Andrew Wireless Innovations Group RPT-NODEC837 Cellular Band Repeater User Manual M0121A1A uc

Andrew Wireless Innovations Group Cellular Band Repeater M0121A1A uc

Users Manual

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User’s Manual
for
Node C Prototype
Network Elements
with Interface Unit
ID No: 161692
PRELIMINARY
Page 1
User’s Manual for Node C Network Elements
© Copyright 2004 Mikom GmbH
All rights reserved.
All information contained in this manual has been revised thoroughly. Yet Mikom An
Andrew Company accepts no liability for any omissions or faults.
Mikom An Andrew Company reserves the right to change all hard- and software
characteristics without notice.
Names of products mentioned herein are used for identification purposes only and
may be trademarks and/or registered trademarks of their respective companies.
No parts of this publication may be reproduced, stored in a retrieval system,
transmitted in any form or by any means, electronical, mechanical photocopying,
recording or otherwise, without prior written permission of the publisher.
Mikom GmbH An Andrew Company, 16-February-2004
Page 2
M0121A1A_uc.doc
TABLE OF CONTENTS
GENERAL
1.1
ABBREVIATIONS
1.2
HEALTH AND SAFETY WARNINGS
1.3
PREAMBLE
1.4
INTERNATIONAL CONTACT ADDRESSES
INTRODUCTION
10
11
2.1
PURPOSE
11
2.2
THE NODE C NETWORK ELEMENT
11
2.3
QUICK START CHECKLIST
12
INSTALLATION
13
3.1
3.1.1
3.1.2
3.1.3
3.1.4
MECHANICAL INSTALLATION
General
Wall Mounting Procedure
Connection Option
Pole Mounting Procedures
13
13
14
16
17
3.2
3.2.1
3.2.2
3.2.3
3.2.4
3.2.5
3.2.6
ELECTRICAL INSTALLATION
General
Grounding
Power Connection
Connection of the Antenna Cables
Connection of Cable Bridge
Connections for Optional Equipment
20
20
21
22
23
23
24
4.1
COMMISSIONING
25
GENERAL
25
4.2
SOFTWARE SETUP
4.2.1
Remote Control
4.2.2
Connection Devices
4.2.3
Connection Procedures
4.2.3.1
Setup Overview
4.2.3.2
Installing the USB driver
4.2.3.3
Direct connection for Windows XP
4.2.3.4
Modem connection for Windows XP
4.2.3.5
Direct connection for Windows 2000
4.2.3.6
Accessing the web page
4.2.4
Main Menus of the Web Page
4.2.4.1
Setup Wizard
4.2.4.2
Connectivity and Upload
4.2.4.3
Technician Setup
4.2.4.4
Alarm Management
26
26
26
26
26
27
28
38
48
60
61
61
63
64
65
4.3
66
TROUBLESHOOTING
ID No: 161692
PRELIMINARY
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User’s Manual for Node C Network Elements
FUNCTIONAL DESCRIPTION
69
5.1
GENERAL
69
5.2
5.2.1
5.2.2
5.2.3
5.2.4
5.2.5
5.2.6
5.2.7
FEATURES OF THE NODE C
Filters
Digital ICE (Digital Interference Cancellation Equipment)
VSWR (Voltage Standing Wave Ratio)
RSSI (Receive Signal Strength Indication)
Alarmforwarding
External Alarms
Summary Alarm
72
72
72
73
73
73
74
75
5.3
5.3.1
5.3.2
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
COMPONENTS OF THE NODE C AND INTERFACE UNIT
Duplexer
RF and DC Distribution Unit
Digital Channel Module (DCM)
Uplink Final Amplifier
Downlink Final Amplifier
Distribution & Alarm Board
Power Supply
76
76
78
79
80
80
82
83
5.4
OPTIONAL EQUIPMENT
5.4.1
Modem with Battery Backup
5.4.1.1
Initstrings
5.4.1.2
Wireless Modem
5.4.1.3
Battery Backup
5.4.2
PSU Redundancy
5.4.3
High Rejection Filter
83
83
84
84
85
86
86
87
MAINTENANCE
6.1
GENERAL
87
6.2
6.2.1
6.2.2
6.2.3
6.2.4
REPLACEMENT OF COMPONENTS
Power Supply
Battery Backup
Fan Unit
Modem
87
88
89
89
90
APPENDIX
91
7.1
7.1.1
7.1.2
ILLUSTRATIONS
Cabinet Drawings
Layout
91
91
93
7.2
7.2.1
7.2.2
7.2.3
SPECIFICATIONS
Electrical Specifications
Mechanical Specifications
Specifications for Optional Equipment
96
96
98
98
7.3
7.3.1
7.3.2
PARTSLISTS
Interface Unit
Node C
INDEX
Page 4
99
99
100
101
M0121A1A_uc.doc
FIGURES AND TABLES
figure 3-1 Positions of drilling holes........................................................................................14
figure 3-2 Wall mounting procedure .......................................................................................15
figure 3-3 Connection option ..................................................................................................16
figure 3-4 Cabinet combining kit.............................................................................................16
figure 3-5 Pole mounted systems...........................................................................................17
figure 3-6 Back-to-back pole mounting...................................................................................18
figure 3-7 Pole mounting two systems ...................................................................................19
figure 3-8 Grounding bolts......................................................................................................21
figure 3-9 Grounding a system ...............................................................................................21
figure 3-10 Power supply plug................................................................................................22
figure 3-11 Mains connector...................................................................................................22
figure 3-12 Front view of antenna connections ......................................................................23
figure 3-13 Connector panel of the Node C............................................................................24
figure 3-14 Connector panel of the Interface Unit ..................................................................24
figure 4-1 Front and top cover screws....................................................................................25
figure 4-2 Position of mains power switch ..............................................................................25
figure 4-3 USB and null modem cable connection .................................................................27
figure 4-4 Home page of web interface ..................................................................................60
figure 4-5 Setup Wizard..........................................................................................................61
figure 4-6 Connectivity and Upload menu ..............................................................................63
figure 4-7 Technician Setup menu .........................................................................................64
figure 4-8 Alarm Management menu......................................................................................65
figure 5-1 DC block diagram of a Node C ..............................................................................69
figure 5-2 Configuration of a Node C network element ..........................................................70
figure 5-3 RF path of a Node C, exemplary............................................................................71
figure 5-4 Configuration of external alarm clamps..................................................................74
figure 5-5 Summary alarm relay .............................................................................................75
figure 5-6 Layout of a Node C 1943 and Interface Unit..........................................................76
figure 5-7 Duplexer, DL IN......................................................................................................77
figure 5-8 Duplexer, UL IN, with integrated diversity filter ......................................................77
figure 5-9 RF / DC distribution unit .........................................................................................78
figure 5-10 DCM (UL or DL part) ............................................................................................79
figure 5-11 Uplink final amplifier .............................................................................................80
figure 5-12 Node C x37 DL final amplifier ..............................................................................80
figure 5-13 Node C x43 DL final amplifier, new type ..............................................................81
figure 5-14 Node C x43 DL final amplifier, former version .....................................................81
figure 5-15 Distribution & alarm board....................................................................................82
figure 5-16 Power supply........................................................................................................83
figure 5-17 Battery backup module, exemplary......................................................................85
figure 6-1 Power supply screws .............................................................................................88
figure 6-2 Location of battery backup .....................................................................................89
figure 6-3 Fan unit screws ......................................................................................................89
figure 6-4 Fan connector cable...............................................................................................90
figure 6-5 Mounting plate of modem.......................................................................................90
figure 7-1 Cabinet of a Node C...............................................................................................91
figure 7-2 Cabinet of a Node C Interface Unit ........................................................................92
figure 7-3 Layout of the Node C 1937, exemplary..................................................................93
figure 7-4 Layout of the Node C 1943, exemplary..................................................................94
figure 7-5 Layout of the Interface Unit, exemplary .................................................................95
ID No: 161692
PRELIMINARY
Page 5
User’s Manual for Node C Network Elements
table 1-1 List of international contact addresses ....................................................................10
table 3-1 Mounting distance ...................................................................................................14
table 3-2 Required length of thread-bolts and cable bridge ...................................................17
table 3-3 Components of pole mounting kits ..........................................................................18
table 4-1 Assisted antenna tuning ..........................................................................................62
table 5-1 Connections of RF / DC distribution unit .................................................................78
table 5-2 Standard initstring for modem .................................................................................84
table 6-1 Specified torques for various screw types...............................................................88
Page 6
M0121A1A_uc.doc
1 General
1 GENERAL
1.1 ABBREVIATIONS
A/D
ALC
ARFCN
BITE
BTS
CDMA
CF
CFO
D/A
D-ICE
DCM
DL
DSP
EMIF
ESB
ESD
ETSI
FPGA
FRU
I2C Bus
ICE
ID No
IF
LE
LMT
LVPECL
MSPS
NCO
OMC
PCMCIA
PLL
PSTN
RF
RLP
RSCP
RSSI
RTC
RX
SCL
SDA
SMS
TS
UL
UMTS
UPS
VSWR
WCDMA
Analogue to Digital Converter
Automatic Level Control
Absolute Radio Frequency Channel Number
Built In Test Equipment
Base Transceiver Station
Code Division Multiple Access
Center Frequency
Center Frequency Offset
Digital to Analogue Converter
Digital Interference Cancellation
Digital Channel Module
Downlink
Digital Signal Processor
External Memory Interface
Embedded System Block
Electrostatic Discharge
European Telecommunication Standards Institute
Field Programmable Gate Array
Field Replaceable Unit
Inter Integrated Circuit Bus (Philips)
Interference Cancellation Equipment
Identification Number
Intermediate Frequency
Logic Elements
Local Maintenance Terminal
Low Voltage Positive Emitter Coupled Logic
Mega Samples Per Second
Numerically Controlled Oscillator
Operation and Maintenance Centre
Personal Computer Modem Communication International Association
Phase Lock Loop
Public Switched Telephone Network
Radio Frequency
Radio Link Protocol
Received Signal Code Power
Receive Signal Strength Indication
Real Time Clock
Receiver
Serial Clock
Serial Data
Short Message Service
Transmitter
Uplink
Universal Mobile Telecommunication System
Uninterruptible Power Supply
Voltage Standing Wave Ratio
Wide-band Code Division Multiple Access
ID No: 161692
PRELIMINARY
Page 7
User’s Manual for Node C Network Elements
1.2 HEALTH AND SAFETY WARNINGS
1. Only suitably qualified personnel is allowed to work on this unit and only after
becoming familiar with all safety notices, installation, operation and maintenance
procedures contained in this manual.
2. Read and obey all the warning labels attached to the unit. Make sure that the
warning labels are kept in a legible condition and replace any missing or
damaged labels.
3. Obey all general and regional installation and safety regulations relating to work
on high voltage installations, as well as regulations covering correct use of tools
and personal protective equipment.
4. Keep operating instructions within easy reach and make them available to all
users.
5. It is the responsibility of the network provider to implement prevention measures
to avoid health hazards which may be associated to radiation from the antenna(s)
connected to the unit.
6. Make sure, access is restricted to qualified personnel.
7. Use this equipment only for the purpose specified by the manufacturer. Do not
carry out any modifications or fit any spare parts which are not sold or
recommended by the manufacturer. This could cause fires, electric shock or other
injuries.
8. Due to power dissipation, the network element may reach a very high
temperature.
9. Before opening the unit, disconnect mains.
10. ESD precautions must be observed! Before commencing maintenance work, use
the available grounding system to connect ESD protection measures.
11. This unit complies with European standard EN60950.
12. Make sure the network element settings are according to the intended use (see
also product information of manufacturer) and regulatory requirements are met.
13. Although the network element is internally protected against overvoltage, it is
strongly recommended to earth the antenna cables close to the network
element’s antenna connectors for protection against atmospheric discharge.
Page 8
M0121A1A_uc.doc
1 General
1.3 PREAMBLE
Mikom An Andrew Company is a leading manufacturer of coverage equipment for
mobile radio networks, specializing in low cost, high performance, RF and optical
repeaters. Our optical distributed networks and RF repeater systems provide
coverage for every application: outdoor use, indoor installations, tunnels, subways
and many more.
Mikom has engineering and manufacturing facilities in Germany, Italy and the USA.
In addition, it maintains many field engineering offices throughout the world.
Mikom GmbH operates a quality management system which complies with the
requirements of ISO 9001. All equipment is manufactured using only highly reliable
materials. In order to ensure constant first-rate quality of the products, a
comprehensive quality assurance has been conducted at all fabrication stages. Every
component leaves the factory only after a thorough final acceptance test,
accompanied by a test certificate guaranteeing optimal function.
The declaration of conformity for the product is available on request via the local
offices or from Mikom directly.
Any intervention must be carried out by authorized persons only. If technical
assistance for the product is required, please contact the local office or Mikom
directly at one of the following addresses:
Mikom GmbH An Andrew Company
Industriering 10
86675 Buchdorf
Germany
Phone: +49 (0) 9099 69 0
Fax: +49 (0) 9099 69 930
email: WIsupport.germany@andrew.com
for The Americas:
Mikom US An Andrew Company
Phone: +1 (919) 771-2570
email: WIsupport.us@andrew.com
When set-up is performed according to this manual, the system will operate without
complications for a significant length of time.
ID No: 161692
PRELIMINARY
Page 9
User’s Manual for Node C Network Elements
1.4
INTERNATIONAL CONTACT ADDRESSES
in Australia
in France
in the USA
6 Stuart Street
Padstow NSW 2211
Z.I. des Ebisoires
78370 Plaisir
Australia
France
108 Rand Park Drive
Garner
NC 27529
USA
Phone: +61 (2) 9774-4200
Fax: +61 (2) 9774-4500
email:
Phone: +33 (1)30-79-15-36
Fax: +33 (1) 30-55-55-37
email:
Phone: +1 (919) 771-2570
Fax: + 1 (919) 771email:
WIsupport.australia@andrew.com
WIsupport.france@andrew.com
WIsupport.us@andrew.com
in the UK
in China
in Canada
Guildgate House
Pelican Lane
Newbury
RG14 1NX, Berkshire, U.K.
Ground Floor, Unit F, Tower 2 1815 Ironstone Manor, # 12
The Astoria 198 Argle Street, Pickering, Ontario L1W 3W9
Mau Tau Wai, Kowloon
Hongkong
Canada
Phone: +44 (1635) 569-695
Fax: +44 (1635) 569-463
email:
Phone: +852 2778 3187
Fax: +852 2778 3187
email:
Phone: +1 (905) 839-3474
Fax: +1 (905) 839-4663
email:
WIsupport.uk@andrew.com
WIsupport.china@andrew.com
WIsupport.canada@andrew.com
in Switzerland
in Italy
in Austria
Tiergartenweg 1
4710 Balsthal
Switzerland
Via De Crescenzi 40
48018 Faenza
Italy
Weglgasse 10
2320 Schwechat
Austria
Phone: +41 (6238) 61260
Fax: +41 (6238) 61261
email:
Phone: +39 0546 697111
Fax:
+39 0546 682768
email:
Phone: +43 (1) 706 – 3999
Fax: +43 (1) 706 – 39999
email:
WIsupport.switzerland@andrew.com
WIsupport.italia@andrew.com
WIsupport.austria@andrew.com
in Czech Republic
U Morusi 888
530 06 Pardubice-Svitkov
Czech. Republic
Phone: +42 (0406) 301280
Fax: +42 (0406) 301298
email:
WIsupport.czechrep@andrew.com
table 1-1 List of international contact addresses
Page 10
M0121A1A_uc.doc
2 Introduction
2 INTRODUCTION
2.1 PURPOSE
Wireless communication systems provide a two-way information transfer (voice and
data) between a base station and multiple mobiles within a given area.
Environmental variables such as physical structures both man-made (buildings) and
natural (mountains) attenuate signals in the transmission path, which reduce the
transport signal’s strength. This attenuation leads to a reduction in quality and data
rate and eventually prohibits the system’s use entirely. A Node C is specifically
designed to extend coverage, enhance quality, and increase air-interface capacity.
In the downlink (DL), the Node C picks up signals coming from the base station,
filters them, amplifies them, and retransmits them to the mobile. In the uplink (UL), it
picks up signals from the mobile, filters them, amplifies them, and retransmits them to
the base station. The Node C constantly monitors the quality of the signals passing
through it, while simultaneously electronically decreasing isolation requirements.
2.2 THE NODE C NETWORK ELEMENT
The Node C is a primary network element, capable of enhancing up to three adjacent
CDMA carriers in a CDMA system. Its primary function is to increase the signal
strength between multiple mobiles and a base station in areas where basic voice or
high-speed data transmission is not available. It may be used for basic coverage,
signal reinforcement, and cell shaping, which can increase a network’s coverage
area, data rate, and capacity.
The Node C is a dedicated CDMA device. However, several enhancers operating at
different frequencies and technologies may share the same hardware (cables and
antennas) via a crossband coupler. Within the CDMA frequency band, multiple
operators may use the same unit via additional modules, thus reducing cost, while
sharing the user interface and antennas.
The Node C may be set-up locally or remotely. A circuit switch or packet data modem
may be connected to an integrated controller. This provides the network
management system with on-demand, alarm generated, or heartbeat monitoring via
the always-connected packet features. The Node C has features and functions that
may be monitored and changed by the operators via a web-based browser remotely
or locally, or via the SNMP based OMC software platform. The graphical interface of
the Node C provides a setup menu including a setup wizard which allows both setup
and monitoring capability without any equipment required apart from a laptop or PC.
The Node C network element is self-diagnosing, self-adaptive, and virtually
maintenance-free.
ID No: 161692
PRELIMINARY
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User’s Manual for Node C Network Elements
2.3 QUICK START CHECKLIST
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.
Setting up the Node C is quick and easy. The following step-by-step procedure
provides a quick overview for a correct setup and optimization.
a. Required Equipment
• Node C
• donor antenna
• coverage antenna(s) or DAS
• coaxial feeder cable
• connectors
• laptop with connection and mains cable
b. Required Information
Make sure to have the following information at hand:
• important on-site conditions (e.g. base station location, mains supply, etc.)
• channels to be enhanced/amplified
• pilot
• pilot power to total power
c. Procedure
1. Install the donor and coverage antennas.
2. Install the feeder cable from the Node C to the antennas.
3. Install the Node C (see chapter 3 Installation).
4. Install the Interface Unit (see chapter 3 Installation).
5. Connect cables between the Interface Unit and the Node C (see chapter
3.2 Electrical Installation).
6. Connect power and the antenna feeder cables to the Node C.
7. Open the Interface Unit as described in chapter 4.1 General.
8. Setup the connection computer (see chapter 4.2 Software Setup) and
establish a connection to the Node C (see chapter 4.2.3 Connection
Procedures).
9. Login to the unit and follow the installation wizard option for easy
installation.
a. Optimize the donor antenna performance (see chapter 4.2.4.1
Setup Wizard).
b. Select the channels for enhancement.
c. Enter the desired output power in the downlink.
d. Enter the pilot power to total power ratio of the donor base
station.
e. Enter the relative uplink gain.
f. Setup the modem (if applicable) and enter data in the other user
fields.
10. The Node C setup is complete.
11. Open the “Save Configuration to Laptop” menu for record keeping
purposes.
12. Unplug the computer, close the Interface Unit and tighten all screws.
Page 12
M0121A1A_uc.doc
3 Installation
3 INSTALLATION
3.1 MECHANICAL INSTALLATION
3.1.1
General
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.
1. Do not install the unit in a way or at a place where the specifications
outlined in the Environmental and Safety Specifications leaflet of the
manufacturer are not met.
2. It is recommended only to use the mounting hardware delivered by the
manufacturer. If different mounting hardware is used, the specifications
for stationary use of the unit must not be exceeded.
) Note:
3.
Exceeding the specified load limits may cause the loss of warranty.
The unit is considerably heavy. Make sure that a suitable mounting
surface is used. Ensure there is adequate manpower to handle the
weight of the system.
4. Due to power dissipation, the unit may reach a very high temperature.
Ensure sufficient airflow for ventilation. Above and below the units a
minimum distance of 300* mm to ceiling, floor, etc. has to be kept. This
distance must also be observed between two units if they are mounted
one above the other.
This value does not apply to the distance between Interface Unit and Node C. The
distance required between the two cabinets is specified in table 3-1 Mounting distance.
If any different or additional mounting material is used, ensure that the mounting
remains as safe as the mounting designed by the manufacturer. Ensure that the
static and dynamic strengths are adequate for the environmental conditions of the
site. The mounting itself must not vibrate, swing or move in any way that might cause
damage to the unit.
) Note:
Both the Node C and the Interface Unit are delivered with a premounted front cover. This cover is of vital importance for the
correct forced airflow (of Node C 43) and for passive cooling (of
Node C 37 and Interface Unit). Thus, do not operate the units
without cover.
ID No: 161692
PRELIMINARY
Page 13
User’s Manual for Node C Network Elements
3.1.2
Wall Mounting Procedure
•
Check the wall mounting kit and the wall to determine their suitability.
•
The maximum distance between the Node C and the Interface Unit depends on
the length of the cable bridge (standard length is 500 mm) by which they will be
connected (see table 3-1 Mounting distance). Thus, before marking the mounting
positions, check the length of the cable bridge and make sure to install the units
at a suitable distance.
Mounting style:
Length of cable bridge:
Maximum distance
beside each other*
500 mm 800 mm 2000 mm
140 mm 400 mm 1600 mm
one above the other**
only 2000 mm possible
1000 mm (min.=300 mm)
* Maximum distance is referring to distance between the cabinet sides
** It is recommended to install the Node C above the Interface Unit; max. distance is the distance
between top of lower and bottom of upper unit
table 3-1 Mounting distance
) Note:
•
The following figures show units that are mounted beside each
other. To install one above the other proceed in the same way, also
observing the specified mounting distance from table 3-1.
Mark the position of the eight drilling holes (four per unit) for the Node C and
Interface Unit according to figure 3-1. Please observe that the figure always
shows a pair of drill holes for each position. Only drill one of each pair.
figure 3-1 Positions of drilling holes
Page 14
M0121A1A_uc.doc
3 Installation
) Note:
•
Ensure that there is free access to the electrical connections as well
as to the cabinet. The approved bending radius of the connected
cables must not be exceeded.
Drill eight holes (four per unit) at the marked positions and insert dowels*.
The dowels are not part of the delivery (and thus not illustrated in the figure) since the suitable type
depends on the on-site conditions (the material of wall). Therefore, use dowels that are appropriate
for the mounting surface.
•
Use a cap nut or locknut to screw the eight M8 dowel screws into the dowels.
•
Use a hex wrench, opening 17 (old standard) or 16 (new standard), to loosen the
M10 hexagon head screws (four per unit) by which the mounting brackets are
fastened to the cabinet sides.
•
Mount the mounting brackets to the screws, and fasten them using the M8
washers, locking rings, and hex nuts that are part of the wall mounting kit.
•
Hang the cabinets into the brackets and fasten them with the M10 hexagon head
screws*.
M10 hexagon head screws
Plain washer M8
Locking ring M8
Dowel
screw
M8
Hex
nut
M8
G0987Z0
figure 3-2 Wall mounting procedure
* If other screws than the ones delivered by the supplier are used for fastening, these must have a
diameter of at least 8 mm and an appropriate length (depending on the dowels). Additionally, make
sure they are adequate for supporting a maximum weight of 50 kg per unit.
For mounting both cabinets as one unit, a cabinet combining kit is available. The
according mounting procedure is explained in the following chapter.
ID No: 161692
PRELIMINARY
Page 15
User’s Manual for Node C Network Elements
3.1.3
Connection Option
•
In order to mount the system using the cabinet combining kit, dismount the
mounting brackets from the cabinets of the units by loosening the hexagon head
screws M10x20 by which the brackets are screwed to the housing (four per unit).
Do not unscrew those screws, only loosen them by approx. three turns and take
off the brackets.
•
The two inner brackets are no longer required; exchange the outer brackets and
fasten them to the cabinets (as indicated below).
Bracket 1
1st st ep:
Remove and discard
2nd st ep:
Exchange Bracket 1
and Bracket 2; t hen
mount as shown:
Bracket 1
Bracket 2
Bracket 2
3rd st ep:
Join unit s and mount
joint syst em t o wall
G0987MG
figure 3-3 Connection option
Washer DIN125
•
Join the two cabinets using
the parts of the cabinet
combining kit as indicated.
•
Use the special mounting
plan supplied as part of the
cabinet combining kit for
drilling the according holes
and mount the system to the
wall.
Hexagon head
screws M10x4
M10 nut s
Connect ing plat e
Bracket s
G0987MG
figure 3-4 Cabinet combining kit
Page 16
M0121A1A_uc.doc
3 Installation
3.1.4
Pole Mounting Procedures
The following figure illustrates the two pole mounting options:
back-to-back (left) and two systems (right).
figure 3-5 Pole mounted systems
•
Before starting the mounting procedure, check the pole diameter of the pole to
which the units will be installed; then, cut the thread-bolts (see table 3-3
Components of pole mounting kits, pos. 5) to the required length according to the
following table, which also states the appropriate cable bridge lengths:
Pole-diameter
100 110 120 130 140 150 160 170 180 190 200
(mm)
Length of Thread216 226 236 246 256 266 276 286 296 306 317
Bolt (mm)
Length of cable
bridge (mm)
800
2000
(back-to-back)
Length of cable
bridge (mm)
800
2000
(for 2 systems)
table 3-2 Required length of thread-bolts and cable bridge
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Both types of pole mounting kit consist of the following parts (in different quantities):
No
Part
Pole mounting brace
Washer DIN 9021 – 8.4
Nut M8 DIN 934
Spring ring DIN 127 – A8
No
Part
Thread-bolt M8
Washer M8 DIN 125
Hexagon head screw M8
Fastener
table 3-3 Components of pole mounting kits
The numbers in the above table refer to the numbering of the components in the
following figures. Positions 7 and 8 are only required for mounting two systems.
figure 3-6 Back-to-back pole mounting
•
Dismount the mounting brackets from the cabinets of the units by loosening the
hexagon head screws M10x20 by which the brackets are screwed to the housing
(four per unit). Do not unscrew those screws, only loosen them by approx. three
turns and take off the brackets.
•
Fasten the mounting brackets to the pole using the corresponding mounting kit as
illustrated in figure 3-7 Pole mounting two systems or figure 3-6 Back-to-back pole
mounting, respectively.
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•
In case of two systems (figure 3-7) first mount the mounting brackets of the Node
C units; then adjust and mount the fasteners (no. 8) accordingly before fastening
the mounting brackets of the Interface Units to the fasteners.
•
Hang the units into the respective mounting brackets and fasten the hexagon
head screws M10x20.
figure 3-7 Pole mounting two systems
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3.2 ELECTRICAL INSTALLATION
3.2.1
General
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.
1. This unit contains dangerous voltages. Loss of life, severe personal
injury or property damage can be the result if the instructions contained
in this manual are not followed.
2. It is compulsory to ground the unit before connecting power supply. A
grounding bolt is provided on the cabinet to connect the ground bonding
cable.
3. Although the unit is internally protected against overvoltage, it is
strongly recommended to earth the antenna cables close to the unit’s
antenna connectors for protection against atmospheric discharge. In
areas with strong lightning it is strongly recommended to insert
additional lightning protection.
4. Hard wired installation of mains supply for the unit requires an easily
accessible separation device in the mains circuit.
5. Make sure that an appropriate circuit breaker and an overcurrent limiting
device are connected between mains and the unit.
6. A connection of mains supply to a power socket requires the power
socket to be nearby the unit.
7. The unit might be supplied from IT mains. (The maximum nominal line to
line voltage must not exceed 400VAC).
8. Incorrectly wired connections can destroy electrical and electronic
components.
9. To avoid corrosion at the connectors caused by electrochemical
processes, the material of the cable connectors must not cause a higher
potential difference than 0.6V (see electrochemical contact series).
10. It is sufficient to tighten the 7/16 or N antenna connector hand-screwed.
Any use of a tool (e.g. pair of pliers) might cause damage to the
connector and thus lead to malfunctioning of the unit.
11. For unstabilized electric networks which frequently generate spikes, it is
advised to use a voltage limiting device.
12. The unit complies with the surge requirement according to EN 61000-4-5
(fine protection), however, it is recommended to install an additional
medium (via local supply connection) and/or coarse protection (external
surge protection) depending on the individual application in order to
avoid damage caused by overcurrent.
13. Observe the labels on the front panels before connecting any cables.
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3.2.2
Grounding
Grounding the Node C and Interface Unit is mandatory. Connect an earth bonding
cable to the grounding connections provided at the cabinets of both the Node C and
Interface Unit according to the following illustrations.
Do not use the grounding connections to connect external devices.
Cable bridge connectors
Node C cabinet
Cabinet of
Interface Unit
figure 3-8 Grounding bolts
figure 3-9 Grounding a system
The PE cables must have a minimum cross section of 10mm2.
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3.2.3
Power Connection
Before connecting electrical power to the units, the system must be grounded as
described in the previous chapter.
Mains power must be connected at the mains connector of the Interface Unit. The
power supply plug is included with the Node C.
The correct wiring
of the power supply
plug is as follows:
Mains
figure 3-10 Power supply plug
figure 3-11 Mains connector
A minimum cross section of 1.5 mm2 is required for the power supply
connection. Each wire must observe the applicable national regulations
regarding loop impedance, voltage drop, and methods of installation.
Make sure to connect the correct voltage to the unit.
) Note:
Do not connect or disconnect the power cord at the mains connector
while power is on. Turn off mains* power before connecting the
power cord at the Interface Unit, then, engage mains again.
* Mains power must be interrupted with an external AC breaker. For the AC breaker,
observe the following recommendation:
120 Volt / 20 Amp max. or 240 Volt / 16 Amp, single-phase, 50/60 Hz AC service is
needed, i.e. the external AC breaker should be 20 Amps max. for 120-Volt service or
16 Amps for 240-Volt service.
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3.2.4
Connection of the Antenna Cables
The Node C’s antenna connectors are 7/16 female equipped with an N female
adapter. All connectors are located at the bottom of the cabinet. An operator should
refer to the documentation of the cable connector manufacturer for best mating
procedures. Furthermore, the bending radius of the antenna cables should be
maintained at all times.
There are several issues to be considered when selecting the cable and antenna
types.
• Smaller diameter cables are less expensive and easier to install but have
worse performance.
• Highly directional antennas with good front-back-ratios (40 dB is typical) are
recommended because they improve isolation and cell site selectivity.
Tighten the 7/16 or N connectors ONLY by hand. The use of pliers may cause
damage to the connector and impair the performance of the Node C.
Diversity
Primary
Coverage antenna (to mobile)
Donor antenna (to base station)
figure 3-12 Front view of antenna connections
3.2.5
Connection of Cable Bridge
The Interface Unit and the Node C are connected via a cable bridge. The bridge
ports 12V, 28V, ground, USB, and RS232 between the two units as well as the
general alarming and signalling. It is also the interconnection and intercommunication
bus between the units.
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The cable bridge connectors are located at the bottom of the Node C and Interface
Unit.
Cable bridge connector
Antenna connnectors
figure 3-13 Connector panel of the Node C
Antenna
connector
for modem
(operating
in different
network)
Cable glands for external alarms, summary alarm & PSTN
Cable bridge connector
Mains power
connectors
figure 3-14 Connector panel of the Interface Unit
3.2.6
Connections for Optional Equipment
The Interface Unit connector panel has ports for external equipment, such as a
modem operating in a different network and external alarms. These connectors may
be used entirely at the operator’s discretion.
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4 COMMISSIONING
4.1 GENERAL
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings and
observe the following step-by-step procedure.
•
Do not operate the Node C without terminating the antenna connectors. The
antenna connectors may be terminated by connecting them to their respective
antennas or to a dummy load.
•
Only qualified personnel should carry out the electrical, mechanical,
commissioning, and maintenance activities that require the unit to be powered
on when open.
•
When opening the Node C or interface box do not damage the warranty labels
on the internal devices. The warranty is void if the seals are broken.
To open the cabinet of the Interface Unit, first remove
the front cover plate by loosening the four M5 socket
head cap screws (circle-marked in figure to the left).
Do not remove those screws. When they are
loosened, the front cover plate can be taken off.
To open the housing, unscrew the three M5 socket
head cap screws (captive) of the top cover of the
Interface Unit.
Three top
cover screws
) Note:
Do not forget to reinstall the front
cover afterwards to ensure safe
operation.
Note: Before closing the Interface
Unit, make sure that the mains power
switch inside is set to On:
Mains power switch
figure 4-1 Front and top cover screws
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figure 4-2 Position of mains power switch
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4.2 SOFTWARE SETUP
4.2.1
Remote Control
For remote control and/or supervision of the Node C the following services are
provided:
• An OMC-type software platform (see separate manual)
• SMS alarm-forwarding (for details see chapter 5.2.5 Alarmforwarding)
• Web page (see chapter 4.2.4 and online-help)
4.2.2
Connection Devices
To connect to the Node C, the following devices are available:
•
Locally, via the RS232 interface of the distribution & alarm board of the Interface
Unit (see figure 5-15) using either the connected USB cable or the null modem
cable which is part of the delivery for the connection of a PC or laptop.
•
Remotely, if the optional modem is installed in the Interface Unit. All local
commands may be issued via the web interface over the remote modem.
4.2.3
Connection Procedures
4.2.3.1
Setup Overview
Four steps are required to set up a connection to the Node C.
1. Install the USB to serial adapter in the computer. The USB adapter is part of
the delivery and is already connected to the RS232 connector of the
distribution & alarm board (see figure 4-3). For the first connection, install the
correct driver from the CD (see chapter 4.2.3.2 Installing the USB driver). For
the connection via null modem cable, disconnect the USB connector from the
RS232 connector (see figure 4-3) and connect the null modem cable.
2. Configure the connection device, i.e. RS232/USB/modem. (See section a) of
chapter 4.2.3.3, 4.2.3.4, or 4.2.3.5 depending on the operating system.)
3. Setup a connection:
a) Direct connection via PC or laptop: similar to connecting a computer to a
standard Internet service provider (ISP); see section b) of chapter 4.2.3.3
or 4.2.3.5 depending on the operating system.
b) Modem connection; see section b) of chapter 4.2.3.4.
4. Establish the connection; see section c) of chapter 4.2.3.3, 4.2.3.4, or 4.2.3.5
depending on the operating system.
The following instructions are for Windows XP and Windows 2000. This procedure
must be done only once with the first setup.
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4.2.3.2
Installing the USB driver
The USB adapter and the driver CD are located inside the Interface Unit:
Driver CD
USB adapter
with USB
cable
Position of
optional
modem
RS232 connector for USB or
null modem cable connection
figure 4-3 USB and null modem cable connection
When the USB adapter is connected to a PC for the first time, the USB driver must
be installed. The Node C and Interface Unit must be switched on for the procedure.
To install the driver, proceed as follows:
•
Connect the USB cable of the USB adapter to the USB port of the PC.
•
Then, wait until the system (valid from Windows98ME) delivers the message that
a new USB device was found and asks for the driver.
•
Put the CD into the CD-ROM drive of the PC and the system will ask how to
search for the driver.
•
Select the automatic search (usually default), confirm, and wait while the system
searches for the driver.
•
The successful installation will be informed by a message that the new hardware
was successfully installed.
•
After confirming this message the CD can be taken out of the drive and put back
into the plastic cover inside the Interface Unit.
•
Reboot the PC.
When the connection is made the next time, this procedure is no longer necessary.
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4.2.3.3
Direct connection for Windows XP
a) Setting up the device for the direct connection
1. To start the Phone and Modem Options, choose Start→Control Panel→Phone
and Modem Options.
2. Select the Modems tab and click the Add... button.
3. Choose to select from a list.
Click Next.
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4. For a direct connection choose the Communication cable between two
computers as device.
Click Next.
5. Select your port (usually COM1 for a direct connection), continue with Next, and
in the next window click Finish.
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b) Setting up a direct connection
1. Choose Start→Control Panel→Network Connections→New Connection
Wizard.
2. The first page is the Welcome window:
Continue with Next.
3. In the Network Connection Type window, select Set up an advanced
connection.
Click Next.
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4. In the Advanced Connection Options, choose Connect directly to another
computer.
Click Next.
5. In the next window choose Guest.
Click Next.
6. Next, enter a name for the new connection.
Click Next.
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7. The next window is Select a Device.
This window will provide a drop-down list of known communication ports (devices)
to choose from. Choose a serial port. If the RS232 is used, this port is most likely
(COM1). If a USB port is used some other COM port number should be used. In
such a case, take care that the USB driver is installed and connected before
completing this selection or the connection will not work.
Click Next.
8. The next window is Connection Availability. Choose My use only.
Click Next.
9. In the window Completing the New Connection Wizard, choose whether to add
a shortcut to the desktop.
Click Finish
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10. In the Connection window, enter User name and Password. Select to Save user
name and password ... for Me only..
Enter:
User name: 
Password: 
Click Properties.
11. Under the General tab ensure the correct device is selected. Click Configure,
and in the Modem Configuration window, choose 57600 for Maximum speed. No
other box should be checked. Click OK.
12. Select the Options tab and make sure that all dialling options except the last one
(Include Windows logon domain) are checked.
Set the redialling options as required and click OK.
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13. Select the Security tab, select Advanced (custom settings), and click Settings.
14. Only allow
Challenge Handshake Authentication Protocol (CHAP)
Microsoft CHAP (MS-CHAP) and
Microsoft CHAP Version 2 (MS-CHAP v2) protocols.
Click OK.
15. Click Typical and choose Require secured password.
Click OK.
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16. Select the Networking tab and click the Settings button. There are 3 PPP
settings. Make sure they are all OFF and click OK.
17. In the Networking window, highlight the Internet Protocol (TCP/IP) component
and click the Properties tab.
18. Obtain an IP address automatically and Obtain DNS server address
automatically must be checked.
Click Advanced.
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19. In the General tab, uncheck all boxes.
In the DNS tab, make sure Append primary and Append parent and Register
this connection are checked.
In the WINS tab, make sure Enable LMHOSTS lookup is checked. Click OK.
20. For Internet Connection Firewall and Internet Connection Sharing settings,
select the Advanced tab. Click OK to get back to the Connect window.
21. The connection procedure is described in the following. If the connection is to be
made directly from the Connect window, step one of the following description can
be skipped.
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c) Establishing the connection
1. Choose Start→Control Panel→Network Connections→
(i.e. in this example “DCM_Local”).
The properties of this connection should already have been setup.
2. Enter  in the User name field.
Enter  in the Password field.
Select to Save this user name and password ... for Me only.
Click Connect .
While the connection is established the following window is displayed
When the connection is successful an icon will appear in the system tray. This
icon will “light up” to indicate network activity between the computer and the
Node C. To check the status of the connection, click on the icon.
Please continue with chapter 4.2.3.6 Accessing the web page .
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4.2.3.4
Modem connection for Windows XP
a) Setting up the device for the modem connection
1. To start the Phone and Modem Options, choose Start→Control Panel→Phone
and Modem Options.
2. Select the Modems tab and click the Add... button.
3. Choose to select from a list.
Click Next.
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4. For a modem connection, choose the Standard 19200 bps Modem as device.
Click Next.
5. Select your port (usually COM2 for a modem connection), continue with Next, and
in the next window click Finish.
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b) Setting up a modem connection
1. To start, choose Start→Control
Connection Wizard.
Panel→Network
Connections→New
2. The first window is the Welcome window:
Continue with Next.
3. In the Network Connection Type window, select Connect to the network at my
workplace.
Click Next.
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4. In the Network Connection window, choose Dial-up connection.
Click Next.
5. Select the Standard 19200 bps Modem as device.
Click Next.
6. Next, enter a name for the new connection.
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7. In the next window enter the phone number of the modem that is installed in the
Node C.
Click Next.
8. The next window is Connection Availability. Choose My use only.
Click Next.
9. In the window Completing the New Connection Wizard, choose whether to add
a shortcut to the desktop.
Click Finish
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10. In the Connection window, enter username and password. Select to Save user
name and password ... for Me only.
Enter:
User name: 
Password: 
Click Properties.
11. Under the General tab ensure the correct device is selected. Click Configure,
and in the Modem Configuration window, choose 19200 for Maximum speed. No
other box should be checked. Click OK.
12. Select the Options tab and make sure that all dialling options except Include
Windows logon domain are checked.
Set the redialling options as required and click OK.
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13. Select the Security tab, select Advanced (custom settings), and click Settings.
14. Only allow
Challenge Handshake Authentication Protocol (CHAP)
Challenge Handshake Authentication Protocol (CHAP)
Microsoft CHAP (MS-CHAP) and
Microsoft CHAP Version 2 (MS-CHAP v2) protocols.
Click OK.
15. Click Typical and choose Require secured password.
Click OK.
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16. Select the Networking tab and click the Settings button. There are 3 PPP
settings. Make sure they are all OFF and click OK.
17. In the Networking window, highlight the Internet Protocol (TCP/IP) component
and click the Properties tab.
18. Obtain an IP address automatically and Obtain DNS server address
automatically must be checked.
Click Advanced.
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19. In the General tab, uncheck all boxes.
In the DNS tab, make sure Append primary and Append parent and Register
this connection are checked.
In the WINS tab, make sure Enable LMHOSTS lookup is checked. Click OK.
20. For Internet Connection Firewall and Internet Connection Sharing settings,
select the Advanced tab. Click OK to get back to the Connect window.
21. The connection procedure is described in the following. If the connection is to be
made directly from the Connect window, step one of the following description can
be skipped.
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c) Establishing the connection
1. Choose Start→Control Panel→Network Connections→
(i.e. in this example “DCM_via_Modem”).
The properties of this connection should already have been setup.
2. Enter the term “username” in the User name field and the term “password” in the
Password field as shown below.
Select to Save this user name and password ... for Me only.
Click Connect.
While the connection is established the following window is displayed:
When the connection is successful an icon will appear in the system tray. This icon
will “light up” to indicate network activity between the computer and the Node C. To
check the status of the connection, click on the icon.
Please continue with chapter 4.2.3.6 Accessing the web page.
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4.2.3.5
Direct connection for Windows 2000
a) Setting up the device for the direct connection
1. To start the Phone and Modem Options, click
Start→Settings→Control Panel→Phone and Modem Options.
2. Click the Modems tab and choose Add... .
3. Choose to select from a list, click Next.
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4. Select your port, continue with Next, and in the next window click Finish.
5. Highlight the port associated with the direct connection of the RS232 or USB port.
Click Properties.
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6. In the General tab, change the port speed to 57600.
Click the Advanced tab.
Click the Change Default Preferences tab.
7. Set the Port speed to 57600 and the Flow control to None.
Click the Advanced tab.
Set Data bits to 8.
Set Parity to None.
Set Stop bits to 1.
8. Click OK several times to exit all the windows. The modem configuration is now
complete.
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b) Setting up a direct connection
1. Start the Network Connection Wizard.
Click Start→Settings→Network and Dial-up Connections
→Make New Connection.
2. The first window is the Welcome window as shown below. Click Next.
3. The next window is Network Connection Type.
Select Connect directly to another computer. Click Next.
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4. The next window is Host or Guest.
Choose Guest. Click Next.
5. The next window is Select a Device.
This window will provide a drop-down list of known communication ports (devices)
to choose from. Choose a serial port. If the RS232 is used, this port is most likely
(COM1). If a USB port is used some other COM port number should be used.
Take care that the USB driver is installed and connected before completing this
selection or the connection will not work.
Click Next.
6. The next window is Connection Availability.
Choose Only for myself. Click Next.
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7. The next window is the Complete the Network Connection Wizard.
Enter Node C as the name for the connection.
Click Finish.
8. The next window is the Connection window
Enter  in the User Name field.
Enter  in the Password field.
Check Save Password.
Click Properties.
9. Under the General tab ensure the correct device is selected.
Click Configure.
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10. Choose 57600 for Maximum speed. All other boxes should not be checked.
Click OK.
11. Click the Security tab.
Click Advanced (custom settings).
Click Settings.
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12. Make sure
Challenge Handshake Authentication Protocol (CHAP)
Microsoft CHAP (MS-CHAP)
Microsoft CHAP Version 2 (MS-CHAP v2)
are checked and all the rest of the boxes are NOT checked.
Click OK.
13. Click Typical and choose Require secured password.
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14. Click the Networking tab.
Click the Settings button. There are 3 PPP settings. Make sure they are all OFF.
Click OK on the PPP Setting window.
15. Highlight the Internet Protocol (TCP/IP) component.
Click the Properties tab.
Click Obtain an IP address automatically.
Click Obtain DNS server address automatically
Click Advanced.
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16. In the General tab, uncheck all boxes.
In the DNS tab, make sure Append primary and Append parent and Register
this connection are checked.
17. Click the WINS tab. Make sure Enable LMHOSTS lookup is checked.
Click the Options tab. Click Properties.
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18. Click Do not use IPSEC.
Click OK.
Returning to the Options tab click OK and return back to the main window.
19. Click the Sharing tab.
Make sure that Shared access is OFF.
Click OK.
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c) Establishing the connection
1. Click Start→Settings→Network and Dial-up Connections→Node C.
The properties of this connection should already have been setup.
Enter  in the User Name field.
Enter  in the Password field.
Check Save Password.
Click Connect and the following connection windows will appear.
2. When the connection is successful an icon will appear in the system tray. This
icon will “light up” to indicate network activity between the computer and the Node
C. To check the status of the connection, click on the icon.
3. Please continue with chapter 4.2.3.6 Accessing the web page.
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4.2.3.6
Accessing the web page
1. Open Internet Explorer and enter the address: 1.2.1.1.
Enter  in the User Name field.
Enter  in the Password field.
Note that these fields are case-sensitive.
2. After the login, the home page will appear. From this page the entire Node C may
be controlled. The most important menus will be explained in the following
chapter. For any further details click the Help button (also available in all of
the menus), to open the online help screens.
Help button
figure 4-4 Home page of web interface
The next chapter contains an explanation of the most important menus.
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4.2.4
Main Menus of the Web Page
For detailed information about a menu click the “Help” button to open the online help.
4.2.4.1
Setup Wizard
This menu serves to align the donor antenna and provides overviews of all channels
on air as wells as channel assignment.
figure 4-5 Setup Wizard
Antenna Alignment Assistant:
The intent of these web pages is to help the user correctly orient the antenna by
displaying the total received power in the selected 5MHz band and the power of the
strongest pilots within the 5MHz channel.
a) To start the Antenna Alignment Assistant (AAA):
1.
2.
3.
4.
5.
Select ‘Setup Wizard‘ from the main page.
Select ‘Antenna Alignment Assistant‘.
Select the desired 5 MHz channel by using the dropdown box.
Select ‘Start Alignment’.
Observe the Rx DL Power and Pilot RSCP measurements and orient the antenna
to maximize performance.
6. Click ‘Home’ when completed.
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b) Typical Tuning Procedure (See example table below):
1. Point the donor antenna in the general direction of the donor base station.
2. Start the AAA.
3. Verify that the reported DL Rx Power is above –90dBm. If not, orient the antenna
until the signal is above –90dBm.
4. Wait for Pilot RSCP results to be reported (indicating that a valid pilot has been
found).
5. Verify that the ARFCN and frequency reported at the top of the table matches the
ARFCN and frequency of the donor base station.
6. Orient the antenna to maximize the Pilot RSCP from the donor base station.
Usually, the best method is to course-tune the antenna based on DL Rx Power
measurements and then fine-tune based on Pilot RSCP measurements.
However, if multiple pilots are present, then using the DL Rx Power
measurements alone may not work well, and the user will have to rely on Pilot
RSCP only.
7. If multiple rays are present, then it is usually best to orient the antenna to
maximize the level of the first ray (the line-of-sight – or LOS – signal). However, if
the first ray is not the strongest signal, then there is an obstruction in the LOS
signal, and the strongest signal is a multipath component. This may mean that the
donor signal is prone to fluctuation, resulting in sub-optimal performance of the
unit.
DL Rx
Power
(dBm)
Multipath
Componen
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
Assisted Antenna Tuning
Channel 12345 , 2100 MHz
RSCP of
RSCP of
RSCP of
Pilot 333
Pilot 111
Pilot 111
(dBm)
(dBm)
(dBm)
RSCP of
Pilot 444
(dBm)
1st Ray
2nd Ray
1st Ray
1st Ray
-91
-91
-90
-90
-92
-92
-91
-91
-93
-93
-92
-92
-94
-94
-93
-93
table 4-1 Assisted antenna tuning
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c) Notes on the AAA Measurement Results:
1. The DL RX Power is the total power in the selected 5 MHz channel. The DL Rx
Power measurement is updated approximately once per second.
2. The Pilot Received Signal Code Power (RSCP) measurements are updated
approximately once every four seconds after the antenna assistant finds a valid
pilot channel within the selected 5MHz bandwidth. It may take up to one minute to
perform the initial scan and report Pilot RSCP results.
3. The most recent results are displayed in the first row, and previous results move
down one row in the table.
4. Data is columnized based on the most recent pilot measurement results.
5. The pilot measurements display up to the four strongest rays. The measurement
result could show one pilot with four rays, two pilots with two rays each, one pilot
with three rays and one pilot with one ray, or four pilots with one ray each (or
fewest results if no additional pilots are found).
6. Multiple rays of the same pilot will be shown if the weaker rays are within 10dB of
the strongest ray.
7. The Pilot RSCP data is sorted based on the total power of all multipaths for each
particular scramble code. For instance, if one pilot has two rays, each at –63dBm
(for a total power of -60 dBm), they will be listed first if all other pilots are less than
-60 dBm.
8. If two or more multipath signals are received, then the power of each ray will be
displayed in order of arrival. The first ray is the line of sight signal and should be
the strongest. However, it is possible for the later rays to be stronger.
4.2.4.2
Connectivity and Upload
This page serves to
upload new software
(press
the
Upload
Software button and
follow the instructions)
and for entering the
modem settings for
OMC communication.
figure 4-6 Connectivity and Upload menu
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4.2.4.3
Technician Setup
figure 4-7 Technician Setup menu
Description
Explanation
Filter Selection
Select the frequency range for channel 1, 2 and
3; for filter setting refer to chapter 5.2.1 Filters.
Filter Power to Total Power Ratio
Enter ratio of pilot power to total power
(depending on base station).
Downlink Power
Downlink Gain
Select Power mode or Gain mode and set the
desired power or gain, respectively.
Relative Uplink Gain
Absolute Uplink Gain
Select Relative or Absolute Uplink Gain mode
and set the respective value.
Downlink DCM path
Uplink DCM path *
Downlink PA
Uplink PA
Complete Network Element
Interference Cancellation
Enable or disable the respective feature.
* In the Uplink DCM path it is possible to enable or disable the primary and diversity paths
individually.
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4 Commissioning
4.2.4.4
Alarm Management
figure 4-8 Alarm Management menu
Column
Description
1 ID
Clicking any of the number buttons opens a submenu * for the
respective component/feature.
2 Module
All components and features listed in this column can be monitored
via software.
Current
Status
The cell colour (see [4] below) indicates whether an alarm is active. If
more alarms of different severity levels are active simultaneously
(number of alarms is displayed in column “Alarm Count” to the right),
the cell will always show the highest level that is active.
This row illustrates the colours by which the individual severity levels are
represented in column 3.
* This submenu includes an overview of the alarms available for the respective
component/feature and alarms can be disabled. In the column “Alarm Group” the
severity level for each alarm can be set. The possible severity levels are illustrated
under [4].
In the submenu for “VSWR, ALC, RSSI” [7] it is also possible to set the alarm
threshold (level at which an alarm will released) for these features.
Use the submenu [8] for “External, Fan and Door” for naming the external alarms.
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4.3 TROUBLESHOOTING
Connection Problem:
After clicking Connect, the progression goes from Dialling to a Connection Error as
shown below.
Possible Solutions:
I.
The connection is not configured properly.
a. Click Properties→Configure in the
Direct Connection window.
Make sure Speed is set at 57600.
Make sure no flow control is checked.
b. Click Start→Settings→Control Panel→
Phone and Modem Options.
Go to the Modem tab.
Highlight the used modem connection.
Click Properties.
In the General tab set the Speed to 57600.
c. Click Advanced.
Click Change Default Preferences.
Click on the General tab.
Make sure Speed is set to 57600.
Make sure Flow Control is set to None.
d. Click Change Default Preferences
Make sure Data Bits are set to 8.
Make sure Parity is set to None.
Make sure Stop Bits is set to 1.
Click OK to exit.
II.
The physical connection is loose.
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Connection Problem:
After entering the Node C address, an HTTP error page is returned instead of the
login page.
Possible Solution:
I. If the computer is connected to another network, the HTTP request may be going
out to that network instead of to the Node C. This is likely if after entering the Node
C address, the Direction Connection icon does not light up with activity.
a. Click Start→Run
Type cmd to get a dos prompt.
Type ipconfig /all
b. To release the LAN
Type Click ipconfig /release.
c. Click the Direct Connection icon
Click Disconnect.
d. Close Internet Explorer.
e. Restart the connection procedure.
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For your notes:
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5 Functional Description
5 FUNCTIONAL DESCRIPTION
5.1 GENERAL
The following figure shows the DC block diagram of the Node C.
figure 5-1 DC block diagram of a Node C
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The following figure shows the RF block diagram of the Node C.
figure 5-2 Configuration of a Node C network element
The Node C is designed to amplify signals between multiple mobiles and a base
station in a CDMA system. The unit consists of a filter and amplifier chain in the
downlink and one or two filters and amplifier chains in the uplink (primary and
diversity). The uplink and downlink paths are connected via a duplexer on both ends
of each path.
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5 Functional Description
In the primary uplink path, a signal originating from the mobile is separated from the
downlink signal via the primary UL IN duplexer. It is then amplified by an integrated
low noise amplifier (LNA) and forwarded to the uplink digital channel module (DCM).
The DCM down-converts the signal to base-band, digitally filters it, amplifies it and
then up-converts it. In addition the interference cancellation technology is
implemented in the DCM. Finally, the signal is sent to the final amplifier and
combined with the downlink input signal in the DL IN duplexer. The optional diversity
uplink path (via a second filter) is identical except signals enter via the diversity UL IN
duplexer and are combined in the DCM with the primary path.
In the downlink path, a signal originating from the base station is separated from the
uplink signal in the DL IN duplexer. It is then amplified by an integrated low noise
amplifier (LNA) and forwarded to the downlink digital channel module (DCM). The
DCM down-converts the signal to base-band, digitally filters it amplifies it and then
up-converts it. In addition the interference cancellation technology is implemented in
the DCM. Finally, the signal is sent to the final amplifier and combined with the uplink
input signal in the primary UL IN duplexer. The downlink DCM is also responsible for
communication and control of the entire unit. Using a Node C 1943 as an example,
the following figure illustrates the positions of the RF components inside the Node C.
figure 5-3 RF path of a Node C, exemplary
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5.2 FEATURES OF THE NODE C
5.2.1 Filters
Filters are set automatically according to the channels set in “Setup Wizard” or
“Technician Setup”. For further information about these menus refer to chapters
4.2.4.1 and 4.2.4.3.
Possible filters are:
10
One
WCDMA
channel
15
two adjacent
WCDMA
channels
MHz
and
three adjacent
WCDMA
channels
two WCDMA
channels;
intermediate channel
not used
5.2.2 Digital ICE (Digital Interference Cancellation Equipment)
Digital ICE has been developed to enhance antenna isolation. This feature enables
the Node C to provide coverage in areas where effectivity is decreased due to
physical site limitations which cause insufficient antenna isolation.
Antenna isolation is the RF loss measured between the donor antenna and the
coverage antenna. If the gain of the network element exceeds the path loss,
feedback in form of oscillation occurs. The isolation is usually dominated by the direct
path loss from one antenna to the other, but reflections can contribute to or even
affect antenna isolation. Digital ICE cancels the signal from the primary feedback
path, thus allowing the gain of the network element to be increased.
The required delay resulting from the on-site conditions is measured by the DCM
module and set accordingly.
For software setting commands please refer to the online help screens.
The Digital ICE function can be enabled or disabled in the “Technician Setup” page
(see chapter 4.2.4.3). Isolation and gain margin* can be checked in the “Status and
Reports” menu accessible via the home page of the web interface (see figure 4-4).
* gain margin = antenna isolation minus Node C gain
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5.2.3 VSWR (Voltage Standing Wave Ratio)
This feature enables the provider to query the status of the antenna system (antenna
& cable). The voltage standing wave ratio of the DL output antenna port is measured.
If the VSWR falls below the value set in the “Alarming Management” (see chapter
4.2.4.4), an alarm is released. The alarm can be forwarded to the OMC where the
faults and irregularities can be acknowledged and eliminated promptly.
The current VSWR value can be checked in the “Status and Reports” menu
accessible via the home page of the web interface (see figure 4-4).
5.2.4 RSSI (Receive Signal Strength Indication)
The RSSI provides controlling and monitoring of the receive level of a base station
(DL RSSI) or user equipment (UL RSSI) to a Node C. It measures the level of the
input signal by detecting the RF and converting the analogue level into a digital
value. The data are processed and evaluated by software. An alarm will be released
if the measured signal level exceeds the alarm level set by the provider via software.
) Note:
If the Node C is equipped with a diversity path, both values will be
combined before the RSSI evaluation. Thus, only one UL value is
reported.
The current RSSI values can be checked in the “Status and Reports” menu
accessible via the home page of the web interface (see figure 4-4).
5.2.5 Alarmforwarding
Alarms can be forwarded to a defined phone number or to the OMC if the Node C is
equipped with a modem or a mobile station. This enables the provider to control and
to query the status of the network. Faults and irregularities can be recognized and
eliminated.
With an optional modem the Node C also provides an SMS feature, by which the unit
is able to send out alarm messages as SMS. For further details please contact your
supplier.
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5.2.6
External Alarms
The external alarms are used to monitor the status of one or more external devices
via the Node C. A UPS or entry alarm is among the items that might be connected to
the contact relay and monitored via the Node C. The cage clamp connectors are
located on the distribution & alarm board of the Interface Unit.
Observe that the cross-sectional area of the wires to be connected must be in the
range from 0.5 - 1.0 mm2. Do not use wire-end sleeves (wire cable ends).
figure 5-4 Configuration of external alarm clamps
There are three external cage glands at the bottom of the Interface Unit, which may
be used to connect the external devices.
All external alarms are defaulted to high (5VDC) without connection. This setting may
be changed on the external alarm page to active high or active low. The severity
levels of the external alarms may be set via the web page. More information about
the external alarm settings is available in the web page and online-help.
When not all of the external alarms are required, make sure that the other alarms are
set to active low or disable the alarm; otherwise the status will always show an alarm.
The names for each external alarm are user-definable on the external alarm page
(see chapter 4.2.4.4 Alarm Management) and it is suggested that they be renamed to
indicate the use of these alarms.
Input voltage range
Recommended input line
Nominal sink current to ground
Active level
Connectors
Page 74
5VDC
Potential free
15mA
High or low set via software
Cage clamps
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5 Functional Description
5.2.7
Summary Alarm
The summary alarm is a DC insulated contact relay.
Observe that the cross-sectional area of the wires to be connected must be in the
range from 0.14 - 1.5 mm2.
Summary alarm
relay contact
figure 5-5 Summary alarm relay
The following table indicates the three-connector pin out.
Pin No.
ID No: 161692
Contact
Normally closed
Common
Normally open
Maximum Resistive Load
Max 1A @ 50VDC
Max 2A @ 30VDC
Max 1A @ 230VAC
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5.3 COMPONENTS OF THE NODE C AND INTERFACE UNIT
The actual configuration can be seen at the configuration list*, which is part of the
delivery.
The following figure shows a Node C 1943** (layout of Node C 843 is the same) and
an Interface Unit with PSU redundancy option (two power supplies).
To be replaced by an electronic door label that will be accessible via software & remote control.
**
The layout of a Node C x37 differs from the Node C x43 only in the design of the DL final
amplifier (see chapter 5.3.5 Downlink Final Amplifier).
Final amplifiers
DL
UL
DCM modules
UL
Power supplies
(right: optional)
DL
RF and DC
Distribution Unit
Duplexers
CD
for
USB driver
Distribution and
interface board
Position of
optional
modem
figure 5-6 Layout of a Node C 1943 and Interface Unit
5.3.1
Duplexer
The duplexer is used to isolate the uplink from the downlink, i.e. to separate the
transmitting path from the receiving path. The pass band of the duplexer is the full 60
MHz of the CDMA band. This allows the same Node C to be used regardless of its
operator’s frequency plan.
The integrated LNAs (low noise amplifiers) are biased via the RF cable from the
DCM module. The DL/LNA can be bypassed for strong input signals by the DCM
module automatically.
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5 Functional Description
The DL duplexer has multiple outputs, including the primary and extension path, plus
forward and reverse probes used for auto setup, VSWR, and RSSI functions.
LNA
figure 5-7 Duplexer, DL IN
The UL IN duplexer of the Node C is equipped with a diversity filter. The duplexer is
used for the primary uplink path and is shared with the downlink output.
LNA
figure 5-8 Duplexer, UL IN, with integrated diversity filter
The diversity filter is equipped to provide increased uplink signals in a multipath
environment. The two paths are combined inside the DCM maintaining a time delay
between both paths. According to measurements signal strength gain is about 3-5 dB
for diversity reception.
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5.3.2
RF and DC Distribution Unit
The RF and DC distribution unit is mounted between the duplexers and DCMs.
It is the physical transport layer for communication between the downlink DCM
(which has the integrated controller) and other sub-components of the Node C (see
also chapter 3.2.5 Connection of Cable Bridge).
13
10
11
12
figure 5-9 RF / DC distribution unit
10
11
12
13
To cable bridge connector from Interface Unit for connection of 12V, GND, 28 V
DL-PA connector
LEDs for voltage indication (left: 28 V, right: 12V)
28 V to DCM modules
Door contact
Connector for door contact
RS485 connection to extension unit
Fan connector (NodeM 43)
Memory board connector
To cable bridge connector for USB connection from Interface Unit
To cable bridge connector from Interface Unit
RF cables
UL PA connector
table 5-1 Connections of RF / DC distribution unit
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5 Functional Description
5.3.3
Digital Channel Module (DCM)
The task of the digital channel module (DCM) is to filter and amplify any signals
passing through it. In addition it takes measurements of the input and output signals
and decodes the air interface to ensure proper setup and operation.
Finally it performs the interference cancellation algorithms, which eliminate the
normal problems associated with isolation, and has an integrated controller (in the DL
part) for the entire Node C, which maintains a web server for local and remote
communication. This process is accomplished by both analogue and digital means.
In case the diversity option is equipped, the module receives signals from both the
primary duplexer and diversity filter. Both signals are combined digitally and filtered
before being amplified in the uplink amplifier.
The DCM consists of an UL and DL part.
figure 5-10 DCM (UL or DL part)
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5.3.4
Uplink Final Amplifier
The UL path is amplified by a final amplifier for high output power.
figure 5-11 Uplink final amplifier
5.3.5
Downlink Final Amplifier
In the DL path, an error-correcting feed-forward amplifier, which has a high output
power while maintaining superior intermodulation and linearity performance, is used
as final stage.
In the Node C x37 a 37 dBm (2 W) average power final amplifier is used.
figure 5-12 Node C x37 DL final amplifier
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5 Functional Description
In the Node C x43 a 43 dBm (20 W) average power final amplifier is used.
figure 5-13 Node C x43 DL final amplifier, new type
figure 5-14 Node C x43 DL final amplifier, former version
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5.3.6
Distribution & Alarm Board
The distribution & alarm board of the Interface Unit is the main connection point for
the user. It has the external alarm clamps, RS232 connectors, for local or modem
connection, as well as a summary alarm relays. The following figures show one blank
board and an installed one with battery backup.
Battery backup connector
Internal I2C
Vdc for modem *
Remote (RS232)*
Internal PSTN connector
External alarms & PSTN *
Door switch
Modem cable (RF connection)
USB connector for modem*
Power supply alarming / I2C
Mains surveillance
Battery load discharge (resistor)
Modem fuses (2.5 A)
Local (RS232) *
Battery charge module
Summary alarm*; see chapter
5.2.7 for pin assignment
figure 5-15 Distribution & alarm board
Only these connectors are for general customer use. All others are designated above for
informative purposes, and required, only, e.g. for an upgrade or replacement of parts.
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5.3.7
Power Supply
The power supply, which is mounted in the Interface Unit, transforms AC mains
power into a predefined DC voltage. When performing maintenance, ensure that all
circuits are voltage-free and that the Node C is disconnected from mains.
The Node C may be equipped with a second power supply for redundancy.
figure 5-16 Power supply
5.4
OPTIONAL EQUIPMENT
The actual configuration can be seen at the configuration list*, which is part of the
delivery.
To be replaced by an electronic list that will be accessible via software.
5.4.1
Modem with Battery Backup
The modem is used to establish a remote connection to the Node C. The connection
may be used to change the unit’s parameters, check and clear alarms or collect
measurement and quality statistics.
Furthermore, the modem is at the Node C’s request to alert the operator when there
is an alarm. The modem may be over-the-air (wireless) or PSTN. It is possible to
install the wireless modem or the PSTN modem on site.
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À
Check the communication mode between the modem and the terminal. The
following parameters should be set for a GSM modem.
Bit rate / bit per second:
9600 baud
Number of data bit:
8 bit
Parity bit:
No parity
Stop bit:
1 stop bit
These settings may only be changed locally. Should a different modem be used, the
operator should ensure that the settings are changed prior to leaving the site.
5.4.1.1
Initstrings
The initialization string depends on the operator’s network and the modem. It may be
necessary to adjust the init string in the field. The following init string is factory set.
Modem
Network
not yet available
t.b.d.
via Node C Web Interface: t.b.d.
Initstring
table 5-2 Standard initstring for modem
5.4.1.2
Wireless Modem
The wireless modem allows remote
control and maintenance of the Node C.
Parameters may be changed; alarm and
measurement
statistics
may
be
acknowledged and collected in the
OMC.
The modem is installed in the cover of
the Interface Unit. The antenna
connector for the modem is located at
the connector panel of the Interface Unit
For technical data of the modem refer to
chapter 7.2.3 Specifications for Optional
Equipment.
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5.4.1.3
Battery Backup
In case power fails, a battery backup system for controller and modem has been
implemented. This provides enough power for the controller that is integrated into the
downlink DCM and the modem to operate for a limited period of time (see chapter
7.2.3 Specifications for Optional Equipment for battery backup time). Within this time,
the Node C will initiate a call to the OMC and alert the operator that power has been
lost. All other functions will cease to work in case of power failure.
The battery packs are protected from deep discharge by use of a low voltage
disconnect unit. When performing preventive maintenance, make sure that all circuits
are voltage free by disconnecting the battery cable (C1) from its connector (C2). In
case of a power cycle, it is sufficient to press the “Battery disconnect button” to
interrupt the voltage supply. After mains is connected again, the battery will be
charged and the battery backup function will be activated automatically.
LED
Battery charge module
C2 connector
Battery pack
C1; to C2 of
charge module
C3 connector
Battery
disconnect button
figure 5-17 Battery backup module, exemplary
The battery charge module is plugged directly onto the distribution & alarm board of
the Interface Unit through connector C3.
The battery pack should be discharged at regular intervals of about three months to
optimize its service life. This service discharge may be activated via software
depending on the software version. The time required for the discharge varies
depending e.g. on the charge status of the battery pack. A fully charged battery may
require up to some hours to be completely discharged. Consider this when activating
the discharge and also observe the following note.
) Note:
Please be aware that the backup function is not available during
discharge. Thus, a primary voltage failure in that time will result in
a complete system shut-down.
It is recommended to replace the battery pack of the battery backup option after two
years of usage as a preventive measure. The nominal lifetime of the battery pack is
approx. two years under normal environmental conditions.
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When the battery is charging, an LED on the module turns on. When the battery is
fully charged, the LED will switch off.
The location of the battery backup parts are illustrated in figure 6-2 Location of
battery backup.
For technical data of the battery backup module refer to chapter 7.2.3 Specifications
for Optional Equipment.
5.4.2
PSU Redundancy
The Node C Interface Unit may be equipped with two power supplies. This
guarantees full power redundancy. The PSUs are interconnected by a current control
line for current load sharing with a ratio of approx. 50% to each supply.
Currently the PSU redundancy option is only available for Node C x37.
5.4.3
High Rejection Filter
This software option provides a highly sophisticated filter feature that can be
controlled via the “Technician Setup” menu of the web page (see figure 4-7
Technician Setup menu).
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6 Maintenance
6 MAINTENANCE
6.1 GENERAL
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.
) Note:
The Node C does not require any preventative maintenance
measures.
It is only recommended to replace the battery pack of the battery backup option after
two years of usage as a preventive measure. The nominal lifetime of the battery pack
is approx. two years under normal environmental conditions.
In the event of a malfunction, the user should check the status of the antennas,
feeder cables, connectors, and mains power before replacing any components.
6.2 REPLACEMENT OF COMPONENTS
Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.
Maintenance of the Node C should be performed on a FRU (Field Replaceable Unit)
basis only. Do not damage the warranty labels on the components, as this voids the
warranty.
The spare parts list contains only units that can be replaced without tuning or
complex soldering work. Those units are all components of the Interface Unit. Do not
replace any components inside the Node C itself.
) Note:
Defect parts should only be replaced by original parts from the
supplier. All interventions inside the housing are at one’s own risk.
) Note:
During maintenance ensure that the unit has been disconnected
from mains.
To open the cabinet of the Interface Unit, observe the instructions in chapter 4.1
General.
) Note:
If the optional battery backup is installed, disconnect the battery
cable from the charge module connector as described in chapter
5.4.1.3 Battery Backup, to ensure that all circuits are voltage-free.
) Note:
Before disconnecting any cables, label any unlabeled cables to
ensure correct reconnection, and check the switch positions of the
removed part to set the switches of the new part accordingly.
To replace a FRU, use the appropriate tools. The tools are provided along with the
equipment. Replacement tools may be ordered from the supplier. All screws have a
right-hand thread, turn the tool clockwise for tightening and counter-clockwise for
loosening.
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SMA connectors have a specified torque of 100 Ncm. Use an appropriate tool to
fasten and unfasten these. Do no over tighten the connectors or screws. The table
below shows various screws with their respective torques.
Screw Type
Thread size
M 2.0
M 2.5
M 3.0
M 4.0
M 5.0
Tallow-drop
40
82
145
330
650
Socket head cap
Countersunk head
Specified Torque (in Ncm)
not in use
40
not in use
82
100
145
330
330
tbd.
650
table 6-1 Specified torques for various screw types
) Note:
) Note:
) Note:
Depending on the configuration of the Node C the FRU can be
equipped with a 50-Ohm termination resistor. In such a case, use
the termination resistor of the old FRU to terminate the respective
connector of the replacement part.
After the replacement of a component, check whether the system
has to be levelled anew.
Do not forget to reinstall the front cover after the replacement
procedure to ensure safe operation.
If any FRU not contained in the following chapter needs to be replaced, contact
customer service for additional instructions.
6.2.1 Power Supply
• To remove a power supply,
first disconnect all cables.
• Unscrew the seven M4
socket head cap screws by
which each power supply
is fastened to the cabinet.
• Use these screws to fasten
the new power supply and
reconnect all cables.
figure 6-1 Power supply screws
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6 Maintenance
6.2.2
Battery Backup
Snap connectors
Battery pack
Battery charge module
figure 6-2 Location of battery backup
•
Before removing the battery charge module and battery, disconnect the
battery cable from the battery charge module (see also figure 5-17 Battery
backup).
•
The battery can now be unplugged easily.
•
Release the charger from the two snap connectors by which it is fastened and
disconnect it from its socket on the distribution & alarm board.
•
To install the new module, proceed in reverse order.
6.2.3
•
Fan Unit
Unscrew the three M5x6 socket head screws by which the fan unit is screwed
to the cabinet. Be careful not to lose the according washers.
figure 6-3 Fan unit screws
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User’s Manual for Node C Network Elements
•
Take off the fan unit and disconnect the connector cable from the cabinet.
Disconnecting the fan connector cable
Positioning the fan connector cable
figure 6-4 Fan connector cable
•
6.2.4
To install the new fan unit, proceed in reverse order. In order not to squeeze
the fan connector cable, take care to position it correctly after its reconnection.
Modem
The optional modem is screwed to a mounting plate which is fastened to the cabinet.
In order to separate the modem from the plate, the mounting plate has to be taken off
first.
• Before starting to remove the
mounting plate, disconnect all
cables.
• Then, unscrew the four tallowdrop screws M3x6 which fasten
the mounting plate to the
cabinet.
• Take off the plate with the
modem attached. The modem
is fastened from the back to the
plate with two countersunk
head screws M4x10.
• Unscrew these screws and use
them to fasten the new modem
to the mounting plate.
Position of modem
• Fasten the mounting plate
again with the four tallow-drop
screws M3x6 and reconnect all
cables.
figure 6-5 Mounting plate of modem
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M0121A1A_uc.doc
7 Appendix
7 APPENDIX
7.1 ILLUSTRATIONS
7.1.1
Cabinet Drawings
figure 7-1 Cabinet of a Node C
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figure 7-2 Cabinet of a Node C Interface Unit
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7 Appendix
7.1.2
Layout
figure 7-3 Layout of the Node C 1937, exemplary
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figure 7-4 Layout of the Node C 1943, exemplary
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M0121A1A_uc.doc
7 Appendix
Position for
optional modem
figure 7-5 Layout of the Interface Unit, exemplary
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7.2 SPECIFICATIONS
7.2.1
Electrical Specifications
) Note:
For detailed information, refer to the Environmental and Safety
Specifications leaflet of the supplier.
Type
Frequency
Option 1:
Option 2:
1 CDMA carrier
DL output
2 CDMA carriers
power *
4 CDMA carriers
UL composite output power
Output power step size
Output power accuracy over all
conditions
Min. DL input power for full output
power
Max. input power without damage
Min. antenna isolation for max. gain
UL noise figure
Delay
Option 1:
Option 2:
Maximum gain
Gain adjust range
Return loss
Uplink diversity
Spectral emission mask
CDMA carriers
Out of band gain
Option 1:
(rejection)
Option 2:
Modulation accuracy
Spurious emissions
Far off selectivity (ultimate rejection)
Power supply
Standard:
Optional:
Power
idle:
consumption
full output power:
RF connectors
Input / output impedance
Cabinet:
Ingress protection
Fan:
Temperature range
Node C 837
Node C 843
Uplink:
824 – 849 MHz
Downlink:
869 – 894 MHz
1-11 adjacent (per module) 1.23 MHz carriers
1-3 adjacent (per module)
5 MHz carriers
+37.0 dBm
+43.0 dBm
+34.0 dBm
+40.0 dBm
+31.0 dBm
+37.0 dBm
+23 dBm
1 dB
±1.5 dB
-56 dBm
-60 dBm
+10 dBm
73 dB minimum
83 dB minimum
3.5 dB
6.0 µs
8.2 µs
93 dB
103 dB
43 dB to 93 dB
53 dB to 103 dB
15 dB
Standard
-45 dBc @ 750 kHz
-60 dBc @ 1.98 MHz
Gain -40 dB in 1.25 MHz
Gain -70 dB in 1.25 MHz
RHO > 0.96
-13 dBm
70 dB
110 VAC / 40-60 Hz
36-72 VDC
200 W
300 W
250 W
500 W
7/16 DIN female; N female
50 Ohms
IP66
IP66
--IP55
-33°C to +50°C
* see next page
All data is subject to change without notice
Page 96
M0121A1A_uc.doc
7 Appendix
Type
Frequency
Option 1:
Option 2:
1 CDMA carrier
DL output
2 CDMA carriers
power *
4 CDMA carriers
UL composite output power
Output power step size
Output power accuracy over all
conditions
Min. DL input power for full output
power
Max. input power without damage
Min. antenna isolation for max. gain
UL noise figure
Delay
Option 1:
Option 2:
Maximum gain
Gain adjust range
Return loss
Uplink diversity
Spectral emission mask
CDMA carriers
Out of band gain
Option 1:
(rejection)
Option 2:
Modulation accuracy
Spurious emissions
Far off selectivity (ultimate rejection)
Power supply
Standard:
Optional:
Power
idle:
consumption
full output power:
RF connectors
Input / output impedance
Cabinet:
Ingress protection
Fan:
Temperature Range
Node C 1937
Node C 1943
Uplink:
1850 – 1910 MHz
Downlink:
1930 – 1990 MHz
1-11 adjacent (per module) 1.23 MHz carriers
1-3 adjacent (per module)
5 MHz carriers
+37.0 dBm
+43.0 dBm
+34.0 dBm
+40.0 dBm
+31.0 dBm
+37.0 dBm
+23 dBm
1 dB
±1.5 dB
-56 dBm
-60 dBm
+10 dBm
73 dB minimum
83 dB minimum
3.5 dB
6.0 µs
8.2 µs
93 dB
103 dB
43 dB to 93 dB
53 dB to 103 dB
15 dB
Standard
-45 dBc @ 750 kHz
-60 dBc @ 1.98 MHz
Gain -40 dB in 1.25 MHz
Gain -70 dB in 1.25 MHz
RHO > 0.96
-13 dBm
70 dB
110 VAC / 40-60 Hz
36-72 VDC
200 W
300 W
250 W
500 W
7/16 DIN female; N female
50 Ohms
IP66
IP66
--IP55
-33°C to +50°C
* The manufacturer’s rated output power of this equipment is for single carrier operation. For situations
when multiple carrier signals are present, the rating would have to be reduced by 3 dB, especially
where the output signal is re-radiated and can cause interference to adjacent band users. This power
reduction is to be by means of input power or gain reduction and not by an attenuator at the output of
the device.
All data is subject to change without notice
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User’s Manual for Node C Network Elements
7.2.2
Mechanical Specifications
Description
Node C x37
Height, width, depth
Weight *
Cooling
Node C x43
546 x 320 x 260 mm
22 kg
Natural convection in the
door and on the back
Acoustic noise
None
Description
25 kg
Twin redundant fans in the door
Natural convection on the back
45 dBA typ.
@ 25°C ambient
58 dBA typ. @ 50°C ambient
Interface Unit
Height, width, depth
Weight *
Cooling
546 x 190 x 260 mm
13 kg
Natural convection in the door and in the back
* in standard configuration
All data is subject to change without notice
7.2.3
Specifications for Optional Equipment
Modem
Service
Service connection
Physical connection
Power consumption
Connectors
t.b.d.
t.b.d.
RS232; USB (not yet available)
4W average, 10W peak
Data, power, RF
Battery backup
Battery type
Battery capacity
Nominal output voltage
Backup time
Charge time
Maintenance discharge time
Major features
NiCd
1200mAh
8.4 V
>15minutes (25W load @ 25°C)
4.5 hours maximum
2 hours
Battery charge and discharge control,
active HID, battery voltage measurement
All data is subject to change without notice
Page 98
M0121A1A_uc.doc
7 Appendix
7.3 PARTSLISTS
The following lists contain a list of all FRUs that are available for the Node C and
Interface Unit. The Node C configuration is available in the configuration list1, which
is delivered with the unit.
Please observe that in the following lists only the components marked * may be
replaced on site. If the replacement of any other component in this list is required,
please contact customer service for assistance.
To be replaced by an electronic door label that will be accessible via software.
7.3.1
Interface Unit
Interface Unit
159557
Battery Backup Kit
Cabinet Combining Kit
Charge Control Board
Connecting- and Sparepart Kit
Cover
Distribution and Alarm Board
Drawer
Modem
Memory board 1627.2 I2C-ADD 51
Modem Kit USA/BBU L-Cab.
NiCd-Akku 8,4V/1200mAh, N-1200SCK,70°C
Power Supply In:115Vac±15%, 47-65Hz
Power Supply In:230Vac±15%, 47-65Hz
Wall Mounting Kit
159548 *
161240
160098
160069
160736
160415
160734
t.b.d.
159809
161489 *
160188 *
159126 *
159514 *
160068
The manufacturer reserves the right to replace the parts listed above by equivalent
substitutes!
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7.3.2
Node C
NodeC Type
837
843
Description
Node C
1937
1943
ID No.
160546 160545 160543 160544
Adapter 7/16 male -N female
112425
Cover
160735
Digital Channel BW 15 MHz 869-894MHz
Module DL
BW 15 MHz 1930-1990MHz
160548
---
---
160550
Digital Channel BW 15 MHz 824-849MHz
Module UL
BW 15 MHz 1850-1910MHz
160547
---
---
160549
Drawer
Duplexer DL / LNA:824-849/869-894MHz
160733
161464
---
---
161462
161463
---
---
161461
Duplexer DL / LNA:1850-1910/1930-1990MHz
Duplexer UL / LNA:824-849/869-894MHz
Duplexer UL / LNA:1850-1910/1930-1990MHz
Fan Unit 1
---
159547
Fin.Amp. 26-28V, 47dB, 1930-1990MHz
Fin.Amp.4W M,12V,33dB 824-849MHz
---
159547
---
160254
160417
---
Fin.Amp.4W M,12V,33dB 1850-1910MHz
---
160416
Fin.Amp.30W,26-28V,36dB 1930-1990,Feedf.
---
Fin.Amp. 82W, MLPA 28V/46dB/869-894MHz
---
Fin.Amp. 82W, MLPA 28V/36dB/869-894MHz
161235
160255
158789
-----
Memory board 1627.2 I2C-ADD 50
159810
Pole mounting
160979
Pole mounting Kit (2 Systems)
161604
Pole mounting Kit Back to Back (1System)
161605
RF/DC Distribution Unit
159539
Wall Mounting Kit
160068
---
The fan unit can only be replaced as a whole. Do not replace an individual fan.
The manufacturer reserves the right to replace the parts listed above by equivalent
substitutes!
Page 100
M0121A1A_uc.doc
8 Index
8 INDEX
Abbreviations............................................7
Address of Mikom.....................................9
Alarmforwarding .....................................73
Alarms
Fan Unit Replacement............................89
Feed-Forward Amplifier..........................80
Filters
External .....................................................74
Management .............................................65
Setting of Severity Level ...........................65
Setting of Threshold ..................................65
High Rejection Option............................... 86
Standard Feature...................................... 72
Final Amplifier.........................................80
Amplifier
Feed-Forward............................................80
Final...........................................................80
Grounding...............................................21
Antenna Tuning ......................................62
Health and Safety Warnings.....................8
High Rejection Filter ...............................86
Battery Backup .......................................85
Replacement .............................................89
Block Diagram
DC .............................................................69
RF..............................................................70
Cabinet Drawing
Interface Unit .............................................92
Node C ......................................................91
Commissioning.......................................25
Communication Mode Parameters.........84
Connections
Antenna .....................................................23
Cable Bridge..............................................23
Login Devices............................................26
Login Procedures ......................................26
Optional Equipment...................................24
Power ........................................................22
Installation
Direct connection on Win2000 ................. 48
Direct Connection on WinXP.................... 28
Electrical ................................................... 20
Mechanical ............................................... 13
Modem Connection on WinXP ................. 38
USB Driver................................................ 27
International Contact Addresses ............10
Layout
Interface Unit ............................................ 95
Node C 1937 ............................................ 93
Node C 1943 ............................................ 94
Total.......................................................... 76
Control Board .........................................82
LNA ........................................................76
Low-Noise Amplifier ...............................76
DCM Module ..........................................79
Design ....................................................70
Digital ICE ..............................................72
Distribution & Alarm Board .....................82
Diversity............................................77, 79
Duplexer .................................................76
External Alarms ......................................74
Menus
Alarm Management .................................. 65
Connectivity and Upload........................... 63
Setup Wizard ............................................ 61
Technician Setup...................................... 64
Modem
General ..................................................... 83
Initstrings .................................................. 84
Replacement ............................................ 90
Wireless .................................................... 84
Naming ......................................................65
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Mounting
Brackets ..............................................16, 18
Connection Option ....................................16
General......................................................13
Pole ...........................................................17
Wall ...........................................................14
SMS Alarmforwarding ............................73
Software Setup.................................26, 66
Specifications
Electrical (Node C 19xx)........................... 97
Electrical (Node C 8xx)............................. 96
Mechanical ............................................... 98
Optional Equipment .................................. 98
Optional Equipment................................83
Summary Alarm......................................75
Troubleshooting......................................66
Partslist
Interface Unit .............................................99
Node C ....................................................100
Power Supply .........................................83
Replacement .............................................88
Preamble ..................................................9
PSU Redundancy...................................86
USB
Adapter ..................................................... 26
Driver ........................................................ 27
Remote Control ......................................26
Remote Login .........................................26
Replacement of
VSWR.....................................................73
Battery Backup ..........................................89
Fan Unit.....................................................89
Modem ......................................................90
Power Supply ............................................88
Web Page
Access ...................................................... 60
Main Menus .............................................. 61
RF Path ..................................................71
RF/DC Distribution Unit ..........................78
RSSI .......................................................73
Page 102
M0121A1A_uc.doc

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