Zinwave 2760 Zinwave 2700 Distributed Antenna System User Manual About this guide

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ZINWAVE 2700
DISTRIBUTED ANTENNA SYSTEM
USER GUIDE
Issue 3
Page 1 of 31
15/11/2006
Notices
© ZinWave Ltd. 2006
No part of this manual may be reproduced in any form or by any means (including
electronic storage and retrieval or translation into a foreign language) without prior
agreement and written consent from ZinWave Ltd. as governed by United Kingdom
and international copyright laws.
Edition
Issue 3, November 2006
Warranty
The material contained in this document is provided “as is,” and is subject to
being changed, without notice, in future editions. Further, to the maximum
extent permitted by applicable law, ZinWave disclaims all warranties, either
express or implied, with regard to this manual and any information contained
herein, including but not limited to the implied warranties of merchantability
and fitness for a particular purpose. ZinWave shall not be liable for errors or for
incidental or consequential damages in connection with the furnishing, use, or
performance of this document or of any information contained herein. Should
ZinWave and the user have a separate written agreement with warranty terms
covering the material in this document that conflict with these terms, the
warranty terms in the separate agreement shall control.
Technology Licenses
The hardware and/or software described in this document are furnished under a
license and may be used or copied only in accordance with the terms of such license.
Safety Notices
CAUTION A CAUTION notice denotes a hazard. It calls attention to an operating
procedure, practice, or the like that, if not correctly performed or adhered to, could
result in damage to the product or loss of important data. Do not proceed beyond a
CAUTION notice until the indicated conditions are fully understood and met.
WARNING A WARNING notice denotes a hazard. It calls attention to an
operating procedure, practice, or the like that, if not correctly performed or
adhered to, could result in personal injury or death. Do not proceed beyond a
WARNING notice until the indicated conditions are fully understood and met.
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Trademark Acknowledgements
Pentium ® is a registered trademark of Intel Corporation.
Adobe ® is a trademark of Adobe Systems Incorporated.
Windows XP, Windows 2000, and Windows 98 are U.S. registered trademarks of
Microsoft Corporation.
All other trademarks are the property of their respective holders.
Issue 3
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About this guide
This guide contains installation and operating instructions for the ZinWave 2700 Hub
(HU), as well as instructions for using the ZinWave 2760 Multi-service Antenna Unit
(AU).
This guide is one member of a comprehensive documentation set for the ZinWave
DAS. It is designed to provide you with a smooth, successful installation and set-up.
In addition to this guide, the documentation set includes:
•
2700 Software Manual—
•
Installation and Technical Manual—
•
System Design and Planning Guidelines (To be added later)
•
DAS Quick Basics—online tutorial that provides interactive training on how to
use the system. (To be added later)
•
Getting Started Poster—helps you quickly set up the hardware. You’ll find that
the steps on the poster correspond directly to the chapters in this book, making it
easy to know where to go for more information. (To be added later)
•
Online help—provides context-sensitive information for entries in each of the
views within the software, as well as in-depth information about the use of the
ZinConfig software. (To be added later)
Issue 3
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Contents
About this guide
1 Get Ready
Unpacking your boxes.
Before installing the software.
2 Installing the Software
What is on the CD.
Install the ZinConfig software.
Verifying your software installation. 9
3 Installing the Hardware
10
Installing the Hub
Installing the Antenna Units
10
10
4 Set Up Your System
11
Overview
How to connect the Hub
How to power your Hub
How to connect the Antenna Unit
How to power your Antenna Unit
How to connect Antenna Units to the Hub
5 Use Your System
16
Overview
Turning the power on
Command Line Interface
Starting the software
Identifying Hubs
Enabling the Ports
Configuring devices
Alarms
16
16
17
18
18
18
19
20
11
12
12
13
13
14
6 Get results fast
21
Using Quick Basics — the Online Tutorial
Online Help
Accessing Online Help
Using Online Help
21
21
21
21
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7 Get Assistance, if You Need It
Troubleshooting your 2700 system
Device communication problems
Verifying your System
Returning the System for Service
Warranty repair
Preparing the system for shipping
22
22
22
22
23
23
23
A Safety and Regulatory Information 24
Warning and caution notices
General safety considerations
Installation, Use, and Storage
Signal and input power
24
24
25
25
B Connection Panels and LED Indicators
2700 Hub (HU)
2760 Antenna Unit (AU)
26
26
26
C System Information
27
Computer Hardware and Software Requirements
Options and Part Numbers
Cable part numbers
System specifications
2700 Hub specifications
2760 AU specifications
27
27
27
28
29
29
D Glossary of terms
Abbreviations
Issue 3
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31
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1 Get Ready
Unpacking your boxes
The ZinWave 2700 system is a modular system so your delivery may arrive as a
collection of boxes. Carefully unpack each box and locate the following items:
Hub
2700 Hub (without optical modules fitted)
930x Mains lead
D-sub 9 way null modem cable.
RJ45 (cat 5e) path cord.
2780 SFP optical fibre transceiver modules (1 required for each active optical
port)
50Ω Dummy loads (optional)
SFP port EMC dust shields (if supplied)
CD containing software and documentation.
Quick start poster
Antenna Unit
2760 Antenna Unit
9370 AU Power supply unit (Optional)
930x Mains Lead (Optional)
Installation hardware kit
2781 SFP optical fibre transceiver module
Mains lead options
•
•
•
9301 – UK
9302 – European
9303 – US
Any damaged units should be returned to your supplier.
NOTE Do not connect any hardware at this stage.
Before installing the software
Once you have identified your delivered items and before connecting any hardware
or installing any software, check you have these items:
•
A PC that meets the minimum requirements
Refer to “Computer Hardware and Software Requirements" on page 27
If you are unclear about any items you have received, please contact us as soon as
possible.
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2 Installing the Software
What is on the CD (To be released latter)
•
•
•
•
•
•
ZinConfig software
Operation and Maintenance software
Release Notes
User Guide
Technical Manual
Adobe Reader
NOTE It is recommended that you read the Release Notes before you install the
software.
The Release Notes include information that may not appear in this guide. It also lists
all the new features and enhancements made since the last released version.
Install the ZinConfig software.
Follow these steps.
1 Insert the ZinWave CD. This CD contains the required configuration software.
2 Your system may have autostart or go to the Start button, click Run and type
D:\setup (where D is your CD drive). The installation dialog box appears (see below).
3 Select View and read the ZinWave Release Notes before installing.
These notes provide additional information that may not be covered in this guide.
4 Select Install next to the ZinConfig Software option.
5 Follow the installation instructions. Select the Custom Install option if you wish to
install tutorials.
Once the installation has completed you are returned to the installation dialog box.
If you have installed the options you require, select Quit to close the installation
screen.
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Verifying your software installation
To launch ZinConfig double click on the desk top icon or click Start
>Programs>ZinConfig.
Figure 4 below shows the default view with no devices connected.
Figure 4
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3 Installing the Hardware
Hub Installation
Mount the Hub onto the rack in the assigned equipment cabinet using the four
screws supplied. (Figure 6) Firmly hand-tightening the screw is adequate. If the Hub is
be shelf mounted ensure that the rubber feet supplied are in place to prevent
blocking the ventilation holes on the underside.
Figure 6
CAUTION For air circulation, be sure to leave at least 25mm (one inch) space
between hubs and any other equipment. If mounting a hub on the rack’s bottom
shelf, also leave at least 25mm (one inch) clearance from the bottom.
Antenna Unit Installation
Mount the Antenna unit following the system plan in the assigned location using the
supplied hardware and appropriate wall fixings. Allow space above and below the
unit for adequate ventilation and to accommodate the minimum bend radius for the
coax and fibre cables according to Figure 7.
CAUTION The antenna unit and associated antennas must be installed at a
distance of greater than 20cm away from the proximity of operators and intended
operation.
Figure 7
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4 Set Up Your System
Overview
This chapter explains how to connect and set up the hardware that forms your 2700
system.
The ZinWave 2700 DAS is a simple 2-stage DAS, utilising either multimode optical
fibre (MMF) or Singlemode optical fibre (SMF) to connect the two system units
together.
The ZinWave 2700 DAS unifies the distribution of multiple cellular and WLAN signals
over a single cabling infrastructure and supports current and future wireless
technologies. Initial support is provided in the frequency range 370 -2500 MHz which
covers the following services: TETRA, GSM, CDMA, TDMA, UMTS, iDEN, WLAN
(IEEE 802.11b/g), LMR, SMR, Paging, DCS, EDGE, EVDO, DECT.
The programmable RF combiner within the ZinWave 2700 Hub Unit enables a wide
variety of “RF to antenna” mappings and provides the flexibility to move/add capacity
as needed within the building without the need to change the deployed antenna
devices.
Only one RF source and Antenna Unit connection is shown for clarity.
Laptop PC
Null Modem Cable
100 – 250 VAC
Radio / Wireless
Base station
RF 2
RF 1
SFP 1
Hub
RF 3
RF 4
Patch cord
Installed fibre
48 VDC
Patch cord
AU
TX
RX
Figure 8
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How to connect the Hub
Ensure that the ON/OFF switch is in the OFF (O) position before you connect the AC
power cord to the Hub. (Figure 9) Plug the power cord into an outlet providing AC
Power (100-250VAC, 50-60Hz)
Figure 9
Connect the PC RS232 port or external serial adaptor to the Hub Serial port using
the D-sub 9 way null modem cable. Finger tighten the screws. Connect the PC LAN
port to the Hub Ethernet port using the supplied RJ45 (cat 5e) path cord. (Figure 10)
Figure 10
Connect the WLAN Access Point, BTS or Repeater to the RF ports on the rear panel
of the Hub. (Figure 11)
Figure 11
CAUTION When connecting to the SMA connector on the Hub, DO NOT over tighten
the connector. Use a dedicated torque wrench pre-set to 0.8 to 1.1 Nm. If a torque
wrench is not available, firmly hand-tightening the connector is adequate.
NOTE All un-used RF ports should be terminated with a 50 ohm load.
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How to connect the Antenna Unit (AU)
Connect the antennas, using the coax cables, to the corresponding ports on the AU.
Figure 12
CAUTION When connecting to the SMA connectors on the Antenna Unit, DO NOT
over-tighten the connectors. Use a dedicated torque wrench pre-set to 0.8 to 1.1 Nm. If a
torque wrench is not available, firmly hand-tightening the connector is adequate.
Connect DC Power to the AU. This can be either an external 48 V DC PSU (Figure 13) or
by Power over Ethernet (Figure 14). The green power LED on RJ45 socket should be
illuminated when power is applied to the unit.
Figure 13
Figure 14
CAUTION Connecting more than one source of power at a time to an AU can cause
permanent damage to the unit.
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How to connect Antenna Units (AU) to the Hub (HU)
CAUTION Electrostatic discharge (ESD) preventative measures (i.e. wrist straps, use
of ESD protective bags) should be taken when storing, transporting and handling
SFPs as voltages in excess of 50V can cause damage to the device.
Hold the SFPs by the metal body and insert it into the designated HU and AU optical
slots. An audible click can be heard when the SFP is fully latched. Ensure that the
de-latch bail is in the upright position.
Figure 15
Removal of the SFP is achieved by extending the de-latch bail and pulling it away
from the unit.
Figure 16
Remove the protective end caps and connect the patch cord between the SFP on the
HU (Figure 11) and the local end of the Installed Fibre and between the remote end
of the Installed Fibre and the SFP on the AU. (Figure 12)The optical connectors are
keyed and care must be taken when inserting them.
Figure 17
Figure 18
NOTE Using patch cords other than those specified by ZinWave can affect the
overall performance of the system.
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5 Use Your System
Overview
This chapter tells you how to start configuring and using your system.
Prepare your PC
Turn on your PC and set the Network connection TCP/IP properties to: static ip
address and enter the corresponding subnet mask and default gateway.
Turning the power on
Power up the Hub by moving the power switch from position O to position I. The Hub
will perform a self test during which all LEDs will be illuminated in a set sequence.
This may take several seconds at the end of which the power LED on the front panel
should remain lit (green)
Figure 19
CAUTION
Before switching on the Hub, ensure that the supply voltages are in the specified ranges.
Refer to “System Information" on page 30.
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Command Line Interface (CLI)
This interface is in the form of an RS232 interface. This uses the following settings:
57600 Baud, 8 Data Bits, 1 Stop Bit, No Parity and no flow control.
This interface uses keywords in a fairly natural way to enter data. The interface is
driven by commands entered and edited on a single line, each command consisting
of a command mnemonic followed by a number of command parameters.
Commands are entered in lower or uppercase, or a mixture of the two. Command
lines are executed by pressing the Carriage Return () or Enter key of the
attached terminal. Up to this point, the Delete or Backspace key can be used to
delete the character to the left of the cursor position.
Using an RS232 terminal (e.g. HyperTerminal) open a connection to the HU over the
serial interface
The ‘help’ or ‘?’ command displays a list of available commands.
The ‘reboot’ or ‘rst’ command causes the Hub to restart after a short delay.
The ‘default’ command resets all configuration settings other than the MAC address
to factory default values. The unit must be restarted to use the new defaults.
The ‘config’ command configures the Hub. All of these values are stored in nonvolatile memory and are preserved across power on/off cycles. The Username
 and password  can be up to 19 characters long. If the IP address is
set to 0.0.0.0, the Hub will use the DHCP protocol to fetch this address from a DHCP server.
The ‘config>’ command will display the current settings.
Command format:
config  
config  
Attaching Antenna Units (AU) to a Hub (HU)
An AU is attached to an HU via a fibre cable. The fibre carries both RF signals as
well as signals to control and configure the AU. An AU initially has no knowledge of
any HU and nor does the HU have any knowledge of the AU. So a procedure has to
be followed to attach the AU to the HU:Using an RS232 terminal (e.g. HyperTerminal) open a connection to the HU over the
serial interface
1. Ensure that all AU are connected to the Hub.
2. Use the ‘discover ‘ command.
3. All AU port and MIDs will be displayed.
4. Select the new AU with the ReID command e.g. reid au1 This will display the
current settings for AU1.
5. Exit CLI.
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Starting the software
To launch ZinConfig double click on the desk top icon or click Start
>Programs>ZinConfig.
Identifying Hubs
Enter the start and end IP address range of the attached Hubs and click on the “Find
Hubs” button. All attached Hubs should now be displayed showing their IP address
and description. Selecting a Hub from the list will reveal its settings. (Figure 20)
Figure 20
If the attached AU are not displayed, follow the procedure for attaching an AU using
the Command Line Interface (CLI)
Enabling the Ports
Active ports will be shown green, inactive ports will be grey and red indicates an
alarm condition. Ports can be enabled/disabled by right clicking on the SFP and
selecting the required option from the pop up list. (Figure 21)
Figure 21
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Configuring devices
The uplink (UL) and downlink (DL) attenuation for the Hub and AU can be selected
using the drop down lists. The AU Uplink AGC (ULAGC) and the Downlink AGC
(DLAGC) are enabled by ticking the respective boxes. Click on the “Send Changes”
button to implement the changes. (Figure 22)
Figure 22
RF1 port is connected to SFP/AU port 1 & 2, RF2 to port 3 & 4, RF3 to port 5 & 6 and
RF4 to port 7 & 8.
RF ports 1 & 2 can be cross-connected simultaneously to SFP ports 1, 2, 3 & 4 by
ticking the DC2x2 box. RF 3 & 4 can be cross-connected in the same manner to SFP
ports 5, 6, 7 & 8.
Ticking the DC4x4 box will cross-connect all four RF ports to all eight SFP/AU ports.
Figure 23
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Alarms
A red SFP indicates that an alarm is present. The nature of the fault can be
investigated by right clicking on the red SFP and selecting Alarms from the pop-up
list. (Figure 24)
Figure 24
A box will appear displaying the cause of the alarm. (Figure 25)
Figure 25
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6 Get results fast
Using Quick Basics — the Online Tutorial
(To be added later)
Online Help
(To be added later)
Accessing Online Help
(To be added later)
Using Online Help
(To be added later)
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7 Get Assistance, if You Need It
Troubleshooting your 2700 system
Hub and Antenna Unit LED Indicators
Main Hub (HU)
Green
Power
LED
Off
On
On
Red
Fault LED
Off
Off
On
Green
Status
LED
Red
Fault LED
Off
Off
On
Off
Off
Off
Flashing
Off
Off
On
Green
Status
LED
Green
Power
LED
Off
On
Off
On
Flashing
Off
On
On
Condition
No power to unit
Unit operational
Fault
Green
System
LED
Off
On
Off
Main Hub optical port
Condition
No SFP in port
Port disabled
Port operational
Data activity /
communicating
Fault in Fibre or AU
Antenna Unit (AU)
Condition
No power to unit
Unit operational
Data activity /
communicating
Fault in Fibre or Hub
Device communication problems
•
•
•
•
•
The Hub or a device connected to a serial port is not powered on.
The Hub has a defective interface cable.
The serial port has no device connected to it.
The Hub is communicating at the wrong baud rate.
The Hub itself is defective.
Verifying your System
O & M Tool (To be added later)
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Returning the System for Service
Contact equipment vendor.
Warranty repair
Contact equipment vendor.
Preparing the system for shipping
Use suitable packaging to same standard as original packaging. Include Returns
Material Authorisation (RMA).
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A Safety and Regulatory Information
Warning and caution notices
Overview
This appendix contains important warnings and cautions for hardware products that
comprise the 2700 DAS system.
WARNING If this product is not used as specified, the protection provided by
the equipment could be impaired. This product must be used in a normal
condition (in which all means for protection is intact) only. No operator
serviceable parts are inside this system. Refer servicing to an authorised
ZinWave Ltd service center. To prevent electrical shock, do not remove the
covers.
NOTE 2700 Hub unit. This device complies with Part 15 of the FCC rules.
Operation is subject to the following conditions:
This device may not cause harmful interference, and
The device must accept any interference received, including interference that
may cause undesired operation.
Changes or modifications not expressly approave by Zinwave Ltd could void
the user’s authority to operate the equipment.
NOTE 2760 Antenna Unit. This device complies with Part 22, Part 24 and Part
90 of the FCC rules. Changes or modifications not expressly approved by
Zinwave Ltd could void the user’s authority to operate the equipment.
General safety considerations
The installation of electrical supplies in support of ZinWave 2700 DAS products shall
be in accordance with national and local regulations.
Other aspects of the installation of ZinWave 2700 DAS products and interconnecting
cabling shall be in accordance with the following standards:
Cabling installation
•
EN 50174 series: Information technology – Cabling installation
Optical safety:
IEC 60825-2: Safety of laser products - Part 2: Safety of optical fibre
communication systems (OFCS).
•
CAUTION TThis equipment complies with FCC radiation exposure limits set forth for
an occupational/ controlled environment. This equipment should be operated with
a minimum distance of 20cm between radiator and your body.
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Optical Safety Precautions
•
•
•
•
•
•
•
Issue 3
Do not stare with unprotected eyes at the connector ends of the fibre or the
ports of the SFP. Do not remove the Fibre Port dust covers unless the port is
in use. Do not stare directly into a Fibre Port.
Cover any unconnected fibre ends with an approved cap.
Do not stare with unprotected eyes at any broken ends of the fibre.
Use only approved methods for cleaning optical fibre connectors.
Do not make any unauthorised modifications to this fibre optical system.
No warning signs are required as it is a Class 1 hazard.
Use Class 1 test equipment.
Page 25 of 31
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Installation, Use, and Storage
The ZinWave 2700 DAS is designed to operate in conditions conformant with
Pollution Degree 2 as defined in IEC 60950 (the normal environmental class for
offices).
The installation of sub-assemblies into the main units of the ZinWave 2700 DAS shall
only be undertaken if precautions required by IEC/TS 61340-5-1 have been taken.
This covers:
•
the installation of Zinwave 2780 SFP optical fibre transceiver modules into the
ZinWave 2700 Hub;
•
the replacement of the Zinwave 2781 SFP optical fibre transceiver modules in the
ZinWave 2760 Antenna Unit.
WARNING CLASS I PLUGGABLE EQUIPMENT TYPE A as defined in IEC
60950. This equipment is intended for connection to other equipment or a
network, relies on connection to protective earth and must be connected to an
earthed mains socket-outlet.
Country specific warnings:
Finland "Laite on liitettävä suojamaadoituskoskettimilla varustettuun pistorasiaan "
Norway “Apparatet må tilkoples jordet stikkontakt”
Sweden "Apparaten skall anslutas till jordat uttag"
Signal and input power
CAUTION The input power to the ZinWave 2700 Hub should not exceed +10 dBm.
Power levels greater than +20 dBm will damage the unit.
CAUTION The total broadband composite output power is limited to +6dBm for the
US market.
Storage
Storage Temperature Range: -25ºC to +55 ºC
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B Connection Panels and LED Indicators
Overview
This appendix contains information about the panel connectors and LED indicators of
the Zinwave 2700 Hub and 2760 Antenna Unit.
2700 Hub (HU)
Front View
Rear View
2760 Antenna Unit (AU)
End View
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C System Information
Overview
This appendix provides you with hardware specifications, options, and part numbers
for the following.
2700 Hub
2760 Antenna Unit
Cables
Computer Hardware and Software Requirements
The following are the recommended minimum computer requirements:
•
•
•
•
•
•
•
•
300 MHz Pentium processor or higher
256 MB of RAM or higher
Windows 2000 or XP operating system
1 RS-232 DB9 serial port or external serial adaptor
Ethernet port
10 Gigabyte hard drive or higher
800 x 600 display resolution
CD-ROM drive (for software installation)
Options and Part Numbers
(To be added later)
Cable part numbers
(To be added later)
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System specification
Channel transmission performance
Parameter
Symbol
Input impedance
R_in
Value
Min.
Nom.
Unit
Comments
Ohms
At HU service & AU uplink inputs
Max.
50
Output impedance
R_out
Ohms
At HU service & AU downlink outputs
Operating Temperature Range
T_op
50
+55
°C
Ambient, non-condensing
Channel length - MMF
L_fmm
550
50/125 µm, 62.5/125 µm1
dB
@ 1300 nm
L_fsm
2000
dB
@ 1310 nm
TX-RX Isolation2
Is,TX1-RX1
30
dB
HU service input to service output (same
service)
TX-RX Isolation2
Is,TX1-RXn
70
dB
HU service input to any other service
output
TX-TX Isolation2
Is,TX-TX
70
dB
HU service input to any other service
input
Antenna Isolation
Is,ant
35
dB
AU antenna output to AU antenna input
Channel insertion loss - MMF
Channel length - SMF
Channel insertion loss - SMF
NOTE 1: Minimum modal bandwidth @ 1300 nm = 500MHz.km. Reduced channel lengths/insertion loss values may be supportable for lower modal
bandwidth options following detailed analysis by ZinWave.
NOTE 2: At max HU RF input power, max AU RF output power, maximum uplink noise figure and for any RF combiner distribution
Downlink RF parameters
Parameter
Symbol
Value
Min.
System Bandwidth
370
RF input power
P_in
-5
RF output power
P_out,max
Nom.
Unit
Comments
Max.
2500
MHz
+10
dBm
At HU service input with 14dB peakaverage-ratio
+6
dBm
Broadband rms composite power at AU
antenna output
VSWR
1.5:1
Return loss
14
dB
Response variation
dg,full
-5
+5
dB
Full bandwidth
Response variation
dg,200kHz
-1
+1
dB
Any 200kHz band
Response variation
dg,100MHz
-2
+2
dB
Any 100MHz band
Unit
Comments
Uplink RF parameters
Parameter
Symbol
Value
Min.
System Bandwidth
Nom.
370
RF input power
Max RF output power
P_out,max
-20
Max.
2500
MHz
-15
dBm
Input gain adjustment for minimum
coupling loss
dBm
At HU service output for 1dB compression
with maximum AU input power
-10
Response variation
dg,full
-5
+5
dB
Full bandwidth
Response variation
Dg,100MHz
-2
+2
dB
Any 100MHz band
Response variation
dg,5MHz
-1
+1
dB
Any 5MHz band
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ZinWave 2700 Hub Unit physical parameters
Parameter
Symbol
Value
Min.
Nom.
Unit
Max.
Height
44/1.8
mm/in
Width
445/17.5
mm/in
Depth
270/10.6
mm/in
Weight
3.5
Mains power voltage
100
Mains power frequency
50
Mains power consumption
Comments
kg
250
VAC
60
Hz
15
Mains power interface
IEC Socket
RF interfaces
SMA connectors (separate Tx and Rx
providing 4 RF I/O pairs)
Using ZinWave 2780 SFP modules
IEC 60603-7 (RJ-45)
100BASE-T
9-pin D connector (RS232 - CLI)
Optical interfaces
Control interfaces
Control interfaces
Temperature - operating
+55
Temperature - storage
-25
+55
ZinWave 2780 optical fibre transceiver module physical parameters
Parameter
Symbol
Value
Unit
Min.
Nom.
Max.
Optical interfaces
Temperature - operating
+55
Temperature - storage
-25
+55
Weight
Comments
kg
IEC 61754-20 (LC-Duplex)
ZinWave 2760 Antenna Unit physical parameters
Parameter
Symbol
Value
Min.
Nom.
Unit
Height
215/8.5
mm/in
Width
130/5.1
mm/in
Depth
45/1.8
mm/in
Weight
0.75
Power supply voltage
40
Power supply frequency
kg
48
DC
Power consumption
Comments
Max.
Power supply interface
AC/DC
LEMO
Power supply interface
(IEEE 802.3af)
IEC 60603-7 (RJ-45)
RF interfaces
SMA
Optical interfaces
IEC 61754-20 (LC-Duplex)
Temperature - operating
+55
Temperature - storage
-25
+55
Issue 3
Page 30 of 31
15/11/2006
D Glossary of terms
Abbreviations
2G
3G
AGC
AP
AU
CDMA
CEN
CENELEC
CISPR
CLI
DAS
dB
dBm
DCS
EDGE
EMC
EN
ESD
ETSI
EVDO
FCC
GSM
HU
Hi-conn
iDEN
IEC
LMR
MMF
R&TTE
RF
RMA
Rx (RX)
SFP
SMF
SNMP
TDMA
TETRA
Tx (TX)
UMTS
VSWR
W-CDMA
WLAN
Issue 3
2nd Generation
3rd Generation
Automatic Gain Control
Access Point
Antenna Unit
Code Division Multiple Access
European Committee for Standardization
European Committee for Electrotechnical Standardization
Comite International Special des Perturbations Radioelectriques
Command Line Interface
Distributed Antenna System
Decibels
Decibels referenced to one milliwatt
Digital Cellular System
Enhanced Data rates for GSM Evolution
Electromagnetic Compatibility
Euronorm (European Standard)
Electro Static Discharge
European Telecommunications Standards Institute
Evolution-Data Optimized
Federal Communications Commission
Global System for Mobile Communications
Hub Unit
High concentricity
integrated Dispatched Enhanced Network
International Electrotechnical Commission
Land Mobile Radio (US Department of Defense)
Multimode optical fibre
Radio and Telecommunication Terminal Equipment
Radio frequency
Returns Material Authorisation
Receiver
Small Form Pluggable
Singlemode optical fibre
Simple Network Management Protocol
Time division multiple access
Terrestrial Trunked Radio
Transmitter
Universal Mobile Telecommunications System
Voltage Standing Wave Ratio
Wideband - Code division multiple access
Wireless Local Area Network
Page 31 of 31
15/11/2006

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