Powerwave Technologies LNKFIB-RA LNKFIB-R User Manual DCM000000052 LSU Manual Rev5a

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Date Submitted	2003-06-20 00:00:00
Date Available	2003-10-03 00:00:00
Creation Date	2003-06-19 16:03:15
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Document Title	Microsoft Word - DCM000000052 LSU Manual Rev5a.doc
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LinkNet
Satellite Unit (LSU)
RF - FIBER
Interface Modules
User Manual
Installation, Operation
And Maintenance
KAVAL WIRELESS TECHNOLOGIES
60 Gough Road
Markham, Ontario, L3R 8X7
Telephone: (888) 86-KAVAL
Web: www.kaval.com
E-mail: info@kaval.com
Document #DCM000000052, Rev.5a
June 17, 2003
SatelLink z USER MANUAL
DCM000000052
PROPRIETARY STATEMENT
© 2000 KAVAL WIRELESS TECHNOLOGIES All rights reserved.
No part of this publication, or any software included with it may be reproduced, stored in a retrieval system,
or transmitted in any form or by any means, including photocopying, electronic, mechanical, recording or
otherwise, without the prior written permission of the copyright holder.
This document contains proprietary information of KAVAL WIRELESS TECHNOLOGIES The contents are
confidential and any disclosure to persons other than the officers, employees, agents or subcontractors of
the owner or licensee of this document, without the prior written consent of KAVAL WIRELESS
TECHNOLOGIES, is strictly prohibited.
KAVAL WIRELESS TECHNOLOGIES provides this document as is, without any warranty of any kind either
expressed or implied including, but not limited to, the implied warranties of merchantability and fitness of a
particular purpose. KAVAL WIRELESS TECHNOLOGIES may make changes or improvements in the
equipment, software, or specifications described in this document at any time and without notice. These
changes will be incorporated in new releases of this document.
This document may contain technical inaccuracies or typographical errors. KAVAL WIRELESS
TECHNOLOGIES waives responsibility for any labour, materials, or costs incurred by any person or party as
a result of using this document. KAVAL WIRELESS TECHNOLOGIES, and any of its affiliates shall not be
liable for any damages (including, but not limited to, consequential, indirect or incidental, special damages or
loss of profits or date) even if they were foreseeable and KAVAL WIRELESS TECHNOLOGIES has been
informed of their potential occurrence, arising out of or in connection with this document or its use.
TRADE MARK NOTICE
This manual makes reference to trademarks that are the property of other companies. References are used
only to refer to the products or services of the trademark owners.
LSU is a trademark of KAVAL WIRELESS TECHNOLOGIES
Printed: 2003-06-19 16:02:58
Revision Date: 6/19/03:
ii
SatelLink z USER MANUAL
DCM000000052
TA B L E O F
CONTENTS
1.
LSU MODULES ........................................ 4
OVERVIEW ............................................................. 4
Theory Of Operation......................................... 4
MODELS................................................................. 4
BLOCK DIAGRAMS .................................................. 5
LSU Head-End Module..................................... 5
LSU Remote Module ....................................... 6
CONNECTIONS ....................................................... 7
LSU Head-End Module..................................... 7
LSU Remote Module ....................................... 8
LSU Head-End to Remote Interconnects ...... 10
Printed: 2003-06-19 16:02:58
MODULE SPECIFICATIONS ..................................... 11
REMOTE MODULE PER-CARRIER DE-RATING ......... 12
OPERATION .......................................................... 13
Normal Operation ........................................... 13
Configuration .................................................. 13
LASER SAFETY ..................................................... 14
ANTENNA INSTALLATION........................................ 15
Revision Date: 6/19/03:
iii
SatelLink z USER MANUAL
1.
LSU MODULES
Overview
Theory Of Operation
The LSU RF to Fiber Modules provide a multi-band, multi-service link from a main
distribution center to multiple local antennae. RF Signals are distributed in runs of
three pairs of Single-Mode Fiber-Optic Distribution Lines, organized as...
Fiber Pair #1:
Fiber Pair #2:
Fiber Pair #3:
1.9 GHz PCS Services
800 MHz Cellular Services
800 MHz iDEN, Public Safety, & Paging Services
There are two models....
Models
LSU
MODEL
DESCRIPTION
LNKFIB-H01
This is a 1U high, 19" Rack-Mount Module providing low signal
level interfacing between Head-End RF Modules and Single-Mode
Fiber-Optic Distribution Lines. One is used for each of the three
Fiber Pair Groups, and can service up to four Remote Modules.
LNKFIB-R01
This is a Wall-Mounted Remote Module that connects to the SingleMode Fiber-Optic Distribution Lines and provides eight local
Distribution Antennae for Signal Extension.
NOTE:
With these Modules, there is always a grouping of three (3) of LNKFIB-H01's to
every four (4) LNKFIB-R01's.
Printed: 03.06.19,16:02
Revision Date:6/19/03
SatelLink z USER MANUAL
Block Diagrams
LSU Head-End Module
RF Out #1
RF Out #2
RF Out #3
SM F.O. In
(PIN Diodes)
RF Out #4
PreAmps
RF Input
Laser Diode
SM F.O. Out
(Lasers)
PreAmp
Power Supply
120 / 240 VAC
120/240 VAC
Printed: 03.06.19,16:02
FO Laser and PIN Diode
Monitors
Fault Relay
Revision Date:6/19/03
SatelLink z USER MANUAL
LSU Remote Module
1.9 GHz
1.9GHz
869-894 MHz
Cellular
Four
Antenna
Ports
928-941 MHz
PreAmp
1.9GHz
Loose
Couplers
1.8 GHz
Cellular
824-849 MHz Notch 851+
IDEN &
806-824 MHz Notch 894-
SM F.O. Out
(Lasers
800-900MHz
851-869 MHz
IDEN &
SM F.O. In
(PIN
1.9GHz
PreAmp
2 RF Ports to
Antennae on
Alternate
899-902 MHz
RF Monitor
FO Current
& Power
Monitors
Ports
MicroCircuitr
Power Supply
120 / 240
Green Power On
Red Fault LED
CAN
To Head-
24 VDC
Printed: 03.06.19,16:02
120/240
RS232
To PC
Fault
Revision Date:6/19/03
SatelLink z USER MANUAL
Connections
LSU Head-End Module
Head-End Connections
SC/APC SingleMode Fiber-Optic & SMA RF Connectors
AC Power Cord
TX1
TX2
TX3
Downlink Optical Outputs
TX4
RX1
RX2
RX3
RX4
TX In
RX1
RX2
RX3
RX4
Uplink RF Outputs
Uplink Optical Inputs
Downlink RF Input
The Head-End has one Downlink RF Input providing the signal for four Downlink
Optical Outputs, thus each Head-End Module services one and only one of the three
Fiber-Pairs (PCS, Cellular, or iDEN/Trunking).
Printed: 03.06.19,16:02
Revision Date:6/19/03
SatelLink z USER MANUAL
LSU Remote Module
Antenna Port Connections
SMA Connections
Four Direct Antenna Connections
Downlink Sampler Port
Uplink Sampler Port
Two Expansion Antenna Connections
The Remote Module has 8 SMA RF Connections..
Main Antenna Ports (4):
Used to connect to four identical distributed indoor
antenna systems.
Expansion Antenna Ports (2): Connected to a secondary location via 2 of two-way
combiners, and in turn provide connections to four
more identical distributed indoor antenna systems.
Sampler Ports (2):
Printed: 03.06.19,16:02
Optionally allow an operator to monitor the Uplink
and Downlink RF activity at approx. 30dB below the
actual levels.
Revision Date:6/19/03
SatelLink z USER MANUAL
Fiber Optic Port Connections
SC/APC SingleMode Fiber-Optic Connectors
PCS Uplink Optical Output
Cellular Uplink Optical Output
iDEN/Paging Uplink Optical Output
PCS Downlink Optical Input
Cellular Downlink Optical Input
iDEN/Paging Downlink Optical Input
The Remote Module has 6 SC/APC Single-Mode Fiber-Optic Connections for
cabling to the Head-End...
PCS Up & Downlink:
Used for the PCS Fiber-Optic Pair connection to the
Head-End.
Cellular Up & Downlink:
Used for the Cellular Fiber-Optic Pair connection to
the Head-End.
iDEN/Paging Up & Downlink: Used for the combined iDEN / Paging Fiber-Optic
Pair connection to the Head-End.
Printed: 03.06.19,16:02
Revision Date:6/19/03
SatelLink z USER MANUAL
LSU Head-End to Remote Interconnects
Head-End to Remote Fiber-Optic Connections
Groupings of 3 Head-Ends to every 4 Remotes
PCS Head-End
To 3 More
Remote Modules
Remote Module
Cell Head-End
To 3 More
Remote Modules
iDEN / Paging
Head-End
To 3 More
Remote Modules
The Single-Mode Fiber-Optic interconnections between the Head-End and Remote
Modules are based upon the Head-Ends being organized on a "per Fiber-Pair"
system. This fundamentally means that an installation requires three Head-Ends for
every four Remote Modules. It also means that if you have a fully optimized system
with all Head-End ports in use, and you add one more Remote Module, then another
three Head-End Modules are required.
Printed: 03.06.19,16:02
Revision Date:6/19/03
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SatelLink z USER MANUAL
Module Specifications
DCM000000052
Downlink:
851-869 MHz iDEN & Pub Safety
869-894 MHz Cellular
928-941 MHz Paging
1930-1990 MHz PCS
Frequency Bands
Uplink:
806-824 MHz iDEN & Pub Safety
824-849 MHz Cellular
896-902 MHz Paging
1850-1910 MHz PCS
iDEN/Cell/Paging Combined:
Maximum Power
+35 dBm IP3 Typical
from any one of eight
PCS Combined:
Remote Module Antenna Ports
+33 dBm IP3 Typical
Gains
Downlink:
+28 dB Maximum
from any one of eight\ Remote Module Antenna
(7 dB Gain Reduction
Portsreferenced to Head-End Unit, assuming 0dB
Adjustment Range per Band)
Fiber-Optic Link
Uplink:
-4 to +2 dB
Max RF Input
0 dBm, assuming 2 carriers, Min Downlink Gain, & 1
To Head-End Unit
dBo Fiber Loss. Refer to De-Rating Charts.
Uplink Noise
< -130 dBm/Hz (Spec. Goal)
at Head-End Unit from any of eight Remote Module
Antenna Ports assuming 0dB Fiber-Optic Link
Any to Any Band:
-60 dB Max, -70dB Typ.
Uplink Isolation
except...
from any one of eight Remote Module Antenna Ports
iDEN to Cell:
-37 dB Max, -65dB Typ.
to the Head-End Unit RF output assuming
Cell
to
Paging:
-45
dB Max, -70dB Typ.
0dB Fiber-Optic Link
PCS to PCS:
-45 dB Max, -65dB Typ.
Downlink Isolation
Printed: 03.06.19,16:02
Not Spec., Relies upon Head-End Filtering
Duty Cycle
Continuous
Spurious Outputs
-13 dBm max per Remote Module Antenna Port
when operated as per De-rating Chart
Optical Power Level
Laser Warning: Invisible Laser Radiation emitting
from optical connector. Avoid direct exposure to
beam. 150 mW max. @1300nm. Class IIIb. Product
complies with 21 CFR 1040.10 and 1040.11.
Optical Path Loss
2 dBO Maximum
Group Delay
<8uS (Spec. Goal)
NOT including Fiber-Optic Link
Connectors
SC/APC Fiber-Optic, SMA (50ς) RF
D-Sub Data & Control, 3-Pin AC Power
Head-End Module Power Supply Requirements
120 VAC, 50/60 Hz
120 VA Typical, 200 VA Maximum
Remote Module Power Supply Requirements
120/240 VAC, 50/60 Hz
120 VA Typical, 200 VA Maximum
Configuration Options
May be configured either via the LSU network and
the Head-End Control Module, or via a PC and an
RS-232 Connection.
Operating Temperature Range
-10 to +40 C
Operating Humidity Range
5 to 90% RH, Non-Condensing
Head-End Module Size & Weight
1U High 19” Rack Unit, 14" Deep, 16 lbs Max
Remote Module Size & Weight
24” High, 24” Wide, 9” Deep,
NOT incl. mounting tabs, 85 lbs Max
FCC Identifier
H6M-LNKFIB-RA
Industry Canada Certification
IC: 1541311245A
Revision Date:6/19/03
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SatelLink z USER MANUAL
Remote Module PerCarrier De-Rating
DCM000000052
All signals that fall within a given Pass-Band range will “share” power amongst them.
A multiple channel effect is Intermodulation - signals produced from non-linear
effects between the intended channel signals. This intermodulation may cause
interference to receiving equipment. In order to minimize Intermodulation signals,
Power de-rating must be applied. In the USA there are FCC Intermodulation
Specifications published in the EIA Standard PN2009. The Tables below gives the
maximum per channel Output Levels allowed as a function of the number of
channels. Note that depending on the actual input levels, the gain may need to be
reduced to comply with the above regulations.
iDEN / Cellular / Paging
(effective IP3 per Antenna = +35dBm)
(the power is shared in these 3 bands)
Number of
Power per
Total Power
Carriers
Carrier per
per Antenna
Antenna
Port (dBm)
Port (dBm)
+18.7
+21.7
+16.0
+20.7
+14.0
+20.0
+12.5
+19.5
+11.3
+19.1
+10.3
+18.8
+9.5
+18.5
+8.7
+18.3
10
+8.1
+18.1
15
+5.5
+17.3
20
+3.8
+16.8
25
+2.4
+16.4
30
+1.3
+16.1
1.9 GHz PCS
(effective IP3 per Antenna = +33dBm)
Number of
Carriers
10
15
20
25
30
Power per
Carrier per
Antenna
Port (dBm)
+17.4
+14.6
+12.7
+11.2
+10.0
+9.0
+8.2
+7.4
+6.7
+4.2
+2.4
+1.1
0.0
Total Power
per Antenna
Port (dBm)
+20.4
+19.4
+18.7
+18.2
+17.8
+17.5
+17.2
+16.9
+16.7
+16.0
+15.4
+15.1
+14.8
Note: The above levels are for Analog Narrowband FM. For CDMA, TDMA, GSM
Signals the levels must be typically 3 to 5 dB lower than those shown. Consult Kaval
Wireless Technologies for further information.
Printed: 03.06.19,16:02
Revision Date:6/19/03
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SatelLink z USER MANUAL
Operation
DCM000000052
Normal Operation
The LSU Head-End Module has one LED on the faceplate:
1. OPERATING - Normally this LED will be GREEN.
The LSU Remote Module has three LED’s on the faceplate:
1. OPERATING - Normally this LED will be GREEN.
2. FAULT – Red LED, If the internal diagnostics for the module detect a
problem, then this LED will remain on
3. LASERS ON - This LED will be GREEN when any one of the three Lasers
are operating.
Configuration
It is possible to re-configure the LNKFIB-R01 Remote Module in the field, either
with a Personal Computer (PC) or via the optional LinkNet Control Module. To
use a PC it is necessary to connect the DB9 RS-232 connector on the Module to a
standard DB9 RS232 Connector on the PC. On the PC a terminal emulation
program such as HyperTerminal is used to communicate to the LinkNet Module.
The settings are 9600 baud, 8 bits, no parity, and 1 stop bit. Commands are one or
two words followed by pressing Return. Commands may be given in upper or lowercase. Available commands are...
ACCESS USER:
HELP or ?:
LIST:
VER:
ENABLE 1 or 0:
GAINPCS ###:
GAINCELL ###:
GAINPAGE ###:
Required as a simple password to gain access to customer
settable parameters and diagnostics; This will time-out after 10
minutes, and may have to be re-typed.
Displays a list of Available Commands.
Displays Current Settings and Status Faults, Etc.
Display the current Version of Software.
Enables or Disables the Module.
Displays or Sets the PCS Transmit Gain (in tenths of a dB).
Displays or Sets the Cellular Transmit Gain (in tenths of a dB).
Displays or Sets the iDEN and Paging Transmit Gain (in tenths of
a dB).
Please consult Kaval Wireless Technologies for further support.
Printed: 03.06.19,16:02
Revision Date:6/19/03
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SatelLink z USER MANUAL
Laser Safety
Printed: 03.06.19,16:02
DCM000000052
•
Both the Head-End and Remote Modules have Class IIIb Laser Devices as
Fiber-Optic Transmitters.
•
Under normal installation both Modules are intrinsically-safe (Class I) since the
Fiber-Optic cabling will be installed.
•
Only qualified service personnel should remove / install the Fiber-Optic
cabling!
Revision Date:6/19/03
14
SatelLink z USER MANUAL
Antenna Installation
•
•
•
DCM000000052
All Antenna Installation to be performed by Qualified Technical Personnel only.
Antenna Installation Instructions and locations below are for the purpose of
satisfying FCC RF Exposure Compliance requirements.
The In-Building Antenna connection is via a coaxial cable distribution system
with Signal Taps at various points connected to the fixed-mounted Indoor
Antennae. This is shown in the figure in the Introduction. The Indoor Antennae
are simple 1/4 Wavelength (0 dB Gain) types. They are used with KAVAL
WIRELESS TECHNOLOGIES 12, 16, or 20 dB Cable Taps. As such the
maximum EIRP will be at the first Tapped Antenna, which will be 12 dB below
the maximum signal level of the LSU (+40 dBm); +28 dBm, or 0.63 Watts EIRP.
If multiple LSU Modules are used with output combiners, then the
composite power output of all Modules transmitting simultaneously must
meet this maximum EIRP requirement. Please consult Kaval Wireless for
assistance as required. These Antennae are to be installed such that no person
can touch the Antenna, or approach within 0.2 Meters.
ANTENNA INSTALLATION
WARNING
ALL ANTENNA INSTALLATION IS TO BE PERFORMED BY QUALIFIED
TECHNICAL PERSONNEL ONLY.
ANTENNA INSTALLATION INSTRUCTIONS AND LOCATIONS ARE FOR THE
PURPOSE OF SATISFYING FCC RF EXPOSURE COMPLIANCE
REQUIREMENTS, AND ARE NOT OPTIONAL.
ALL IN-BUILDING ANTENNAE INSTALLATIONS MUST BE SUCH THAT NO
PERSON CAN TOUCH THE ANTENNAE, OR APPROACH CLOSER THAN 0.2
METERS.
Printed: 03.06.19,16:02
Revision Date:6/19/03
15

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