post on the rear of the Internet
BWA System 3200 to the tower or structure grounding system.
10
Attach a cable grounding kit to the radio unit end of the interface cable.
11
Attach the cable grounding kit to the tower or site ground according to the
instructions of the supplier of the grounding kit (attach the grounding kit within
three feet of the connection to the radio unit).
12
Repeat step 10 and step 11 at the base of the tower before the entrance to
the building or shelter.
13
Apply a weatherproof compound to all outside connections. At the least,
apply a water resistant tape to all the outside connectors.
—end—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-17
Procedure 6-4
Setting up the Internet BWA System 3200
Use this procedure to set up and align the Internet BWA System 3200.
On start-up, the Internet BWA System 3200 loads its operating software from
its flash memory. During initialization, the radio remains mute until it
completes its self-diagnostic tests.
After start-up, you can monitor and control the Internet BWA System 3200
with the use of the hand-held terminal (HHT).
Requirements
Required equipment:
•
•
RG-58 coaxial cable or HHT-to-ODU whip antennas
HHT
Action
Step
Action
Apply DC power to the radio.
Stand within 75 meters of the Internet BWA System 3200
Press and hold the ENTER key of the HHT until the display lights up.
Initialize the HHT
The HHT default display appears and reads:
Enter ODU Addr:
Enter the near-end terminal address
Use the keypad to enter the Internet BWA System 3200 address (the ODU
serial number).
Press the ENTER key.
The HHT displays the message:
Establishing Link
When you establish communication between the HHT and the Internet BWA
System 3200, the Near Radio menu appears on the display.
If
Then
you cannot establish communication between go to step 7
the HHT and the Internet BWA System 3200
otherwise
go to step 8
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-18 Installation and commissioning procedures
Procedure 6-4 (continued)
Setting up the Internet BWA System 3200
Step
Action
Trouble clearing the communication between the HHT and the ODU
If you cannot establish communication between the HHT and the ODU.
a. Confirm the address and enter it again.
b. Check the DC power to the outdoor unit (ODU).
— Check the cable
— Check the cable connector on the ODU
— Check the power source.
c. Disconnect and inspect both the ODU and the hand-held wireless
antennas.
d. Attach the antennas again
e. Repeat to step 3 to step 5.
f.
Replace the whip antennas with the RG-58 coaxial cable:
— connect the coaxial cable between ODU and the HHT
— repeat step 3 to step 5.
g. If the communications channel cannot be established, contact Customer
Support (see “Warranty and field support” on page 4-5)
Set the transmit mute function to “ON”
From the Near Radio menu, press the ENTER key.
The HHT displays the Control submenu.
From the Control submenu, press the ENTER key.
The HHT displays the first parameter in the Control submenu (Tx Freq) and
the following message appears on the display:
Set TX
10
Press the ARROW key until the transmit RF power command Set Pwr
appears on the display.
11
Press the ENTER key.
The current transmit RF power setting appears on the display
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-19
Procedure 6-4 (continued)
Setting up the Internet BWA System 3200
Step
Action
12
To change the Set Pwr setting,
a. Use the keypad to enter the required transmit RF power output (Range
+2 to +17 dBm). For example, to insert 2dBm, enter:
Set Pwr: 2dBm
b. press the ENTER key.
13
Press the MENU key to return to the Control menu.
14
Press the MENU key again to return to the Far End menu.
Verify and set the link ID
Use the following steps to establish link identification when multiple Radio
links are located at the same site.
Use the following steps to set the near-end and far-end terminals to the same
Link ID number.
15
Go to the Near End | Control menu.
The following message appears on the display:
Set TX
16
Press the ARROW key until the Set Link ID (FAW) command appears on the
display.
17
Press the ENTER key.
The current setting appears on the display.
18
To change the Set Link ID (FAW) setting:
a. Use the keypad to enter an ID number (Input range 0-7).
b. Press the ENTER key.
19
Press the MENU key to return to the Control menu.
20
Press the MENU key again to return to the Near End menu.
21
Repeat step 15 to step 20 for the far-end terminal to make sure that both
terminals have the same “Link ID” number.
—end—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-20 Installation and commissioning procedures
Procedure 6-5
Aligning the antenna of the Internet BWA System 3200
Use this procedure to align the antenna of the Internet BWA System 3200 with
the next far-end antenna. Perform this alignment procedure for one terminal at
a time.
Requirements
Required tools and equipment:
Equipment
• Digital multimeter (optional) to monitor the AGC voltage or HHT to
monitor the receive signal strength indication (RSSI)
Tools
•
•
•
•
11mm / 9/16” open wrench
13mm / 1/2” open wrench
carpenter level
compass
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-21
Procedure 6-5 (continued)
Aligning the antenna of the Internet BWA System 3200
Action
Step
Action
Perform the horizontal antenna alignment
Establish communication with personnel on the far-end of the link.
From the HHT, go to the Near End | Status menu.
Press the ENTER key to access the parameters in the Status submenu.
The following message appears on the display:
Get TX
Press the ARROW key until the RSSI command appears on the display.
Press the ENTER key.
The current setting appears on the display. The HHT remains ON as you
monitor RSSI and BER status.
Loosen the azimuth adjustment screws (see Figure 6-8).
Figure 6-8
Location of the azimuth adjustment screws
MOP0096p.eps
Polarization
indicators
Azimuth adjustment screws
Use a compass and move the antenna horizontally within the direction of the
far-end antenna.
While you monitor the RSSI on the HHT, slowly move the antenna through the
complete horizontal adjustment range.
—continued—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-22 Installation and commissioning procedures
Procedure 6-5 (continued)
Aligning the antenna of the Internet BWA System 3200
Step
Action
Identify the main and side lobes (the antenna side lobes are normally 12 to
20 dB below the main lobes).
If the antenna peaks at 20 dB below the expected level, you can be on a side
lobe or you have cross polarized the antennas.
10
Place marks on the threads of the azimuth adjustment rod to identify the main
and side lobes.
11
After identifying both the main and side lobes, position the antenna assembly
to the main lobe mark.
12
Tighten the azimuth adjustment screw by hand.
Perform the vertical antenna alignment
13
Loosen the elevation adjustment screws (see Figure 6-9) and slowly move
the antenna through the complete vertical adjustment range.
Figure 6-9
Location of elevation adjustment screws
MOP0097p.eps
Elevation
adjustment
screws
Elevation
adjustment
screws
14
While you monitor the RSSI on the HHT, identify the main and side lobes (the
antenna side lobes are normally 12 to 20 dB below the main lobes).
If the antenna peaks at 20 dB below the expected level, you can be on a side
lobe or you have cross polarized the antennas.
—continued—
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-23
Procedure 6-5 (continued)
Aligning the antenna of the Internet BWA System 3200
Step
Action
15
Place marks on the threads of the antenna mounting plate to identify the main
and side lobes.
16
After identifying both the main and side lobes, position the antenna assembly
to the main lobe mark.
17
Tighten the elevation adjustment screws by hand.
Perform a fine antenna alignment
18
Use a 15mm / 1/2” open wrench to slightly move the azimuth adjustment
screws for a maximum RSSI reading.
19
Use a 15mm / 1/2” open wrench to slightly move the elevation adjustment
screws for a maximum RSSI reading.
20
Repeat this procedure at the far-end terminal.
—end—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-24 Installation and commissioning procedures
Procedure 6-6
Commissioning the Internet BWA System 3200
Use this procedure to commission the local and the far-end Internet BWA
System 3200.
Requirements
Before you start this procedure:
• Perform all of the procedures in this chapter.
• Have personnel at both the near end and far end terminals.
Equipment
• HHT
Tools
•
•
•
11mm / 7/16” open wrench
13mm / 1/2” open wrench
carpenter’s level
Action
Step
Action
Commission the radio
Verify and record the Internet BWA System 3200 configuration
List the Internet BWA System 3200 configuration settings and parameters in
Table 6-6. Record the configuration as a permanent site record.
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Installation and commissioning procedures 6-25
Table 6-6
Internet BWA System 3200 configuration form
Customer
Equipment Station
Hop Length
Date
Miles/km
Prepared by
Equipment Parameters
Equipment Type
Station ID
Terminal address
Equipment Rack Number
System Capacity
Mbit/s
Transmitter Frequency
MHz
Receiver Frequency
MHz
Transmitter RF Output Level
dBm
Threshold Level of the Receiver
dBm
Calculated Fade Margin
dB
AGC Voltage
BER Performance
Antenna Polarization
Vertical (V)
Horizontal (H)
—end—
User guide NTXXXXXX Rel 3.0 Draft October 2000
6-26 Installation and commissioning procedures
Internet BWA System 3200
NTXXXXXX Rel 3.0 Draft October 2000
Internet Broadband Wireless Access
Internet BWA System 3200
Copyright  2000 Nortel Networks, All Rights Reserved
The information contained herein is the property of Nortel
Networks and is strictly confidential. Except as expressly
authorized in writing by Nortel Networks, the holder shall keep all
information contained herein confidential, shall disclose it only to
its employees with a need to know, and shall protect it, in whole
or in part, from disclosure and dissemination to third parties with
the same degree of care it uses to protect its own confidential
information, but with no less than reasonable care. Except as
expressly authorized in writing by Nortel Networks, the holder is
granted no rights to use the information contained herein.
Nortel Networks, the Nortel Networks logo, the Globemark, How
the World Shares Ideas, and Unified Networks are trademarks of
Nortel Networks
VT100 is a trademark of Digital Equipment Corporation
NTXXXXXX
Draft Rel 3.0
October 2000
Printed in Canada

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