Mercury Networks Q1000-25-5 Quantum 1000 Base Station User Manual

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Quantum 1000 Base Station
User Guide
Revision History
Rev
No.
1.0
Issue
Date
July 09
Summary of Change
Initial Draft
1.1
24 Jul 09
Significant Changes Added
Quantum 1000 Base Station User Guide
Author
Sajed Saeed
Steven Chaganis
Rev 1.1, Page 1 of 70
NOTICE
It is hoped that this document will be useful in understanding and using the PureWave System. Please
note that the information provided herein is subject to change without notice.
Always refer to the current set of Release Notes for the most upto date information and a description of
the current features as they relate to the PureWave system. These may be different to the information
contained within this User Guide.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 2 of 70
REGULATORY NOTICE
It is the intention of PureWave Networks to ensure that this equipment is tested to comply with the limits
for a class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However, there is no guarantee
that interference will not occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to ccorrect
orrect the interference by one or more of the following measures:
•
•
•
•
Re-orient
orient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
Consult the dealer or an experienced radio/TV technician for help.
Shielded cables and I/O cords must be used for this equipment to comply with the relevant FCC
regulations.
Changes or modifications not expressly approved in writing by PureWave Networks may void the user's
authority to operate this equipment.
Note:
This device must be professionally installed
installed.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 3 of 70
PROPRIETARY STATEMENT
© PureWave™ Networks, 2003-2007.
2007. All rights reserved. PureWave™ Networks has prepared this
manual
ual for use by PureWave Networks personnel, licensees, customers and customers of customers.
The information contained herein is the property of PureWave Networks and shall neither be reproduced
in whole nor in part without prior written approval from Pure
PureWave Networks.
PureWave Networks reserves the right to make changes without notice to the specifications and materials
contained herein, and shall not be responsible for any damages caused by reliance on the material
presented, including, but not limited to, typographical, arithmetic and listing errors.
WARRANTY STATEMENT
Hardware
PureWave Inc (“PureWave”” or the “Company”) warrants to the end
end-user
user (“Customer”) that this hardware
product will conform in all material respects to the specifications provided with the hardware and will be
free from defects in workmanship and materials, under normal use and ser
service,
vice, for a period of 365 days
from the date of original shipment by PureWave.
PureWave's sole obligation under this limited warranty shall be, at PureWave's option, to repair the
defective product or part, deliver to Customer an equivalent product or pa
part
rt to replace the defective item,
or if neither of the two foregoing options is reasonably possible, refund to Customer the purchase price
paid for the defective product. All products that are replaced will become the property of PureWave.
Replacement products
oducts may be new or reconditioned. PureWave's obligations hereunder are conditioned
upon the returned of affected articles in accordance with PureWave's Return Material Authorization
(RMA) procedures.
Subject to the limitations and conditions herein a
and
nd in the Supply Agreement, after Customer has
completed the steps outlined below in Section 2, PureWave will evaluate each returned Product and will
use reasonable commercial efforts to either, in its discretion, repair or replace products confirmed by
PureWave as non-conforming
conforming that are covered under the warranty provided in the Supply Agreement.
PureWave shall be responsible for shipping the repaired or replaced Product to Customer. PureWave will
use reasonable commercial efforts to ship repaired or rep
replacement
lacement Product within twenty (30) business
days of its receipt, however, the allegedly non
non-conforming
conforming Product must be received by PureWave before
any replacement unit will be shipped.
The above warranty will apply to any replaced or repaired product or part for 90 days from shipment, or
the remainder of the initial warranty period, whichever is longer.
Software
PureWave warrants to the Customer that for a period of ninety (90) days from your receipt of the Product
(the “Warranty Period”) the Software will perform substantially in accordance with the Documentation.
If the Software fails to comply with the warranty set forth above, your exclusive remedy will be, at the
option of PureWave (i) a reasonable effort by PureWave to make the Software perform substantially
su
in
accordance with the Documentation, or (ii) return of the purchase price. This limited warranty applies only
if you return all copies of the Product, together with proof of purchase, to PureWave during the Warranty
Period.
This limited warranty
anty is VOID if failure of the Software is due to modification of the Software not made by
PureWave, or the abuse or misapplication of the Software. PureWave does not warrant that the Software
is error free, that the Customer will be able to operate the So
Software
ftware without problems or interruptions or
that the Software or any equipment, system or network on which the Software is used will be free of
vulnerability to intrusion or attack.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 4 of 70
Additional Conditions
Notwithstanding anything else herein or otherwise, P
PureWave
ureWave reserves the right to establish amendments
to this RMA Policy from time to time. Further, PureWave Technical Support may prefer to troubleshoot
the wireless link with an onsite Customer technician while the Products are in their original nonnon
conforming
rming state. This process might assist Customer in understanding and troubleshooting the issue. If
PureWave was not afforded the opportunity to troubleshoot an allegedly non
non-conforming
conforming Product in
original non-conforming
conforming state, PureWave may approve or rej
reject
ect the RMA request in its sole discretion,
and such Products are not eligible for advance replacement.
No Fault Found
Notwithstanding Sections 2 and 3 above, if PureWave cannot duplicate any alleged non-conformity,
non
the
Product will be returned to the Customer,
tomer, at Customer’s expense, as "No Fault Found." PureWave
reserves the right to charge a testing fee in addition to all shipping costs incurred by PureWave in
connection with a returned product that PureWave determines as “No Fault Found,” and any such
payment must be received by PureWave prior to return shipment of the applicable Product to Customer.
Warranty Limitations
PureWave’s warranties do not apply to any product (hardware or software) which has (a) been subjected
to abuse, misuse, neglect, accident,
ident, or mishandling, (b) been opened, repaired, modified, or altered by
anyone other than PureWave, (c) been used for or subjected to applications, environments, or physical or
electrical stress or conditions other than as intended and recommended by Pur
PureWave,
eWave, (d) been
improperly stored, transported, installed, or used, or (e) had its serial number or other identification
markings altered or removed.
Warranty Disclaimer
PURWAVE’S SPECIFIC WARRANTIES SUMMARIZED ABOVE ARE THE ONLY WARRANTIES GIVEN
BY PUREWAVE
WAVE WITH RESPECT TO ITS PRODUCTS (HARDWARE AND SOFTWARE) AND ARE
GIVEN IN LIEU OF ANY AND ALL OTHER WARRANTIES, WHETHER EXPRESS, IMPLIED,
STATUTORY, OR ARISING BY CUSTOM, TRADE USAGE, OR COURSE OF DEALING, INCLUDING
WITHOUT LIMITATION ANY IMPLIED WARRANTI
WARRANTIES
ES OF MERCHANTABILITY OR FITNESS FOR A
PARTICULAR PURPOSE, AND PUREWAVE DISCLAIMS ANY AND ALL OTHER WARRANTIES TO
THE MAXIMUM EXTENT PERMITTED BY LAW. Without limiting the generality of the foregoing
sentence, PureWave makes no warranty or representation, either expressed or implied, as to, and
disclaims all liability and responsibility for, (a) the operation, compliance, labeling, or packaging of any of
its products under the laws of any jurisdiction outside of the United States of America and (b) the
regulatory
latory compliance of any products in any jurisdiction in which it has not specifically identified
compliance or the use of any product in any jurisdiction in any manner other than as contemplated in the
regulatory certifications and approvals for that prod
product
uct in that jurisdiction. To the extent an implied
warranty cannot be excluded, such warranty is limited in duration to the warranty period. The disclaimer
and exclusion applies even if the express warranty fails of its essential purpose.
OBTAINING WARRANTY SERVICE
RMA Number
Customer must contact the Company, by sending an e-mail to rma@pwnets.com to obtain warranty
service authorization. When contacting PureWave for support, please be prepared to provide the product
description and serial number and a description of the problem. The Customer will be expected to
complete a “Return Material Authorization (RMA)” form to initiate the request. Full instructions as to how
to complete and where to send the form are provided on the form. Date of proof of purchase from
PureWave will be required.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 5 of 70
Products returned to PureWave Inc must be pre
pre-authorized
authorized by PureWave with a Return Material
Authorization (RMA) number and sent prepaid and packaged appropriately for safe shipment. The
Customer requesting the
he RMA will be the exporter. The exporter is responsible to ship RMA equipment to
PureWave’s address and has to bear the cost and risk involved in bringing the goods to PureWave’s
PureWave
location.
Risk of loss in return shipment will be borne by Customer, and it is recommended that returned goods be
insured and/or sent by a method that provides for tracking of the package. Responsibility for loss or
damage does not transfer to PureWav
PureWave
e until the returned item is received by PureWave. Provided that
PureWave determines that the item is actually defective, the repaired or replaced item will be shipped to
Customer, at PureWave's expense, (1) not later than thirty (30) days after PureWave rreceives
eceives the
defective product or (2) to the terms of a separate written agreement with PureWave.
If the allegedly non-conforming
conforming Product is not received by PureWave within thirty (30) days of Customer
initiating the RMA request, the RMA process for that Product will be deemed cancelled.
RMA Status
Customer may also obtain the status of its RMA request by sending an e
e-mail to rma@pwnets.com and
referencing Customer’s assigned RMA Number.
Customer Obligations
No productt will be accepted for repair or replacement by PureWave without a RMA number. The product
must be returned to PureWave, properly packaged to prevent damage, shipping and handling charges
prepaid, with the RMA number prominently displayed on the outside of the container. If PureWave
determines that a returned product is not defective or is not covered by the terms of the warranty, the
Customer will be charged a service charge and return shipping charges
Out of Box Failure (OBF) / Dead on Arrival (DOA)
In the event a product becomes entirely inoperable within the first forty
forty-eight
eight (48) hours of the initial
installation of the product, and such installation takes place within ninety (90) days after the date of
shipment from PureWave, upon verification of the condition by PureWave, it will be considered as an “Out
Box Failure (OBF) or “Dead on Arrival (DOA). A replacement shall be provided by advance replacement.
The replacement product will be shipped within five (5) business days after PureWave's verification
verificat
of the
DOA product, subject to availability and other shipping restrictions. The shipment of advance replacement
products is subject to local legal requirements and may not be available in all locations.
When an advance replacement is provided and Cus
Customer
tomer fails to return the original product to PureWave
within fifteen (15) days after shipment of the replacement, PureWave will charge the Customer for the
replacement product, at list price.
Advance Replacement
In some unique situations, PureWave may consider, at its sole discretion on a case-by-case
case basis, an
advance replacement for a non-conforming
conforming Product during its warranty period.
The following conditions apply to advance replacements:
(i)
PureWave has a suitable “equivalent” replacement unit available
(ii)
Customer’s network is experiencing a severe degradation or a complete outage.
(iii)
Customer has complied with the RMA procedures provided herein
Quantum 1000 Base Station User Guide
Rev 1.1, Page 6 of 70
(iv)
(v)
Customer pays for all over
over-night
night shipping and handling charges for shipments to and from
PureWave and provides a credit card number and signed credit card authorization form to
secure the transaction (or, upon PureWave’s approval, an Order may be used to secure the
transaction and pay all associated charges)
When an advance replacement is provided and Customer fails to return the original product
to PureWave within fifteen (15) days after shipment of the replacement, PureWave will
charge the Customer for the replacement product, at list price.
PureWave will use reasonable commercial efforts to ship advance replacement Products within five (5)
business days after PureWave’s confirmation that advance replacement is appropriate. PureWave shall
not be responsible for shipping delays if any of conditions herein are not met.
Out of Warranty
Repair of products that are out of warranty will be subject to a repair fee. PureWave does offer extended
warranties and enhanced service options for its direct and indirect customers who desire those enhanced
features. Please contact a PureWave Customer Service Cen
Center
ter either by telephone or via the Internet if
you would like more information about these options
ASSISTANCE
For assistance, contact your nearest PureWave Networks Sales and Service office.
Additional information is available on the PureWave Networks w
website at http://www.pwnets.com.
http://www.pwnets.com
For Customer Service call: 650-528
528-5200, or Email: support@pwnets.com.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 7 of 70
SAFETY PRECAUTIONS
When installing this equipment, observe the following precautions to minimize the danger of personnel
pe
injury:
Danger:
•
NEVER install equipment if there is a chance of lightning or other adverse weather conditions.
•
NEVER install in a wet location unless the equipment is specifically designed for wet locations.
•
NEVER touch uninsulated wires or terminals unless the wire has been disconnected at the
Network interface.
•
ALWAYS use caution when installing or modifying cables.
ESD Warning:
WARNING: Always assume that all components and assemblies are static sensitive and always
•
follow local ESD-prevention
prevention guidelines to prevent equipment damage.
EXTERNAL POWER – SOURCE:
•
WARNING: For any external power supply that provides the power source for the PureWave
equipment, replace any power supply fuse with the same rating or equivalent, otherwise
PureWave Networks will not be responsible for any subsequent damage to its equipment.
•
Use normal caution when installing or modifying cables. Dangerous voltages may be present. It is
also considered imprudent to install during a lightning storm.
•
Always disconnect
connect all lines and power connections before servicing or disassembling this
equipment.
•
For performance and safety reasons, only power supplies listed for use with telephone equipment
by a Nationally Recognized Testing Laboratory (NRTL) should be used wi
with
th equipment.
•
Refer to the installation section of the appropriate instruction manual for the unit you are installing
for:
o Cabling information
o Proper connections
o Grounding information
•
All wiring external to the product(s) should follow the provisions of th
the
e current edition of the
National Electrical Code.
WARNING:
These units contain no user serviceable components. Only authorized Service Personnel should service
or repair these units. "Use only isolated Class 2 Power Source, Rated 48V dc 5.0A Minimum."
Quantum 1000 Base Station User Guide
Rev 1.1, Page 8 of 70
TABLE OF CONTENTS
1. Introduction ................................
................................................................................................
........................................... 10
1.1
Overview ................................
................................................................................................................................
..................................... 10
1.2
System Components ................................
................................................................................................
................................................... 11
1.3
Scope ................................
................................................................................................................................
.......................................... 12
2. Base Station ................................
................................................................................................
.......................................... 13
2.1
Overview ................................
................................................................................................................................
..................................... 13
2.2
Hardware ................................
................................................................................................................................
..................................... 14
2.3
MAC Software Architecture ................................................................................................
......................................... 15
2.4
Enclosure ................................
................................................................................................................................
.................................... 16
2.5
External Connections ................................
................................................................................................
.................................................. 18
2.6
Power ................................
................................................................................................................................
.......................................... 20
2.7
GPS ................................................................
................................................................................................
............................................. 23
2.8
Antenna ................................
................................................................................................................................
....................................... 24
2.8.1 Antenna Mounting Kit ................................
................................................................................................
.............................................. 26
2.9
Ethernet ................................
................................................................................................................................
....................................... 32
2.9.1
Weather Protection of the Ethernet Connector ................................................................
....................................... 34
3. Grounding and Lightning Requirements ............................................................
............................ 38
3.1
Lightning Protection Installation Components ................................................................
............................................. 38
3.2
Lightning Rod ................................
..............................................................................................................................
.............................. 39
3.3
Down Conductor ................................
................................................................................................
......................................................... 40
3.4
Co-axial
axial and/or Cat 5 Cable Shield Grounding ................................................................
........................................... 40
3.5
Grounding and Bonding ................................
................................................................................................
.............................................. 40
3.6
Recommended Connection of a Bonded Ground ................................................................
....................................... 40
3.7
Single Point Grounding Concept ................................................................................................
................................. 41
3.8
Lightning and Surge Protection ................................................................................................
................................... 42
4. Weather Protection ................................
...............................................................................................
............................... 46
4.1
Weather Sealing ................................
..........................................................................................................................
.......................... 46
4.2
Anti-Seize ................................
................................................................................................................................
.................................... 49
5. Base Station Bring-up ................................
...........................................................................................
........................... 51
5.1
Overview ................................
................................................................................................................................
..................................... 51
5.2
Connect to the Base Station ................................................................................................
....................................... 51
5.3
Configure the Base Station ................................................................................................
......................................... 52
Quantum 1000 Base Station User Guide
Rev 1.1, Page 9 of 70
1.
Introduction
1.1
Overview
PureWave Networks develops carrier
carrier-class
class WiMAX 802.16e compliant Base Station equipment.
PureWave’s use of advanced multi--antenna
antenna technologies with software radio architecture enables
delivery of quadruple-play
play services (voice, video, data, and mobility) tthat
hat are competitive with DSL and
Cable services. This equipment is the most spectrally
spectrally-efficient, range-extending,
extending, wireless broadband
metropolitan-area-networking
networking equipment in its class available in the world today.
The PureWave solution consists of four major elements:
•
PureWave Quantum 1000 Base Station Sector (BSS)
•
Subscriber customer premises equipment (CPE)
•
Quad Antenna panel
•
Element management system (EMS).
The Architecture Reference Model is shown in figure 1. The Base Station Sector supports the wireless
transfer of IP (Internet Protocol) packet data and communicates wirelessly to customer premise
equipment (CPE) terminals. The interface to the ASN
ASN-GW
GW (access service network gateway) adheres to
IETF RFCs, and Ethernet standards. The Element Managem
Management
ent System (EMS) supports operations,
commissioning and network performance and characterization functions.
The Quantum 1000 Base Station provides standard WiMax smart antenna support:
•
AAS processing (beam forming and null steering)
•
AMC-like subchannel assignments
The system uses advanced technology to realize exceptional performance gains:
•
Fast transmit/receive compensation necessary for channel reciprocity for mobility,
•
Complexity-reducing
reducing algorithms that allow more than 2 antennas per sector,
•
Processing
sing algorithms that virtually eliminate interference instead of beam steering algorithms
that provide limited benefits and do not scale to multi
multi-cell deployments, and
•
Flexibility to grow coverage by adding sectors in a compact and modular fashion.
A Quantum
tum 1000 Base Station Sector provides 8 times the spectral efficiency and significant link gain
relative to standard WiMax Wave-2
2 solutions.
The benefits are:
•
High capacity deployments using fewer channels,
•
Reduced or no cell planning,
•
Fewer base stations
ions are needed to cover a region, and
•
Improved user performance.
The base station is highly modular. The key comp
components
onents are power units, Linux processing card, network
processing cards, and RF modules for interfacing to available frequency bands. The Base
Ba Station
connects to multiple single-antenna
antenna units or a multi
multi-antenna radome.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 10 of 70
Figure 1 - Architecture Reference Model.
The base station is highly modular. The key components are power units, baseband processing cards,
and RF modules for interfacing to available frequency bands. The Base Station Sector connects to
multiple single-antenna
antenna units or a multi
multi-antenna radome.
1.2
System Components
The PureWave System is composed of a Base Station Sector (which is itself connected to an antenna or
antenna array) and subscriber stations (also known as customer premises equipment (CPE)), which
connect to each other through an air int
interface
erface (airlink) and to their respective networks (figure 2). Base
Station connect to their customer or provider networks, also known as backhaul networks, via a provider
interface, whereas CPE connect to their subscriber or user networks through a subscri
subscriber
ber interface.
Base Station have hardware, software, and mechanical characteristics that support their functional and
performance requirements. Base Station and CPEs interconnect with each other and their respective
networks via sets of network, MAC, and PHY protocols.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 11 of 70
Provider
(aka Customer)
Base Station Sector
Provider Interface
(Backhaul)
Subscriber Station
(CPE)
Base Station
Subscriber
(aka User)
CPE
Subscriber Interface
HW
Layers/
Protocols
Air Interface
(Airlink)
SW
Mechanical
Network
MAC
PHY
Figure 2 - General View of System Components
1.3
Scope
This document is intended to be used by wireless broadband installation engineers. It contains
information needed to install and connect a Quantum 1000 Base Station and Antenna Assembly
The Quantum 1000 Base Station Sector is designed to be “plug
“plug-and-play”
play” direct from PureWave
Networks; however, guidance is given as to how to assess general system integrity and operational
readiness upon initial power-up.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 12 of 70
2.
Base Station
2.1
Overview
The Quantum 1000 employs an extremely flexible and versatile hardware architecture. The heart of the
base station is a sophisticated and highly integrated ASIC that combines 6 DSP and general purpose
processor cores along with specialized
cialized DSP hardware. A Linux-based
based subsystem supports applications,
SNMP and other management functions. Finally,,the
,the Quantum 1000 includes 2 RF transmitters and
associated
ociated PAs, and 4 RF receivers (refer to figure 3).
Important characteristics of the Quantum 1000 Base Station Sector are:
•
•
•
•
•
Board-to-board
board communications for scaling up to 16 antennas.
10 MHz profile
WiMAX OFDMA compliance
All layers implemented in software.
2.3 – 2.7 GHz and 3.3 – 3.7 GHz operations.
PureWave has implemented a scalable architecture that lets service providers upgrade their Base
Stations by:
•
•
•
•
Adding more Base Station Sector to a location
Adding antennas (and corresponding RF module sets) within a sector
Adding processing capability in order to process traffic within additional spectrum
Upgrading software to allow for changes in features and standards.
Figure 3 - Base Station Functional Components
Quantum 1000 Base Station User Guide
Rev 1.1, Page 13 of 70
2.2
Hardware
This section describes
ribes the hardware characteristics for a Quantum 1000 Base Station Sector. Figure 4
shows the block diagram for the Base Station digital section.
DSP 1
Ethernet
DDR
DSP 2
DDR
Flash
Flash
DSP 3
DDR
Flash
Reference Clock
RF IF
DSP 4
RF IF
RF IF
RF IF
FPGA
DDR
Flash
RF IF
DSP 5
RF IF
RF IF
DDR
Flash
Figure 4 - Base Station Digital Block Diagram
Quantum 1000 Base Station User Guide
Rev 1.1, Page 14 of 70
2.3
MAC Software Architecture
Thiss section describes the high level software characteristics for a Quantum 1000 Base Station.
Figure 5 shows the block diagram for the Base Station software architecture.
Backhaul
BS
Daisychain
EMS
ASN Gateway
PureWave Quantum 1000
BASE STATION
Linux SBC
Modem EVK
PowerQuicc II
Eth-3
Intra-Mgmt
CPU
CORE
Eth-2
Linux
Intra-Mgmt
Eth-0
Quicc
Engine
MAC
BS-Mgmt
(External /
Opt. Data)
Eth-1
Data+R6
Ctrl +
GRE Data
UART 0
UART 2
PHY
SoC
Reset (GPIO)
Console
Status//Control
GPS Module
1PPS Sync
RF Tx
RF Rx
Figure 5 – High Level SW Architecture
The PureWave Quantum is an
n 802.16e WiMAX base station. It contains two major silicon devices, one
comprising the Network and Management processor (sometimes referred to as “the PowerQuicc or “the
Linux”), and the other comprising the baseband PHY and MAC processors. The Network Processor is
the system Manager and the baseband SoC (sometimes called the “Modem” or the “Modem”) is
essentially a high-powered
d signal processor. See Figure 3.
The Network Processor is based on a Freescale PowerQuicc II, which ccontains
ontains a standard PowerPC core
plus a “Quicc” engine for packet processing. The PowerPC runs Linux and hosts many highly complex
applications including an SNMP device management agent, multiple databases, web server, CLI, logging
and other system services.. The other SoC is a WiMAX baseband processor. It contains three ARM9
cores, four general Tensilica cores and a fifth tensilica
tensilica-based
based DSP core. Together these perform network
processing, MAC and PHY tasks. The ARMs run the ThreadX operating system; the other
oth cores do not
have a traditional RTOS.
The Network Processor connects to the external backhaul through a pair of gigabit Ethernet ports, and to
the Modem through two 100/1000MB
MB Gigabit Ethernet ports. These ports carry a mix of traffic and
management/control
ntrol messages. Various protocols carried over the two Ethernets link the applications,
including TCP/IP, UDP and custom Ethernet frames.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 15 of 70
2.4
Enclosure
The Quantum 1000 Base Station Sector is made up of a single, weather
weather-resistant
resistant cabinet with the overall
dimensions of: 24” W x 17”” H x 5” D (figures 6 and 7).
). The unit has 4 mounting “ears”, each one located
near a corner of the rear of the enclosure. Each “ear” will accommodate a M10 bolt. The mounting holes
are spaced 37cm apart (center-to-center),
center), horizontally, and 44.3cm apart, vertically (figures
(figure 8 and 9).
Figure 6 – Quantum 1000 Base Station Sector
Figure 7 - Pole Mounted Quantum 1000 Base Station Sector
Quantum 1000 Base Station User Guide
Rev 1.1, Page 16 of 70
Figure 8 - Quantum 1000 Base Station Sector Rear View
37cm
44.3cm
Figure 9 – Quantum 1000 Base Station Mounting Hole Pattern
The Base Station unit can be installed either as an entire outdoor unit (ODU) or as an entire indoor unit
(IDU). The antenna must always be installed outdoors.
Note: It is recommended that the Base Station Enclosure is mounted upright such that the
antenna N-type
type connectors face down towards the ground. Please ensure that there is adequate
air flow around the Base Station heatsinks (refer to figure 8).
Quantum 1000 Base Station User Guide
Rev 1.1, Page 17 of 70
Table 1 lists the mechanical, electrical and environmental properties of Quantum 1000 Base Station:
St
Physical & Environmental
Specifications
Dimensions
24.6” (H) x 17.4” (W) x 4.5” (D)
Weight
23 pounds
Power
-48V DC, 65 Watts
Temperature
-33 to +55 degrees C
Humidity
5 to 95% non-condensing
Surge Protection
UL497B
Lightning Protection
10kA IEC 6100-4-5
5 (optional via external kit)
Weatherproofing
IP67
Table 1 – Physical and Environmental Properties
2.5
External Connections
There are basically 4 types of connections that need to be made to the Base Station unit (see figures 10
and 11).
POWER
ANT 2
ANT 1
ANT 4
RS232
E-NET 1 E--NET 2
ANT 3
GND
GPS ANT
Antenna Section
Figure 10 - Base Station Connections (Bottom View)
Quantum 1000 Base Station User Guide
Rev 1.1, Page 18 of 70
Figure 11 - Base Station Connected
Once the Base Station enclosure has been mounted, the following connections must be made.
•
POWER:: Provides the DC power source for the Base Station unit.
•
GND: This provides a ground connection point for the Base Station. It is important to ensure that
the Base Station is professionally grounded and complies with all local relevant grounding
electrical codes.
•
GPS ANT: This port provides
ides the connection between the GPS antenna (external) and the GPS
receiver module (internal). GPS is used by the Base Station Sector to synchronize its TDD gate
to those of Base Stations in neighboring cells.
•
Station
n is physically connected to an antenna. The 4
ANT 1 – ANT 4: This is where the Base Statio
antenna ports are described as:
ANT 1: This is a transmit (Tx) and a receive (Rx) port.
ANT 2: This is a transmit (Tx) and a receive (Rx) port.
ANT 3: This is a receive (Rx) port only.
ANT 4: This is a recei
receive (Rx) port only.
•
RS232: This is the serial interface to the Base Station. This interface will be primarily used for
“out of the box” configuration and debug purposes when directed by PureWave Technical
Support Engineers.
•
E-NET 1: This Gigabit Ethernet port provides the data traffic backhaul interface that should be
connected to the Service Provider’s network equipment. This port allows in-band
band management of
the Base Station.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 19 of 70
•
E-NET
NET 2: This Gigabit Ethernet port provides an out
out-of-band
band management interface.
interf
In addition,
this port can be used for daisy
aisy chaining to another base station or to connect to an external
device such as a web Camera
Camera. The
he traffic coming from the daisy chain connector shall be
aggregated and passed through the backhauling connector
connector.
NOTE:
DO NOT POWER ON THE BASE STATION OR REMO
REMOVE THE BASE STATION POWER UNLESS THE
TWO TRANSMITTING ANTENNA
ENNA PORTS (ANT 1 AN
AND ANT 2) ARE EITHER TERMINATED BY A
SUITABLE RF LOAD OR AN ANTENNA. A FAILUR
FAILURE TO ENSURE THIS, AT ALL TIMES, COULD
RESULT IN INTERNAL
NAL DAMAGE TO THE BA
BASE STATION (FIGURE 12).
Figure 12 - Base Station Connected
Connect the two transmitting ports (ANT 1 and ANT 2) to the two outer most elements of the actual
antenna thus ensuring that the transmission paths are as far apart as possible on the 4 available antenna
ports.
It is also important that while the base sstation
tation is operating at maximum power levels, the transmitting
antenna ports remain terminated. Removal of the transmitter load while operating at high output powers is
not recommended and may result in damage to the base station.
2.6
Power
The Base Station DC power requirements is such that the external DC source needs to be capable of
delivering up to 4 Amps of current at -48 VDC. The Base Station nominally runs at approx 2 Amps at 48VDC. PureWave provides the power connector to the Base S
Station (Tyco P/N 796094-2)
796094 as part of the
Installation kit (figure 13).
The "Tyco"" power connector that is used on the Base Station will accommodate 14 to 18 gauge wire.
Remember to take account of the voltage drop when running long power cable runs. For example, for 18
AWG, for a cable length of 100
00 feet, a nominal 48VDC supply delivering into a 2A
A load will lead to a
voltage drop of 2.7 volts.
Please ensure that the DC power source is powered off and solder the -48
48 VDC wires to connector pins 1
and 2. Solder the 48 VDC Return wires to pins 3 and 4 (figures 14 to 16).
Quantum 1000 Base Station User Guide
Rev 1.1, Page 20 of 70
Figure 13 - Base Station Power Input Connector (Conxall P/N 4280
4280-5PG--300)
Figure 14 - Base Station Power Input Connector
Figure 15 - Base Station Power Input Connector
Quantum 1000 Base Station User Guide
Rev 1.1, Page 21 of 70
Figure 16 - Base Station Power Input Connector
The following table 2 indicates the connector pin
pin-outs.
Pin #
Signal
-48V DC
-48V DC
48v DC Return
48v DC Return
Table 2 – Power Pin-out connections
Figure 17 is an expanded view of the connector onto which is attached the actual cable of wires.
Figure 17 - Base Station Power Input Cable Connector Expanded View
Quantum 1000 Base Station User Guide
Rev 1.1, Page 22 of 70
2.7
GPS
This port provides the connection between the GPS antenna (external) and the GPS receiver module
(internal). GPS is used by the Base Station to synchronize its TDD gate to those of Base Stations in
neighboring cells. Connect the coaxial cable from the external GPS antenna to the SMA-type
SMA
female
connector marked “GPS” on the bottom right corner of the Base Station unit (refer to figure 18).
1 Typical
GPS antennas are shown in figure 1
19.
Figure 18 - Base Station Underside View of GPS Antenna Connection
Figure 19 - Typical Base Station Sector External GPS Antenna’s
Quantum 1000 Base Station User Guide
Rev 1.1, Page 23 of 70
No software pre-configuration
ration is required and all that is needed is to connect the Base Station to a GPS.
When the Base Station detects that a 1 pps GPS signal is present then it will synchronize its TDD gate to
the GPS and if it does not detect a 1 pps GPS signal then it will ssynchronize
ynchronize to its own internal source.
In the event that there are co-located
located multiple Base Stations, it is important to synchronize all the Base
Station to a 1 pps GPS such that this will co
co-ordinate
ordinate all Base Station to transmit and receive
concurrently. This is especially important if neighboring Base Stations are set to operate on overlapping
or identical frequency channels.
2.8
Antenna
A low-loss,
loss, coaxial cable has to be connected to each of the N
N-type
type female connectors located on the
back of the antenna panel and the respective antenna port on the base of the Base Station Sector. The
co-axial
axial cable must be capable of propagating the rel
relevant
evant RF frequency and therefore it is
recommended to use any high-performance,
performance, low
low-loss 400-series
series coaxial cable (i.e. Hyperlink
Technologies P/N CA3N100 or Times Microwave LMR 400).The order of antenna connections is
unimportant.
The important consideration
ation is the length of the co
co-axial
axial cable as this will affect the amount of signal loss
and thus effective range of the system. In the case that the Base Station unit is installed outdoors and
close to the antenna, then the co-axial
axial cable runs can be kept short and thus loss is minimized. If the
Base Station unit is installed indoors with long cable runs up the tower to the antennas then the amount of
signal loss will need to be calculated to ensure that adequate range will still be achieved. As an example,
a Times Microwave LMR400 cable has an attenuation loss of 6.8dB per 100 feet at a frequency of
2.5GHz.
For your information, the procedure to install co
co-axial
axial connectors is provided in Appendix A.
Note: It is strongly recommended that appropriate lightn
lightning
ing surge protection devices are
installed (refer to section 3). Please ensure that appropriate weather protection is applied to all
outdoor N-type
type coaxial connections.
One antenna panel is used for each Base Station. The antenna panel is populated with a number of
directional patch-element
element strips. All elements are enclosed within a single radome and common, rear
mounting plate. Access to each element (antenna) is provide
provided by a dedicated N-type
type female coaxial RF
connector. Thus, for a 4-element
element antenna panel configuration there are a total of 4 exposed RF
connectors protruding from the rear mounting plate (refer to figures 20 and 21).
The specifications for the 2.5GHz and
nd the 3.65GHz antenna’s are detailed in Appendix A.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 24 of 70
Figure 20 - Base Station Antenna
Figure 21 – Typical Antenna Deployment
The antenna panel will be mounted to a pole having an outer diameter (OD) between 1”” and 4”, via the
provided mounting kit.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 25 of 70
2.8.1 Antenna Mounting Kit
The procedure to install the antenna mounting kit is detailed below. It is recommended that that mounting
kit is attached to the antenna prior to hoisting up the tower.
Figure 22 is an illustration of the components that are included in the antenna mounting kit.
Figure 22 – Antenna Mounting Kit
1)
Lay down the antenna, designating which way is “up” (figure 2
23).
Figure 23 – Rear Antenna Face
Quantum 1000 Base Station User Guide
Rev 1.1, Page 26 of 70
2)
Take the large U-bracket
bracket with the cut-out
out clot and insert over the 4 bolts (figure 24).
2 Ensure that
the slot is pointed towards the bottom of the antenna. This is to allow for the angular
displacement.
Figure 24 – Attached U-brackets
3)
Tighten and secure the U-Brackets
Brackets using the appropriate nut (figure 25)
Figure 25 – Secure U-brackets
Quantum 1000 Base Station User Guide
Rev 1.1, Page 27 of 70
4)
Take the pole clamp section with the bolt hole and secure to the U
U-Bracket
Bracket using the bolt and lock
washer (figure 26).
). Secure a pole clamp section to each U
U-Bracket.
Figure 26 – Pole Clamp half section
5)
Depending on the intended angle of elevation and degree of down/up tilt will determine whether
to lock one end and have flexibility on the other. This is the intent of the slots. Figure 27
2 is for a
downtilting antenna and therefore the bottom bracket is ”fixed” and movement is allowed in the
upper bracket.
Figure 27 – Pole Clamp to U-bracket
Quantum 1000 Base Station User Guide
Rev 1.1, Page 28 of 70
6)
The other half of the pole clamp section can now be attached using the M4 by 25 bolts plus the
lock washer and lock nut (figure 2
28). These will be adjusted to provide the necessary clamp
depending on the thickness of the pole (figure 2
29).
Figure 28 – Pole Clamp half section
Figure 29 - Mounting Kit final assembly
Quantum 1000 Base Station User Guide
Rev 1.1, Page 29 of 70
7)
The final assembly can now be attached to the pole (figure 30).
Figure 30- Antenna Mounted to Pole
Diagrams that demonstrate the vertical angular displacement and a visual concept of how the antenna
can be aligned are outlined in figures 31 and 32.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 30 of 70
Figure 31 – Antenna Vertical Angular Displacement
Quantum 1000 Base Station User Guide
Rev 1.1, Page 31 of 70
Figure 32 – Antenna Alignment
2.9
Ethernet
This port allows remote command and control of the Base Station and also provides the data traffic
backhaul interface that should be conne
connected
cted to the Service Provider’s network equipment. The cable
connection is a straight-through
through 568
568-B standard as shown below in figure 33.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 32 of 70
Figure 33 – Ethernet 568-B Straight Connection
In the case that the Base Station is mounted outdoors care it is important to ensure that the following
points are followed.
1)
2)
3)
4)
5)
You must install an appropriate outdoor rated, shielded Category
Category-5
5 (Cat 5) 100 Mbps Ethernet
cable.
You must install a shielded outdoor rated metal RJ45 cable connector.
You must use shielded Cat 5
5e cables and make certain that the drain wire has a good contact
with the metal RJ-45
45 connector
A weatherized Ethernet connector backshell must be installed (Molex P/N 813969556) to weather
weath
protect the connector.
The maximum distance from the Base Station to the Service Provider’s network equipment is
limited to 100m.
One recommendation for an outdoor rated Cat 5 Ethernet cable is:
Name:
Descripton:
Manufacturer:
Distributor:
Commscope 2003 Cat 5e
Outdoor rated
rated, UV protection, shielded Cat 5e cable
Commscope
Anixter (http://www.
(http://www.anixter.com)
For your information, the procedure to install Ethernet connectors is provided in Appendix C.
Quantum 1000 Base Station User Guide
Rev 1.1, Page 33 of 70
2.9.1 Weather Protection of the Ethernet Connector
An IP67 compliant weather protection connector is provided along with the Base Station Sector. This will
provide the means to weather protect the RJ45 Ethernet connection.
Figure 34 is an illustration of the components that are includ
included
ed in the protection connector.
Figure 34 – Ethernet Weather Connection
Note: Please remember to install all the pieces of the connector onto the cable before the RJ45
connector is crimped.
The procedure to install the connector is given below. The instructions are provided assuming that one of
the ends of the cable is accessible and does not have a RJ connector fitted.
1)
Crimp the RJ45 connector to the cable (figure 3
35).
Figure 35 – Cable RJ45 Connector
Quantum 1000 Base Station User Guide
Rev 1.1, Page 34 of 70
2)
Take the plastic RJ45 holder and ensure that the rubber RJ45 cut out is stuck onto the RJ45
holder (figure 36)
Figure 36 – Plastic RJ45 Holder
3)
Pull the cable plus RJ45 connector through the RJ 45 holder and ensure that the RJ45 connector
is pulled tight into the holder. Ensure that the connector flap is locked in place (figure 37).
Figure 3
37 – Plastic RJ45 Holder plus RJ45 Cable
Quantum 1000 Base Station User Guide
Rev 1.1, Page 35 of 70
4)
Install the rubber ring around the cable and the other components as shown in figure 38.
Figure 38 – All Components Assembled
5)
Tighten the end cable locks and the assembly is complete (figure 3
39).
Figure 39 – Complete Assembly
Quantum 1000 Base Station User Guide
Rev 1.1, Page 36 of 70
6)
The assembly can now be attached to the Base Station Sector thus creating a weather protected
connection (figure 40).
Figure 40 – Complete Assembly connected to Base Station
Quantum 1000 Base Station User Guide
Rev 1.1, Page 37 of 70

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