Teko Telecom Srl LOWPOWER6 OPTICAL SYSTEMS User Manual

Teko Telecom Srl OPTICAL SYSTEMS

User Manual

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SIRIUS: Teko Telecom Modular Coverage and Capacity System
TECHNICAL HANDBOOK
Doc ID Number 91 080 0781 - Rel. 02
english
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BOLOGNA, 11/10/2010
UPDATINGS:
Rel. 02 (11/04/2011)
.........................................
.........................................
Document Identication Number
91 080 0781 – Rel. 02
SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Table of Contents
1. Teko Telecom Modular Coverage and Capacity System - General Description ............... 9
1.1 Components ..........................................................................................................................10
1.1.1 Modules providing the RF interface towards the signal source ......................................12
1.1.2 Equipment extending coverage / distributing capacity ..................................................... 19
1.1.3 Modules providing the optical interface towards Remote Units .................................... 22
1.1.4 Passive Modules providing distribution and ltering .........................................................29
1.1.5 Modules for the management of the System ......................................................................... 34
1.1.6 Power Supply Modules ................................................................................................................... 39
1.1.7 Subracks hosting the System modules ..................................................................................... 41
1.1.8 Forced-air cooling Subrack ............................................................................................................ 43
1.2 Coverage and Capacity Solutions ......................................................................................44
1.2.1 Modular O-air Repeaters - General description .................................................................. 44
1.2.2 Optical Systems - General Description ...................................................................................... 47
A Master Unit ...........................................................................................................................................47
B Remote Units .......................................................................................................................................53
1.2.3 Coverage Systems Management and Power Supply ........................................................... 61
1.2.4 Teko Telecom Coverage Systems Technical Specications ................................................ 65
2. System Installation ...................................................................................................................68
2.1 Mechanical Installation .......................................................................................................69
2.1.1 Positioning Master Unit Subracks ............................................................................................... 71
2.1.2 Positioning Remote Units .............................................................................................................. 72
2.2 Connections ...........................................................................................................................74
2.2.1 RF Connections .................................................................................................................................. 75
2.2.2 RS485 Connections ........................................................................................................................103
A Connecting monitored subracks mounted within the same rack hosting the
Master subrack ........................................................................................................................................104
B Connecting remote monitored subracks ................................................................................105
2.2.3 Optical Connections ......................................................................................................................106
A Connecting Master Unit to Remote Units ...............................................................................107
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B Connecting Master point to point Modules to Slave point to point Modules ..........109
2.2.4 Power Supply Connections .........................................................................................................110
A Active Subracks Power Supply Connection ...........................................................................111
B Remote Units Power Supply Connection and Alarms Connection ................................114
2.3 Power-Up ..............................................................................................................................117
3. System Commissioning ..........................................................................................................119
4. Preventive Maintenance ........................................................................................................121
4.1 Optical Fibres .......................................................................................................................121
4.2 Remote Units .......................................................................................................................121
4.2.1 Remote Units with passive cooling system (natural convection - fan unit not
equipped) ......................................................................................................................................................121
4.2.2 Remote Units with active cooling system (equipped with the fan unit) ....................121
5. Troubleshooting ......................................................................................................................124
5.1 Troubleshooting procedures ............................................................................................128
5.1.1 Active RF Interface Modules .......................................................................................................128
A Digital Donor Front End module - MU-DFE ............................................................................128
B Point of Interface module with remote controlled attenuators- TAPOI .......................132
5.1.2 Modules for the management of the System .......................................................................133
5.1.3 Power Supply Modules .................................................................................................................134
5.1.4 Modules providing the optical interface towards Remote Units ..................................135
A Fiber Optic Transmitter/Receiver modules - MU-OTRX ......................................................135
B Master and Slave Point to Point modules - MU-PTP ............................................................137
5.1.5 Equipment extending coverage/ distributing capacity ....................................................141
A Service Front End Subrack ............................................................................................................141
B Very High/High/Medium power Remote Unit .......................................................................142
C SFE Subrack / Very High/High/Medium power Remote Unit ampliers ......................145
D Very High/High/Medium power Remote Unit modules ...................................................147
E Single/Dual/Triband Low power Remote Unit ......................................................................150
F 6-band Low power Remote Unit ................................................................................................154
5.1.6 Forced-air cooling subrack ..........................................................................................................159
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5.2 Flow charts ...........................................................................................................................160
5.2.1 Received Optical Power out of range - Uplink path ...........................................................161
5.2.2 Received Optical Power out of range - Downlink path ........................................................162
5.3 Replacement Instructions .................................................................................................163
5.3.1 Replacing the fan unit ...................................................................................................................163
5.3.2 Replacing plug-in modules .........................................................................................................164
5.3.3 Extracting guide rails for plug-in modules from active subracks ..................................164
5.3.4 Cleaning optical connectors ......................................................................................................165
Attached Documents
Safety Rules
Standards
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Initial Notes
Declaration of Conformity (*)
According to Directive 1999/5/EC (R&TTE)
We TEKO TELECOM hereby declare that the products described in this technical handbook are manufactured by TEKO TELECOM S.p.A. Via
Meucci, 24/a 40024 Castel S. Pietro Terme (Bologna) – ITALY. All the above cited products are compliant with the essential requirements of
article 3 and other relevant provisions of the Radio & Telecommunications Terminal Equipment Directive, n.1999/5/EC, when used for their
intended purpose: improving coverage of mobile communication networks.
Castel S. Pietro Terme (Bologna) – ITALY
Legal representative
Teko Telecom S.p.A.
a Socio Unico
(*) A signed copy of the conformity declaration is available upon request. Please get in touch with our after sale service, lling in the form on
line at the following Internet address: www.tekotelecom.it
Note relevant to product utilization within the European Union (EU)
Its under users own responsibility to verify to be compliant to the National provisions or authorisations required.
For further information refer to: http://ec.europa.eu/enterprise/sectors/rtte/index_en.htm
EU directive 2002/96/EC – WEEE (Waste Electrical and Electronic Equipment)
This product complies with the EU directive 2002/96/EC – WEEE (Waste Electrical and Electronic Equipment)
The symbol of the crossed container marked on the equipment shows that the product, at the end of its
useful life, must be collected separately from other refuse. Therefore the user must deliver the equipment
that has reached the end of its life to the special dierentiated electronic and electrotechnical refuse
collection centres, far subsequent dispatch of the discarded equipment for recycling, treatment and
environmentally compatible disposal, thus contributing in preventing possible negative eects on the
environment and on health and favouring the recycling of the materials from which the equipment is
made.
Illicit disposal of the product by the user will lead to the application of the penalties provided far by the
national legislations of the various Member States on receipt of directive 2002/96/EC.
For further information, please contact our after sales department: www.tekotelecom.it
Packaging and Packaging Waste Directive 94/62/EC
The packaging of the product complies with the Directive 94/62/EC, concerning packaging and packaging waste. Environmentally harmful
materials are not used for packaging.
Packaging is made from materials that can easily be recycled after use. Depending on the means of transportation, the equipment is packed
in a cardboard or wooden box, protected with expanded polystyrene or barrier bags.
The packaging materials are marked according to ISO 11 469.
Please do not throw packaging materials into unsorted waste but separate them according to local regulations waste disposal options.
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Operation is subject to the following conditions: (1) this device may not cause interference, and (2) this device must
accept any interference, including interference that may cause undesired operation of the device.
Changes or modications not expressly approved by the party responsible for compliance could void the users
authority to operate the equipment.
The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 50 cm for Low Power family in Tri-Band
system (with 8dB of maximum antenna gain for operating bands lower than 1.5GHz and 11dB for operating bands higher than 1.5GHz), at
least 50 cm for Low Power family in Six-Band system (with 4.5dB of maximum antenna gain for operating bands lower than 1.5GHz and 6.5dB
for operating bands higher than 1.5GHz) and at least 150 cm for Very High Power family in Tri-Band System (with 3.5dB of maximum antenna
gain for operating bands lower than 1.5GHz and 6.5dB for operating bands higher than 1.5GHz) from all persons assuming no co-location or
operating in conjuction with any other antenna or transmitter.
With higher maximum gain and/or co-location higher separation distance is required and shall be calculated accordingly by the installer. For
Low Power family in Tri-Band system with 16dB of maximum antenna gain, the separation distance from nearby people shall be 130 cm for
operating bands lower than 1.5GHz, and 90 cm for operating bands higher than 1.5GHz. For Low Power family in Six-Band system with 16dB
of maximum antenna gain, the separation distance from nearby people shall be 190 cm for operating bands lower than 1.5GHz, and 145 cm
for operating bands higher than 1.5GHz. For Very High Power family in Tri-Band system with 16dB of maximum antenna gain, the separation
distance from nearby people shall be 630 cm for operating bands lower than 1.5GHz, and 450 cm for operating bands higher than 1.5GHz.
Specications of antennas, cables, RF components, etc will be provided only in the nal installation phase, being the external antenna not
provided with equipment.
Equipment will be accessible only to maintenance men, that must switch it o before any maintenance operation.
Teko Telecom Coverage and Capacity Systems Technical Handbook
© Copyright 2010 Teko Telecom S.p.A. All rights reserved.
The content of this manual is for informational use only. Information and specications regarding the products described in this document
are subject to change without notice. The images shown in this document are for illustrative purposes only.
Teko Telecom shall not be liable for technical or editorial errors contained in this manual.
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Doc ID Number 91 080 0781 - Rel. 02
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1.General Description
SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Teko Telecom Modular Coverage and Capacity System - General 1.
Description
Teko Telecom Coverage and Capacity Systems are exible multi-band multi-operator Systems
that provide a wide range of solutions to extend both indoor and outdoor cellular coverage
in shadow areas -where the RF signal is not available- and to increase capacity in indoor and
outdoor hot spots -where the operators need a dedicated coverage.
Modular design is a key feature of Teko Telecom Coverage and Capacity Systems: it oers
exible conguration options to build the most suitable solution for any coverage need.
SIRIUS
Stand-alone Modular Repeaters, Optical Systems as well as integrated solutions share a unique
common platform: SIRIUS.
SIRIUS includes a wide range of active and passive components that can be assembled in a
variety of ways in order to provide easy to set-up, maintain, and upgrade products operating
in the 380 to 2700MHz frequency range.
SIRIUS components can be used in dierent Systems with dierent functionalities to meet
present needs and to allow system adaptation to changing conditions, always assuring
optimized performances.
Teko Telecom Master Unit is the core of SIRIUS modular design: it is a versatile modular rack-
based platform that controls the whole Coverage System and, depending on its components
conguration, is able to provide:
the RF interface towards the signal source (BTS, Node B, Repeater),•
the RF interface towards Service Antennas/leaky cable,•
the optical interface towards up to 144 Remote Units.•
This technical handbook describes the components of SIRIUS and how these components can
be assembled to provide Optical Systems and Modular O-air Repeaters to improve coverage
in dierent environments.
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Components1.1
The components of SIRIUS, Teko Telecom Modular Coverage and Capacity System, can be
grouped in the following categories:
Modules providing the RF interface towards the signal source1.
Point of Interface (POI) module:• it is the single-band/single-operator interface towards
a BTS or NodeB. The Point of Interface module is connected to the signal source via
coaxial cable.
Digital Donor Front End Module: • it is the single-band/single-operator interface
towards a Donor Antenna, providing a connection to a BTS or NodeB over an air link.
Equipment extending coverage / distributing capacity2.
Service Front End:• it is the single-band/multi-operator interface towards a Service
Antenna. It provides wireless signal to the area to be covered (Modular Repeaters).
In Optical Systems the Service Front End can be used to extend coverage to the area
close to the Master Unit site.
Remote Unit:• it is the multi-band/multi-operator equipment used in Optical Systems
to distribute wireless signal throughout the area to be covered (extensive areas
coverage/active DAS).
Modules providing the optical interface towards Remote Units3.
Fiber Optic Transmitter/Receiver Modules• are the optical interface between Master
Unit and Remote Units: they provide RF-to-Optical/Optical-to-RF conversion.
Master and Slave Point to Point Modules • perform the RF-to-Optical/Optical-to-RF
conversion required by the optical point to point link connecting RF Interface modules
to distant Fiber Optic Transmitter/Receiver Modules. The optical point to point link
allows a separation distance -up to 20km- between RF Interface modules and Fiber
Optic Transmitter/Receiver Modules.
Passive Modules providing distribution and ltering4.
Due to the exible conguration options of Teko Telecom Coverage and Capacity Systems,
the same passive components can be used for dierent purposes.
The • 4-way Combiner/Splitter can be used to manage either up to 4 RF interface
modules, operating in the same band (Multi-Operator Systems) or up to 4 Fiber
Optic Modules (Fiber Optic Transmitter/Receiver Modules or Master Point to Point
Modules).
The • Band Splitter/Combiner (Triplexer) with built-in 1:4 Splitter/Combiner
can be used to manage up to 3 RF interface modules or Service Front End subracks,
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operating in dierent bands, and up to 4 Fiber Optic Modules. It can also manage
up to 3 four-way splitter/combiner modules each connected to multiple RF interface
modules, operating in the same band, and up to 4 Fiber Optic Modules.
Modules for the management of the System5.
The • Supervision Module allows the management of the whole Coverage System.
The • Alarm Module is an optional module that can be equipped to increase the number
of supported external alarms.
Power Supply Modules6.
The Coverage and Capacity Systems can be equipped with either AC (Universal mains,
85÷264Vac, 50-60Hz) or DC (-72÷-36Vdc) Power Supply modules.
Subracks hosting the System modules7.
Both active and passive subracks are available.
Active subracks• are provided with a backplane that allows the management and
power supply of active modules.
Passive subracks• are used to host passive modules that do not require power nor
management to function. Passive Subracks allow a reduction in the cost of the whole
system.
Forced-air cooling Subrack8.
A forced-air cooling subrack is available to ensure the air ow required for proper cabinet
installed equipment operation.
Rack cabinets for hosting the System Subracks (indoor installation) and cabinets for Outdoor
installation are also available.
A detailed description of each Component of Teko Telecom Modular Coverage and Capacity
System is provided in the following paragraphs.
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Modules providing the RF interface towards the signal source1.1.1
Point Of Interface Modules•
Point of Interface modules are used in Optical Systems to interface any kind of operator signal
source -pico/micro/macro BTS or NodeB: each Point of Interface module is connected to a
single mobile operator/ mobile band signal source via coaxial cable.
Optical Systems can be equipped with one Point of Interface or more Point of Interface
modules to make multiple congurations available: single operator (single band / multi-band)
and multi-operator (single-band / multi-band).
Passive Point Of Interface module (POI)
with rotary adjustable attenuators
Point Of Interface module (TAPOI) with
remote-controlled variable attenuators
Each Point of Interface module includes the duplexer, to separate/combine Downlink and
Uplink paths and two variable attenuators to make both Downlink and Uplink RF levels
separately adjustable.
A monitor port is available either for measurements or for external wireless modem
coupling.
Point Of Interface module block diagram
UL
DL
UL
DL-OUT
-IN
BTS PORT
MONITOR
DL
UL
DL-OUT
-IN
BTS PORT
MONITOR
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Point of Interface modules with separate Downlink and Uplink ports (without built-in duplexer)
are available as option.
Teko Telecom Point of Interface modules can be equipped either with manually adjustable
attenuators (POI-x models) or with remote-controlled attenuators (TAPOI-x models).
POI modules
POI modules include two rotary adjustable attenuators to make Downlink and Uplink RF
levels manually adjustable within a range of either 30dB, with 1dB step, or 10dB, with 1dB
step (POI-A10 models).
TAPOI modules
TAPOI modules include two automated variable attenuators to adjust Downlink and Uplink
RF levels via the Coverage System Supervision Module (TSPV) and Management Tools (OMT
webpages, OMC software).
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POI Modules Access Points•
Passive POI with built-in duplexer Passive POI without built-in duplexer
Adjustable
attenuators
Adjustable
attenuators
Label
(Connectors)
Description
DL-OUT Downlink path RF output
(SMA connector)
UL-IN Uplink path RF input (SMA
connector)
BTS PORT
RF connector (N type )
towards the signal source
(BTS, Node B or repeater)
MONITOR
Monitor port for
measurements or for external
wireless modem coupling
Label
(Connectors)
Description
DL-OUT Downlink path RF output
SMA connector
UL-IN Uplink path RF input SMA
connector
BTS PORT DL
Input RF connector from the
signal source - BTS, Node B
or repeater (N type)
BTS PORT UL
Output RF connector to the
signal source - BTS, Node B
or repeater (N type)
Adjustable
attenuators
Description
DL OUT Downlink path RF level adjustable attenuator (0÷30dB or 0÷10dB - 1 dB step)
UL IN Uplink path RF level adjustable attenuator (0÷30dB or 0÷10dB - 1 dB step)
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TAPOI Modules Access Points•
TAPOI with built-in duplexer
Label
(Connectors)
Description
DL OUT Downlink path RF output (SMA connector)
UL IN Uplink path RF input (SMA connector)
BTS PORT RF connector (N type ) towards the signal source (BTS, Node B
or repeater)
MONITOR Monitor port for measurements or for external wireless modem
coupling
Label
(LEDs)
Description
ON TAPOI Module operating status green LED
ON when power supply is present
ALM
TAPOI Module alarm status LED:
OFF: regular operation
Blinking Orange: presence of active alarms with warning
severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity
level (2)
Red: presence of active alarms with critical severity level (1)
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Teko Telecom Digital Donor Front End•
The Digital Donor Front End Module is the single-band/single-operator System RF interface
towards a Donor Antenna. No physical connections are required between the DFE and the
cellular network: the Donor Antenna provides the connection to a BTS or NodeB over an air
link.
Coverage Systems can be equipped with one or more Donor Front End modules to make
multiple congurations available: single operator (single band / multi-band) and multi-
operator (single-band / multi-band).
A single-band single-operator modular O-air Repeater can be set up combining a Digital
Donor Front End Module and a Service Front End (Teko Telecom single-band/multi-operator
interface towards a Service Antenna). Up to 4 Donor Front End Modules can be connected to
a single Service Front End to provide a single-band 4-operator modular O-air Repeater.
Digital Donor Front End Modules can also be used to drive Optical Systems: the Digital Donor
Front End Module allows Optical Systems to be driven without the need of a dedicated BTS or
Node B. A donor antenna picks-up the signal and the Optical System acts as a repeater with
distributed Service antennas connected to the Remote Units. Service Front End subracks can
be connected to DFE modules to provide coverage to the area next to the Master Unit site.
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Each DFE module hosts the duplexer, to be connected to the Donor Antenna to separate/
combine downlink and uplink paths.
In downlink the signal from the Donor Antenna is preamplied by a Low Noise Amplier and
converted into an IF signal by a downconverter. The selection of the band of frequencies or
channels to be extended is handled by a digital lter.
The digital lter can manage 1 variable band or 2 variable sub-bands.
An upconverter converts the IF signal into the RF output signal.
In uplink the signal from the Service Front End Subrack or from the Optical System is converted
into an IF signal by a downconverter, ltered and re-converted into an RF signal, amplied by
a power amplier and re-transmitted to the signal source.
DIGITAL FILTER
DIGITAL FILTER
PA
LNA
DL RF
Out
UL RF
In
Donor
Antenna
Port DUPLEXER
P DC/DC
+12V +1.8V+3.3V
28VDC
RS485
FANS
Digital Donor Front End Module block diagram
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Digital Donor Front End Module Access Points
Label
(Connectors)
Description
DL Downlink path RF output (SMA connector) to Service Front End
or Fiber Optic Modules
UL Uplink path RF input (SMA connector) from Service Front End
or Fiber Optic Modules
DONOR ANT Donor Antenna Port (N type connector)
Label
(LEDs)
Description
ON Digital Donor Front End Module operating status green LED:
ON when power supply is present
ALM
Digital Donor Front End Module alarm status LED:
OFF: regular operation
Blinking Orange: presence of active alarms with warning
severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity
level (2)
Red: presence of active alarms with critical severity level (1)
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Equipment extending coverage / distributing capacity1.1.2
Teko Telecom Service Front End•
Teko Telecom Service Front End Subrack is a single-band/multi operator equipment, driven
by Digital Donor Front End Modules and connected to a Service Antenna to provide wireless
signal to the area to be covered. The equipment is available in four dierent power classes:
Very High, High, Medium and Low.
A single-band single-operator modular O-air Repeater can be set-up combining a Digital
Donor Front End Module and a Service Front End. Up to 4 Donor Front End Modules can
be connected to a single Service Front End subrack to provide a single-band 4-operator
Repeater.
The Service Front End subrack can also be used in Optical Systems to provide coverage to the
area adjoining the Master Unit site.
The SFE 19”/2U subrack hosts the duplexer, to be connected to the Service Antenna to
separate/combine Downlink and Uplink paths.
In Downlink the signals from the Donor Front-End Modules are combined and amplied by a
Power Amplier.
In Uplink, the RF signal from the Service antenna is amplied by a Low Noise Amplier (LNA)
and split to feed up to 4 Donor Front-End Modules.
Auxiliary ports are available to drive an Optical System.
PA
DL in1
Service
Antenna
Port
Duplexer
P DC/DC
+3.3V +5V
28VDC
RS485
Digital
Attenuator
DL in2
DL in3
DL in4
DL out
LNA
UL out1 Digital
Attenuator
UL out2
UL out3
UL out4
UL in
Digital
Attenuator
Digital
Attenuator
4:1
4:1
FANS
From DFEs
To DFEs
To Optics
From Optics
Service Front End Module block diagram
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Service Front End Module Access Points
Label
(Connectors)
Description
DL TO OPT Downlink path RF output (SMA connector) - to Optics
UL FROM OPT Uplink path RF input (SMA connector) - from Optics
SERVICE ANT Service Antenna Port (N type )
DFE1
DL Downlink path RF input (SMA connector) - from Digital Donor
Front End 1
UL Uplink path RF output (SMA connector) - to Digital Donor Front
End 1
DFE2
DL Downlink path RF input (SMA connector) - from Digital Donor
Front End 2
UL Uplink path RF output (SMA connector) - to Digital Donor Front
End 2
DFE3
DL Downlink path RF input (SMA connector) - from Digital Donor
Front End 3
UL Uplink path RF output (SMA connector) - to Digital Donor Front
End 3
DFE4
DL Downlink path RF input (SMA connector) - from Digital Donor
Front End 4
UL Uplink path RF output (SMA connector) - to Digital Donor Front
End 4
Label
(LEDs)
Description
LED
Service Front End subrack general operating status LED
Green: no alarm
Blinking Orange: presence of active alarms with warning
severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity
level (2)
Red: presence of active alarms with critical severity level (1)
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Teko Telecom Remote Units•
Remote Units are used in Optical Systems to distribute wireless signals throughout the area
to be covered. They are connected to the Fiber Optic Transmitter/Receiver Modules equipped
in the Master Unit.
Remote Units are equipped with the Fiber Optic Receiver and Transmitter module (for Optical
to RF and RF to Optical conversion), power ampliers and ltering.
They can be Single, Dual or Tri-band with four dierent RF power classes: Very High, High,
Medium and Low.
Remote Units with dierent power classes can be driven simultaneously by the same Master
Unit to distribute capacity or extend coverage into dierent locations at the same time.
Very High, High and Medium Power Remote Units are equipped in a weatherproof IP66
case. Low Power Remote Units are equipped in an IP32 case; a protection kit, providing IP66
protection degree, is available as option for installation in harsh environments.
Single, Dual or Tri-band Very High, High and
Medium Power Remote Unit
Single, Dual or Tri-band Low Power Remote
Unit
Please refer to Paragraph 1.2.2 for a detailed description of Remote Units.
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Modules providing the optical interface towards Remote Units1.1.3
Fiber Optic Transmitter/Receiver Modules•
Fiber Optic Transmitter/Receiver Modules are the optical interface between Master Unit and
Remote Units: they provide RF-to-Optical/Optical-to-RF conversion. They are connected to
Remote Units via single mode optical bers, with Uplink and Downlink signals transmitted
over the same bre (Wavelength Division Multiplexing -WDM technology).
Dierent modules congurations are available: a single Fiber Optic Transmitter/Receiver
Module can be equipped with 1 Optical Transmitter and 1 Optical Receiver (10dB optical link
budget, up to 20km distance - 12.4 miles), or 1 Optical Transmitter split by 2 and 2 combined
Optical Receivers (10dB optical link budget, up to 20km distance- 12.4 miles), or 1 Optical
Transmitter split by 4 and 4 combined Optical Receivers (6dB optical link budget, up to 12km
distance - 7.5 miles).
The Fiber Optic Transmitter/Receiver Module in 1:4 conguration can manage up to 4 Remote
Units.
The Fiber Optic Transmitter/Receiver Module in 1:1 conguration is able to drive up to 5
cascaded Remote Units with dierent wavelengths in Up-link.
Fiber Optic Transmitter/Receiver Module equipped with 1 Optical Transmitter split by 4 and 4 combined
Optical Receivers
The Fiber Optic Transmitter provides the RF to optical conversion (Downlink side): the module
RF section covers the 380 to 2200MHz band (TTRC models) or the 380 to 2700MHz band
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(TTRU models).
Fiber Optic Receivers convert uplink optical signals from Remote Units into RF. They operate
in the third window (Optical wavelength 1490 ÷ 1570 nm).
Each Fiber Optic module is controlled by a microprocessor which provides the following data
to the Supervision Module:
optical power received by each optical receiver, -
Downlink attenuator and Uplink attenuator attenuation setting (0 ÷ 15dB), -
received optical power alarms. -
An auto-levelling functionality (AGC) compensates up to 10dB optical link loss in order
to guarantee constant gain over dierent optical budgets. This feature simplies system
installation, makes commissioning quick and easy and avoids eld adjustments.
CONTROL
1:4
OPT
MODEM
4:1
P DC/DC
28VDCRS485
PA DIGITAL
ATTENUATOR LNA
PA DIGITAL
ATTENUATOR LNA
PA DIGITAL
ATTENUATOR LNA
PA DIGITAL
ATTENUATOR LNA
DL RF
WDM
DL/UL 1
DL/UL 3
DL/UL 2
DL/UL 4
UL RF
LASER
Block diagram: Fiber Optic Transmitter/Receiver Module equipped with 1 Optical Transmitter split by 4 and 4
combined Optical Receivers (WDM technology)
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Fiber Optic Transmitter/Receiver Module Access Points
RF Connectors Description
DL RF Fiber Optic Transmitter RF input SMA connector
UL RF Fiber Optic Receiver RF output SMA connector
Optical Connectors Description
DL Fiber Optic Transmitters (1 to 4) optical output SC-APC connectors
UL Fiber Optic Receivers (1 to 4) optical power input SC-APC connectors
LEDs Description
ON Fiber Optic Module operating status green LED
ON when power supply is present
ALM
Fiber Optic Module alarm status LED:
OFF: regular operation; BLINKING ORANGE/ORANGE: warning/minor;
BLINKING RED/RED: major/critical
DL UL
These LEDs describe the general operating status of Remote Units (1 to
4) connected to Fiber Optic Transmitters (DL) and Repeaters (UL) .
Each pair of DL/UL leds takes the same color as the general operating status led
of the Remote Unit connected to the relevant optical connector, except when
a Laser Fault occurs in the Fiber Optic transmitter. If this fault occurs, all •
DL leds turn RED and the ALM Led switches on (RED).
a Low Optical Power alarm arises in the Fiber Optic receiver. If this alarm •
arises, the relevant UL led turns RED and the ALM Led switches on (RED).
Each pair of DL/UL LEDs can be:
Green: Remote Unit status OK
Blinking Orange: presence of RU active alarms with warning severity level (4)
Orange: presence of RU active alarms with minor severity level (3)
Blinking Red: presence of RU active alarms with major severity level (2)
Red: presence of RU active alarms with critical severity level (1)
Fiber Optic Module equipped with 1 Transmitter
split by 4 and 4 combined Receivers
Fiber Optic Module equipped with 1 Transmitter
split by 4 and 4 combined Receivers - WDM
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Master and Slave Point to Point Modules•
Master and Slave Point to Point Modules provide an optical point to point link allowing a
separation distance -up to 20km- between RF interface subracks and optical subracks.
The point to point link is suitable when the signal source (BTS, Node B, Repeater) is located
far from the area to be covered or when the same optical system provides coverage to several
separate buildings; in these applications the point to point link allows the transmission of
signals from/to a group of remote units over a single optical bre, thus providing a signicant
reduction in the number of ber optics running long distances.
The point to point link requires the RF interface subracks to be equipped with Master Point
to Point modules and the remote optical subracks to be equipped with Slave Point to Point
modules. The RF Interface subracks can be equipped with up to 4 Master Pont to Point modules
for the management of up to 4 optical subracks, installed in dierent remote locations.
Master Point to Point Module Slave Point to Point Module
Each Master Point to Point Module is connected to a Slave Point to Point Module, equipped in
a remote optical subrack, via a single optical bre (single-mode SMR 9/125).
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Point to Point Modules (Master and Slave) perform the electrical-to-optical/optical-to-
electrical conversion required for the transmission of downlink and uplink signals over the
connecting optical bre.
1550nm
UL RF output
SMA (f)
DL RF input
SMA (f)
RS485
port
1310nm
E
O
E
O
Coupler
Coupler
Att.
Att.
DL/UL
optical SC/APC
connector
WDM
Modem
P
Master Point to Point Module Module block diagram
The Slave Point to Point module includes the 4-way splitter/combiner to manage up to 4 Fiber
Optic Transmitter/Receiver Modules. A built-in Supervision unit controls the remote optical
subrack, hosting the Slave Point to Point module, and all connected Remote Units.
The Coverage System Supervision Module communicates with the Slave Point to Point module
built-in Supervision unit via the single-mode optical ber connecting Master and Slave Point
to Point modules.
An RS232 port on the Slave Point to Point Module front panel allows local communication
with the built-in supervision.
1310nm
DL RF outputs
SMA (f)
connectors
UL RF inputs
SMA (f)
connectors
RS232
1550nm
O
E
O
E
Coupler
Att.
WDM Modem
P
DL/UL
optical SC/APC
connector
Att.
Slave Point to Point Module Module block diagram
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Master Point to Point Module Access Points
Master Point to Point Module
Label (Connectors) Description
DL UL Optical power input/output SC-APC connector (from/to Slave Point to
Point Module)
RS485 RJ45 connector for RS485 connection to the Supervision Module
DL RF input SMA connector (from the System RF Interface modules)
UL RF output SMA connector (to the System RF Interface modules)
Label (LEDs) Description
ON Master Point to Point Module operating status green LED:
ON when power supply is present
ALM Point to Point Module alarm status LED:
OFF: regular operation
Blinking Orange: presence of active alarms with warning severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
DL Fiber Optic Transmitter operating status LED:
BLINKING GREEN: the module is reaching its operating temperature
GREEN optical output power is available
ORANGE: warning: optical output power is degradated
RED: Laser Fault: no optical output power
UL
Fiber Optic Receiver operating status LED:
GREEN: +6dBm to -4dBm optical input power
YELLOW: -4dBm to -5dBm optical input power
RED: optical input power is >+6dBm or <-5dBm
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Slave Point to Point Module Access Points
Slave Point to Point Module
Label (Connectors) Description
DL UL Optical power input/output SC-APC connector (from/to Master Point to
Point Module
RS232 9-pole D-Sub RS232 connector for connection to an external modem
(Local Management)
DL RF output SMA connectors (to Fiber Optic Modules)
UL RF input SMA connectors (from Fiber Optic Modules)
Label (LEDs) Description
ON Master Point to Point Module operating status green LED:
ON when power supply is present
ALM Point to Point Module alarm status LED:
OFF: regular operation
Blinking Orange: presence of active alarms with warning severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
DL Fiber Optic Receiver operating status LED:
GREEN: +6dBm to -4dBm optical input power
YELLOW: warning: -4dBm to -5dBm optical input power
RED: alarm: optical input power is >+6dBm or <-5dBm
UL
Fiber Optic Transmitter operating status LED:
BLINKING GREEN: the module is reaching its operating temperature
GREEN optical output power is available
ORANGE: warning: optical output power is degradated
RED: : Laser Fault: no optical output power
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Passive Modules providing distribution and ltering1.1.4
4-way Combiner/Splitter Module•
The 4-way Combiner/Splitter can be used to manage either up to 4 RF interface modules (POI
modules or DFE modules), operating in the same band (Multi-Operator Systems) or up to 4
Fiber Optic Transmitter/Receiver Modules.
4-way combiner (DL side) / 4-way splitter
(UL side) to manage up to 4 RF interface
modules operating in the same band
4-way splitter (DL side) / 4-way combiner
(UL side) to manage up to 4 Fiber Optic
Transmitter/Receiver Modules
RF INTERFACE
MODULES
(POI or DFE)
FIBER OPTIC
MODULES
4WAY
SPLITTER/COMBINER
4WAY
SPLITTER/COMBINER
DL
UL
DL
UL
RF INTERFACE
MODULE
(POI or DFE)
FIBER OPTIC
MODULE
4-way Combiner/Splitter module block diagrams
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4-way Combiner/Splitter Module Access Points
Label
(Connectors)
Description
UL
WHEN USED TO MANAGE MULTIPLE
RF INTERFACE MODULES
Up-link path output
SMA connectors (to RF
interface modules)
WHEN USED TO MANAGE MULTIPLE
FIBER OPTIC MODULES
Up-link path input
SMA connectors (from
optical sub-racks)
UL COMMON Up-link path input
SMA connector
Up-link path output
SMA connector
DL
Down-link path input
connectors (from RF
interface modules)
Down-link path
output connectors
(to optical sub-racks)
DL COMMON Down-link path
output Down-link path input
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Triplexer (Band Splitter/Combiner) with built-in 4-way Combiner/Splitter•
The Triplexer is used in multi-band congurations to distribute signals operating in dierent
bands.
The module also includes a 4-way Splitter/Combiner to drive up to 4 Fiber Optic Transmitter/
Receiver Modules.
Several models of Triplexers, operating over dierent Uplink/Downlink frequency bands, are
available.
Example: EGSM, DCS, UMTS Triplexer with
built-in 4-way Combiner/Splitter
Example: AMPS, PCS, AWS Triplexer with built-in
4-way Combiner/Splitter
The triplexer can be used in Optical Systems to manage:
up to 3 RF interface modules operating in dierent bands and up to 4 Fiber Optic -
Transmitter/Receiver Modules, or
up to 3 Service Front End modules operating in dierent bands and up to 4 Fiber Optic -
Transmitter/Receiver Modules, or
up to 3 four-way splitter/combiner - used to manage multiple RF interface modules (up to -
4 for each band) - and up to 4 Fiber Optic Transmitter/Receiver Modules.
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Example: EGSM, DCS, UMTS Triplexer block diagram - Downlink path
Example: Low band, PCS, AWS Triplexer block diagram - Uplink path
DL
DCS or
PCS
UMTS
or AWS
HIGH
LOWDL
(to built-in 4-way
splitter combiner)
BAND 1
(SMR, EGSM
or AMPS)
BAND 2
(DCS or PCS )
BAND 3
(UMTS or AWS)
AT T.
DCS or
AWS
UMTS
or PCS
HIGH
LOW
BAND 1
(SMR, EGSM
or AMPS)
BAND 2
(DCS or PCS )
BAND 3
(UMTS or AWS)
UL
(from built-in 4-way
splitter combiner)
AT T.
PCS
AWS
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Triplexer Module Access Points -Example
Example: EGSM, DCS, UMTS Triplexer
with built-in 4-way Combiner/Splitter
Example: AMPS, PCS, AWS Triplexer
with built-in 4-way Combiner/Splitter
Connectors Description
EU Bands US Bands
EGSM f<1GHz Low band (700 to 960MHz) input (down-link path)
Low band (700 to 960MHz) output (up-link path)
DCS PCS DCS or PCS input (down-link path)
AWS DCS or AWS output (up-link path)
UMTS AWS UMTS or AWS input (down-link path)
PCS UMTS or PCS output (up-link path)
UL
WHEN USED TO MANAGE
MULTIPLE FIBER OPTIC
MODULES
Up-link path input
connectors (from
optical subrack)
WHEN USED TO MANAGE
MULTIPLE FOUR-WAY
COMBINER/SPLITTER MODULES
Up-link path output
connectors (to 4-way
combiner/splitter
modules)
DL
Down-link path
output connectors
(to optical subrack)
Down-link path input
connectors (from
4-way combiner/
splitter modules)
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Modules for the management of the System1.1.5
Supervision Module•
The Supervision Module (TSPV) allows the control and management of the entire Coverage
and Capacity System. The Supervision Module is provided with its own TCP/IP address and
with a built-in web server that allows control and management via a standard web browser.
The Coverage System can be accessed either via a physical (Ethernet LAN) connection or via
a modem connection.
Up to 9 Active Subracks can be monitored connecting a PC, either locally or remotely, to the
Ethernet port (LAN, RJ45 connector), available on the Supervision Module front panel.
Supervision Module equipped with optional built-in
wireless modem
Supervision Module with RS232 port
For remote control the System can also be accessed via optional wireless modem (integrated
inside the supervision module).
When the optional built-in wireless modem is equipped an SMA input/output connector is
available on the Supervision front panel for remote management.
When the optional built-in wireless modem is not equipped, an RS232 port is available on the
Supervision front panel for connection to an external PSTN or wireless modem
An OpenVPN application is installed on the Supervision Module to provide remote and secure
access to the System using the Internet.
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The Supervision Module can also act as an SNMP-agent providing integration into upper-
level management systems (NEM).
4 external alarms inputs and 4 dry contacts outputs are available on the Supervision module
front panel.
Please note
In order to more handily connect to EXT OUT / EXT IN dry contacts, 2x4-pole female connectors
are provided along with the Supervision Module.
2x4-pole female connector
Teko Telecom Operation and Maintenance Terminal (OMT) web pages allow the commissioning,
monitoring, setting and troubleshooting of the whole Coverage and Capacity System via a
user friendly graphical interface.
Teko Telecom OMC (Operation Management Centre) proprietary software is available to
control multiple Supervision Modules managing dierent Coverage and Capacity Systems in
a Network.
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Supervision Module Access Points
Supervision Module equipped with
optional built-in wireless modem
Supervision Module with RS232
connector
Label
(Connectors)
Description
RS485
(1 to 8)
RJ45 connectors for monitored Optical Subracks management
RS485
(S1 to S4)
RJ45 connectors for remote Slave Supervision Modules
management
EXT OUT Dry contacts output connector
EXT IN External alarms input connector
RS232 9-pole D-Sub RS232 connector for connection to an external
modem
ANT Optional built-in modem input/output connector for remote
management
LAN RJ45 connector Local Control Interface
Label
(LEDs)
Description
ON Supervision Module operating status green LED:
ON when power supply is present
ALM
Supervision Module alarm status LED.
OFF: regular operation
Blinking Orange: presence of active alarms with warning severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
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Alarm Board•
The Alarm Board is an optional I/O Module that can be equipped in addition to the Supervision
Module, in order to increase the number of supported external alarms.
Alarm Board equipped with 16 input pins - TEA-I16
The Alarm Board allows to manage up to 16 external alarms inputs: 16 external alarms input
connectors are available on the module front panel.
The 16 Input lines are opto-isolated and are activated by a short circuit between input pins
(max current ow during short = 6mA; max Vdc at input pins = 3,3V).
On request inputs 1-to-4 can be switched to dry output contacts, normally open or closed,
depending on HW conguration.
In order to more handily connect to the dry contacts input/output connectors, four 2x4-pole
female connectors are provided along with the Alarm Board Module.
2x4-pole female connector
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Alarm Board Access Points
Alarm Board
with female dry connectors
Alarm Board
without female dry connectors
Label
(Connectors)
Description
EXT IN External alarms input connector
EXT OUT Optional external alarms output connector (TEA-I12O4)
Label
(LEDs)
Description
ON Alarm Board Module operating status green LED:
ON when power supply is present
ALM
Alarm Board Module alarm status LED.
OFF: regular operation
Blinking Orange: presence of active alarms with warning severity
level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
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Power Supply Modules1.1.6
Power Supply Module•
Power Supply modules are used to supply Active Subracks.
Active Subracks can be AC powered (Universal mains, 85÷264Vac, 50-60Hz) or DC powered
(-72 ÷ -36Vdc): they can be equipped with either AC or DC Power Supply modules.
AC Power Supply Module DC Power Supply Module
The following gure shows the DC/DC Power Supply Module protection fuse position and
electrical rating. If the fuse blows, it has to be replaced.
Fuse SMD T 125V-4A
Power Supply modules can be equipped in monitored Active Subracks, in the Master Active
Subrack or in a dedicated Active Subrack.
When Power Supply modules are equipped in monitored Active Subracks, the RJ45 connector
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available on the Power Supply Module front panel can be used for connection to the
Supervision Module, equipped in the Master Active Subrack.
Hot-plug 1+1 Redundancy feature is supported: it can be implemented to achieve high
system reliability.
Power Supply Module Access Points
AC Power Supply Module DC Power Supply Module
DC switch
AC MAINS
switch
Connectors Description
RS485
RJ45 connector for RS485
connection to the Supervision
Module (monitored Subracks)
AC switch AC MAINS switch
AC MAINS AC MAINS socket (100-240Vac)
Connectors Description
RS485
RJ45 connector for RS485
connection to the Supervision
Module (monitored Subracks)
DC switch 48Vdc switch
DC MAINS Vdc input connector (48Vdc)
Label
(LEDs)
Description
POWER ON Power Supply Module operating status green LED:
ON when power supply is present
ALM
Power Supply Module alarm status LED.
OFF: regular operation
Blinking Orange: presence of active alarms with warning severity level
(4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
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Subracks hosting the System modules1.1.7
Active subracks•
Active Subracks are provided with a backplane that allows the management and power
supply of up to 12 active modules and/or Power Supply modules.
Active subracks can be equipped with either AC or DC Power Supply modules.
The following connectors are available on each active subrack rear panel:
one or more 28Vdc input/output connectors.•
An RJ45 connector (RS485) to be used when power supply modules are not equipped •
in monitored Active Subracks. It allows connection of monitored Active Subracks to the
Supervision Module.
A ground bolt.•
28VDC ± 0.5VDC
input/output (max 10A)
RJ45 connector (RS 485)
Active Subrack with one 28Vdc input/output connector
28VDC ± 0.5VDC
outputs (max 10A each)
RJ45 connector (RS 485)
Active Subrack with three 28Vdc input/output connector
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28VDC ± 0.5VDC
outputs (max 10A each)
RJ45 connector (RS 485)
Active Subrack provided with ten 28Vdc input/output connectors
Passive subracks•
Passive modules that do not require power nor management to function can be housed in
Passive subracks thus allowing a reduction in the cost of the whole system.
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Forced-air cooling Subrack1.1.8
Teko Telecom forced-air cooling subrack is able to provide a maximum air ow of 180cfm (5m3/
min) in order to ensure the proper operation of cabinet installed equipment.
Forced-air cooling Subrack Access Points
Forced-air cooling subrack - Front view
Forced-air cooling subrack - Rear view
28V ;10A MAX RS485
LED
Access Point Description
LED
Forced-air cooling subrack general operating status LED
Green: normal operation
Blinking Orange: presence of active alarms with warning severity
level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
RS485 RJ45 connector for RS485 connection to the Supervision Module
28V ;10A MAX 28VDC ± 0.5VDC input (max 10A)
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Coverage and Capacity Solutions1.2
The components of SIRIUS, Teko Telecom Modular Coverage and Capacity System, can be
assembled to provide Modular Repeaters, Optical Systems and integrated solutions to improve
coverage in dierent environments.
Modular O-air Repeaters - General description1.2.1
Teko Telecom multi-band multi-operator O-air Modular Repeaters represent the ideal
solution for cellular coverage extension, oering a cost eective alternative to dedicated BTSs
or Node Bs. They operate over dierent frequencies and with various frequency combinations
in the 380 to 2700MHz frequency range.
No physical connections are required between the Modular Repeaters and the cellular
network: the Digital Donor Front End Module is connected to a Donor Antenna, providing
the connection towards a BTS or Node B over an air link.
Teko Telecom Modular O-air Repeaters can be set up by proper combination of Digital Donor
Front End Modules and Service Front End Subracks.
Donor Front End Modules
Service Front End Subrack
The Digital Donor Front End is the single-band/single-operator RF interface towards the
signal source; the Service Front End is the multi-band/single operator equipment that
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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provides wireless signal to the area to be covered.
O-air Modular Repeaters can be equipped with one Donor Front End or more Donor Front
End modules to make multiple congurations available: single operator (single band / multi-
band) and multi-operator (single-band / multi-band).
A single-band single-operator Repeater can be set-up combining a Digital Donor Front End
Module and a Service Front End Subrack.
Up to 4 Digital Donor Front End Modules can be connected to a single Service Front End
obtaining a single-band 4-operator O-air Repeater.
Digital Donor Front End Modules can be connected to dierent Service Front End Subracks to
provide multi-band/multi-operator Systems.
Operating principle
Modular repeaters use a directional antenna to interface with the operator’s donor BTS (or
Node B) and one or more service antennas to transmit the amplied wireless signals to the
area to be covered.
In down-link the repeater receives the signals from the BTS (or Node B), amplies them and
re-transmits them to the mobiles. In the up-link path the repeater receives the signals from
the mobiles (MS), amplies them and re- transmits them to the base station.
Each DFE module hosts the duplexer, to be connected to the Donor Antenna to separate/
combine Downlink and Uplink paths.
DIGITAL FILTER
DIGITAL FILTER
PA
LNA
DL RF
Out
UL RF
In
Donor
Antenna
Port DUPLEXER
P DC/DC
+12V +1.8V+3.3V
28VDC
RS485
FANS
In downlink the signal from the Donor antenna is preamplied by a Low Noise Amplier and
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converted into an IF signal by a downconverter. The selection of the band of frequencies or
channels to be extended is handled by a digital lter.
The digital ltering can manage 1 variable band or 2 variable sub-bands.
An upconverter converts the IF signal into an RF signal.
In uplink the signal from the Service Front End Subrack is converted into an IF signal by a
downconverter, ltered and re-converted into an RF signal, amplied by a power amplier
and re-transmitted to the signal source.
Each TSFE subrack hosts the duplexer, to be connected to a Service antenna to separate/
combine Downlink and Uplink paths.
In Downlink the signals from the Donor Front-End Modules are combined, amplied (High
Power Amplier) and then transmitted to the area to be covered by the Service Front End
Subrack.
In Uplink, the RF signal from the Service antenna is amplied by a Low Noise Amplier (LNA)
and split to feed up to 4 Donor Front-End Modules.
DL in1
Service
Antenna
Port
Duplexer
P DC/DC
+3.3V +5V
28VDC
RS485
Digital
Attenuator
DL in2
DL in3
DL in4
DL out
LNA
UL out1 Digital
Attenuator
UL out2
UL out3
UL out4
UL in
Digital
Attenuator
Digital
Attenuator
4:1
4:1
FANS
From DFEs
To DFEs
To Optics
From Optics
PA
When a single Repeater does not provide satisfactory coverage, for example when extensive
areas or long tunnels are to be covered, Modular Repeaters can be used along with a ber fed
System (Teko Telecom Optical System).
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Optical Systems - General Description1.2.2
Teko Telecom Coverage and Capacity System components can be congured to provide a
modular multi-band multi-operator Optical System.
Optical Systems are based on the Radio over Fibre technology, which enables radio signals
transmission over optical bres. This technology oers wide bandwidth and very little loss
along the ber optic bre, allowing the signals to be propagated over long distances. This
allows extensive areas coverage.
Each Teko Telecom Optical System is made up of two main parts: the Master Unit, interfacing
the signal source, and Remote Units, distributed throughout the territory to be served. Master
Unit and Remote Units are connected via single mode optical bres (SMR 9/125).
REMOTE UNITS
Passive POI Subracks
RF Interface
Optical Subracks
Optical Interface and Supervision
COAXIAL CABLE
(RF SIGNAL)
BTS, Node B or
Repeater
SIGNAL SOURCE
SINGLE MODE
OPTICAL FIBRE
(OPTICAL SIGNAL) COAXIAL CABLE
RF SIGNAL
COAXIAL CABLE
(RF SIGNAL)
COAXIAL CABLE
(RF SIGNAL)
RF SIGNAL
Supervision Module
MASTER UNIT
SINGLE MODE
OPTICAL FIBRE
(OPTICAL SIGNAL)
SINGLE MODE
OPTICAL FIBRE
(OPTICAL SIGNAL)
Master UnitA
The Master Unit provides both the RF interface towards the signal source (one or more BTSs
or Node Bs) and the optical interface towards Remote Units.
One or more
BTSs, Node Bs or
Repeaters
RF SIGNAL
Fiber Optic
Receivers
Transmitters
REMOTE UNITS
RF Interface
POI Subrack
MASTER UNIT
Optical Subrack
RF SIGNAL
Fiber Optic
Receivers
Transmitters OPTICAL
SIGNALS
RF SIGNAL
It is a rack-based modular equipment: Teko Telecom Coverage and Capacity Systems
components can be assembled in a variety of ways providing dierent Master Unit conguration
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options.
Each Master Unit can be equipped with one or more RF interface subrackssubracks hosting
RF interface modules) and with one or more Optical Subracks (Active Subracks hosting Fiber
Optic Transmitter/Receiver modules).
When the Master Unit is equipped with Master and Slave Point to Point Modules, RF interface
subracks and optical subracks can be separated by a maximum distance of 20km.
RF interface subracks•
RF Interface subracks operate over dierent frequencies and with various frequency
combinations in the frequency range from 380 to 2700MHz.
Each RF interface subrack can be equipped with one or more RF Interface modules. Each
module interfaces to a single mobile operator / mobile standard signal source, making
multiple congurations available: single operator (single band / multi-band) and multi-
operator (single-band / multi-band).
Master Unit RF Interface modules can be Point of Interface (POI/TAPOI) modules and/or Donor
Front End modules.
Point of Interface modules are connected to the signal source via coaxial cable: each module
is connected to a single operator/ single standard signal source (BTS or Node B). Master Units
equipped with POI/TAPOI modules must be installed next to the donor BTS or Node B.
POI modules can be equipped in passive subracks; TAPOI modules require active subracks
(SUB-TRX).
Donor Front End modules allow the Optical System to be driven without the need of a
dedicated BTS or Node B: each Donor Front End module interfaces with a Donor Antenna
oriented towards a BTS or NodeB (connection over an air link).
Donor Front End modules require an active subrack (SUB-TRX). Each subrack can be equipped
with up to 4 Donor Front End Modules.
RF Interface subracks also host passive modules providing distribution and ltering:
1:4 Splitter/Combiner and•
Band Splitter/Combiner (Triplexer) with built-in 1:4 Splitter/Combiner.•
Due to the exible conguration options of Teko Telecom Coverage and Capacity Systems,
the same passive modules can be used for dierent purposes:
the 4-way splitter/combiner can be used to manage: multiple RF interface modules, •
operating in the same band (Multi-Operator Optical Systems) or multiple Fiber Optic
modules;
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the triplexer can be used to manage•
up to 3 RF interface modules operating in dierent bands and up to 4 Fiber Optic -
Transmitter/Receiver Modules or
up to 3 Service Front End subracks operating in dierent bands and up to 4 Fiber Optic -
Transmitter/Receiver Modules or
up to 3 four-way splitter/combiner - used to manage multiple RF interface modules -
(up to 4 for each band) - and up to 4 Fiber Optic Transmitter/Receiver Modules.
Band Splitter/Combiner with built-
in 1:4 Splitter/Combiner used to
manage 3 RF interface modules
operating in dierent bands
RF Interface modules
operating in the
dierent bands
Band Splitter/Combiner
used to manage up to 4
Fiber Optic Transmitter/
Receiver Modules
Example: active RF Interface subrack equipped with 2 POI modules and 1 DFE module operating in
different bands, Band Splitter/Combiner with built-in 1:4 Splitter/Combiner, 1:4 Splitter/Combiner
The RF Interface subracks can also be equipped with up to 4 Master Pont to Point modules for
the management of up to 4 optical subracks installed in dierent remote locations.
Digital Donor Front End modules can be connected to Service Front End Subracks to provide
coverage to the area adjoining the Master Unit site.
Each Service Front End can be fed by up to 4 Donor Front-End Modules interfacing the signal
source. Downlink and uplink auxiliary ports are available to drive the Optical System.
Service Front End Subrack
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Optical Subracks•
Optical Subracks are Active Subracks hosting Fiber Optic Transmitter/Receiver modules.
Fiber Optic
Modules
Fiber Optic Transmitter/Receiver modules are the optical interface towards Remote Units:
they provide RF to optical /optical to RF conversion.
Fiber Optic modules are connected to Remote Units via single-mode optical ber (SMR
9/125); each Fiber Optic Module can manage up to 4 Remote Units (up to 5 in cascade
conguration).
Up to 6 Fiber Optic Modules can be housed in a single Optical Subrack.
In Downlink RF signals are converted into optical signals in the Fiber Optic Transmitter modules
of the Master Unit and then they are propagated through optical bre distribution to Remote
Units. In the Fiber Optic Receiver of each Remote Unit, the optical signal is then converted
back into an RF signal that is amplied and transmitted to mobiles through an antenna or a
passive distribution system.
In Uplink RF signal is converted into an optical signal in the Fiber Optic Transmitter of each
Remote Unit and then it is propagated via bre optics to the Master Unit. Optical signals from
Remote Units are then converted by the Fiber Optic Receiver modules of the Master Unit into
RF signals and transmitted to the signal recipient.
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Uplink and downlink optical signals are transmitted over the same single mode optical bre
(Wavelength Division Multiplexing -WDM- technology).
The Master Optical Subrack also hosts the Supervision Module for the management of the
whole System.
When the Coverage System includes point to point links, each remote optical subrack hosts
the Slave point to point module to be connected, via optical bre, to its Master Point to Point
module, equipped in the RF interface subracks.
The slave point to point module includes the 4-way splitter/combiner to manage up to 4 Fiber
Optic Transmitter/Receiver Modules and a built-in Supervision unit for the management of
the remote subrack and connected Remote Units.
4-WAY
SPLITTER
COMBINER
TRIPLEXER
+
4-WAY
SPLITTER
COMBINER
FIBER OPTIC
TRANSMITTER
RECEIVER
MODULES
4-WAY
SPLITTER
COMBINER
4-WAY
SPLITTER
COMBINER
TO/FROM
REMOTE UNITS
SIGNAL SOURCE
SIGNAL SOURCE
SIGNAL SOURCE
INTERFACE MODULES
OPERATING IN THE
SAME BAND
INTERFACE MODULE:
POI MODULE or
TDFE MODULE
INTERFACE MODULES
OPERATING IN THE
SAME BAND
INTERFACE MODULE:
POI MODULE or
TDFE MODULE
INTERFACE MODULES
OPERATING IN THE
SAME BAND
INTERFACE MODULE:
POI MODULE or
TDFE MODULE
MASTER
POINT TO POINT
MODULE
SLAVE
POINT TO POINT
MODULE
POINT TO
POINT
OPTICAL LINK
POINT TO
POINT
OPTICAL LINK
MASTER
POINT TO POINT
MODULE
REMOTE OPTICAL
SUBRACK 1
FIBER OPTIC
TRANSMITTER
RECEIVER
MODULES
TO/FROM
REMOTE UNITS
FIBER OPTIC
TRANSMITTER
RECEIVER
MODULES
TO/FROM
REMOTE UNITS
SLAVE
POINT TO POINT
MODULE
REMOTE OPTICAL
SUBRACK 2
OPTICAL SUBRACK
RF INTERFACE
SUBRACKS
MULTI-OPERATOR MULTI-STANDARD
RF INTERFACE
EQUIPPED WITH
MASTER POINT TO POINT MODULES
LAYOUT
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Optical Subracks can be AC or DC powered. Power Supply modules can be equipped
in monitored Optical Subracks or in the Master Optical Subrack or in dedicated Active
Subracks.
Example of Master Optical Subrack hosting
the Supervision module, 4 Fiber Optic
Transmitter/Receiver modules, and 2 Power
Supply Modules (the second Power Supply
Module, optional, provides power supply
redundancy for higher reliability)
Fiber Optic
Modules
Supervision
Module
Power Supply
Modules
Fiber Optic
Modules
Example of Monitored Optical Subrack
equipped with 4 Fiber Optic Transmitter/
Receiver Modules and 2 Power Supply
Modules
Fiber Optic
Modules
Example of Monitored Optical Subrack
equipped with 6 Fiber Optic Transmitter/
Receiver Modules
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Remote UnitsB
Remote Units distribute wireless signals throughout the area to be covered ; they can be
installed up to 20km (12.4miles) from the Master Unit site.
Remote Units can be Single, Dual or Tri-band with dierent power classes: Very High, High,
Medium and Low.
Single, Dual or Tri-band Very High, High and
Medium Power Remote Unit
Single, Dual or Tri-band Low Power Remote
Unit
Remote Units are equipped with the Fiber Optic Receiver and Transmitter module (for Optical
to RF and RF to Optical conversion) power ampliers and ltering.
A single Master Unit can drive up to 144 Remote Units. Various network structures can be
supported by the Master Unit: the Remote Units of the same Optical System can be deployed
with a point-to-point connection (star-conguration - using one ber optic per Remote
Unit) or with cascading of up to 5 Remote Units using a single bre and optimized optical
couplers.
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The following gure shows the Tri-band Remote Unit block diagram: in down-link the optical
signal from Master Unit is converted into an RF signal by the Fiber Optic Receiver module.
RF signals, ltered by the triplexer, are amplied by Low, Medium, High or Very High Power
ampliers (Low, Medium, High or Very High Power Remote Units), ltered and transmitted
through an antenna or a passive distribution system.
In up-link the RF signal is ltered by the triplexer. The three RF signals are amplied by
Low-Noise Ampliers, ltered and then converted into an optical signal by the Fiber Optic
Transmitter module. The signal is transmitted via ber optics to the Master Unit.
Fiber Optic
Receiver
From MASTER unit
(DownLink)
To MASTER unit
(UpLink)
PA900
PA1800
PA2100
Antenna
System
LNA900
LNA1800
LNA2100
Fiber Optic
Transmitter
Management module
PSU
O
E
O
E
Example: Tri-band Remote Unit block diagram
Please Note: each nal power amplier is protected by a fuse.
Very High Power/High Power/Medium Power nal
ampliers fuse position and electrical rating
Fuse 32V-7,5A HPA/MPA
Fuse 32V-20A VHPA Fuse 32V-7,5A
Low Power nal amplier fuse position and
electrical rating
The management module collects information relevant to the various modules. An RF modem
allows data communication over ber between Remote Unit and Master Unit.
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High/Medium Power Remote Units Composition•
POWER SUPPLY
MODULES
SUPERVISION
MODULE
FIBER OPTIC
MODULE
CAVITY
6-PLEXER
POWER AMPLIFIER
(BAND1)
POWER AMPLIFIER
(BAND2)
POWER AMPLIFIER
(BAND3)
PLEASE NOTE:
The Very High/High/Medium Power Remote Unit case is equipped with a lock to guarantee
protection of the equipment. The following procedure describes how to open the
equipment.
OPENING THE REMOTE UNIT
Unlock the cables protection using the keys delivered with the equipment•
Remove the cables protection•
Remove the Remote Unit cover, sliding it downwards•
Unscrew the 6 screws on the Remote Unit door•
Open the Remote Unit door.•
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Very High Power Remote Unit Composition
POWER SUPPLY
MODULE
CAVITY
6-PLEXER
SUPERVISION
MODULE
FIBER OPTIC
MODULE
POWER AMPLIFIER
(BAND1)
POWER AMPLIFIER
(BAND2)
POWER AMPLIFIER
(BAND3)
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Low Power Remote Units can be either AC powered (Universal mains, 85÷264Vac, 50-60Hz) or
DC powered (-72 ÷ -36Vdc).
The following gure shows the DC powered Low Power DC/DC Power Supply Module
protection fuse position and electrical rating.
Fuse SMD T 125V-4A
Very High/ High and Medium power Remote Units are AC powered (Universal mains,
85÷264Vac, 50-60Hz).
The Very High Power Remote Unit Power Supply module is protected by 4 fuses. The following
gure shows the protection fuses position and electrical ratings.
F20A, 250V
F25A, 250V
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Remote Units External Access Points•
Medium/ High and Very High Power Remote Units External Access Points
GROUND
OPTICAL
DL/UL WDM
ALARM
RF PORT
AC
MAINS
LED
Medium power and Single band high power Remote Units
Bottom view
GROUND
OPTICAL
DL/UL WDM
ALARM
RF PORT
AC
MAINS
LED
FAN
FANS
Dual band/Triband high power Remote Units
Bottom view
Very high power Remote Units and high power Remote Units
equipped with ampliers operating in the LTE2600 band
Bottom view
GROUND
OPTICAL
DL/UL WDM
ALARM
RF PORT
AC
MAINS
LED
FAN
FANS
REMOTE UNIT GENERAL OPERATING STATUS
LED DESCRIPTION LED
Green: regular operation (no alarm)
Blinking Orange: presence of active alarms with
warning severity level (4)
Orange: presence of active alarms with minor
severity level (3)
Blinking Red: presence of active alarms with
major severity level (2)
Red: presence of active alarms with critical
severity level (1)
Connectors Description
RF PORT Down Link/Up Link 7/16 RF connector
OPTICAL DL/UL WDM Optical bres input/output connector
GROUND Equipment grounding
AC MAINS AC voltage input (100-240Vac)
FAN Fans power supply and control connector
ALARM Auxiliary alarms connector (4 in, 4 out)
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Low Power Remote Units External Access Points (AC Powered)
AC MAINS
MAINS
SOCKET
MAINS
SWITCH
EXT
OUT EXT
IN RS232
RF
PORT
LED
OPTICAL
DL/UL
Single/Dual/Tri-Band Low Power Remote Units External Access Points
Vac MAINS
CONNECTOR
AC MAINS
SWITCH RS232
RF
PORT
LED
OPTICAL
DL/UL
EXT
OUT EXT
IN
Six-Band Low Power Remote Unit External Access Points
Connectors Description
RF PORT Down Link/Up Link RF connector (N type)
OPTICAL DL/UL Optical bres input/output connector
AC MAINS AC voltage input (100-240Vac) and switch
EXT OUT External alarms output connector
EXT IN External alarms input connector
RS 232 9-pole D-Sub RS232 connector for Local Management
LED
Remote Unit general operating status LED
Green: no alarm
Blinking Orange: presence of active alarms with warning severity level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
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Low Power Remote Unit External Access Points (DC Powered)
Vdc INPUT
CONNECTOR
48Vdc
SWITCH
EXT
OUT EXT
IN RS232
RF
PORT
LED
OPTICAL
DL/UL
Connectors Description
RF PORT Down Link/Up Link RF connector (N type)
OPTICAL DL/UL Optical bres input/output connector
48V 3A Vdc input connector (48Vdc) and switch
EXT OUT External alarms output connector
EXT IN External alarms input connector
RS 232 9-pole D-Sub RS232 connector for Local Management
LED
Remote Unit general operating status LED
Green: no alarm
Blinking Orange: presence of active alarms with warning severity
level (4)
Orange: presence of active alarms with minor severity level (3)
Blinking Red: presence of active alarms with major severity level (2)
Red: presence of active alarms with critical severity level (1)
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Coverage Systems Management and Power Supply1.2.3
Management
Teko Telecom Supervision Module (TSPV) allows the management of the entire Coverage and
Capacity System.
The System Supervision Module is able to manage the Active Subrack it is equipped in (Master
Subrack) and up to other 12 Active Subracks (Monitored Subracks).
Twelve ports (1 to 8 and S1 to S4) are available on the Supervision Module front panel to be
connected to the RS485 ports of monitored Active Subracks.
The ports numbered from 1 to 8 are available for the connection to monitored subracks
mounted within the same rack hosting the Master Subrack.
The other four ports (S1 to S4) are available for the management of remote subracks equipped
with Slave supervision units.
When the Coverage System includes point to point links these ports allow the management
of the Slave Point to Point modules built-in Supervision units. Each Slave Point to Point
module Supervision unit manages the remote optical subrack - hosting the module - and all
connected Remote Units.
The Coverage System Supervision Module communicates with the Slave Point to Point built-
in Supervision via the single-mode optical ber (SMR 9/125) connecting Master and Slave
Point to Point modules.
When the Coverage System does not include point to point links, the master supervision
module communicates with the Remote Units via the single-mode optical ber (SMR 9/125)
connecting Fiber Optic modules to Remote Units.
Address assignement
Each monitored Subrack takes its address from the Supervision Module port it is connected
to (please refer to Paragraph 2.2.2 RS485 Connections for details).
The Active Subrack equipped with the Supervision Module (Master Subrack) takes address
= 0 (zero).
The whole Coverage System can be accessed and managed simply connecting a PC, either
locally or remotely, to to the IP address of the System Supervision Module.
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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EXAMPLE:
OPTICAL SYSTEM
MANAGEMENT ARCHITECTURE:
Optical System
Supervision Module
Passive RF
Interface
Optical and
Supervision
MASTER
Optical Subrack
Monitored
Optical Subrack
8th Monitored
Optical Subrack
MASTER UNIT REMOTE UNITS
Communication interfaces:
Ethernet LAN,
Modem, VPN, PPP
Monitoring PC
Web interface
Local management is performed connecting a PC to the Ethernet port (LAN, RJ45 connector),
available on the Supervision Module front panel. A local connection is required to perform
commissioning.
For remote control the System can be accessed via Ethernet, via external PSTN or wireless
modem or via optional built-in wireless modem.
The management of the System is performed via web pages: the Supervision Module is
equipped with a web-server and each component of the System is associated to a web page
displaying detailed information about the component.
The Supervision Module is also equipped with an SNMP-agent, which allows the control of
each parameter of the system via SNMP get/set/trap operations.
The Supervision Module is also provided with an OpenVPN application that allows remote
and secure access to the System using the Internet.
Teko Telecom Operation and Maintenance Terminal (OMT) web pages show the Coverage
System operating parameters and alarm status. They allow the commissioning, monitoring,
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setting and troubleshooting of the whole Coverage System.
Teko Telecom Operation Management Centre (OMC) proprietary software allows the
management of multiple Teko Telecom Coverage and Capacity Systems in a Network.
OMC is a client-server application: the server collects information, such as System status
and alarms, relevant to the Systems in the Network. The Server communicates with each
System Supervision Module via Ethernet (TCP-IP socket) or via PSTN or wireless modem.
The Client provides access to the information stored in the Server database. It allows
end-users to check the status of the Coverage Systems in the Network via a user friendly
graphical interface.
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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Power Supply
Coverage Systems can be AC or DC powered. Power supply modules can be equipped in
monitored Active Subracks or in the Master Subrack or in dedicated Active Subracks.
Example of Power Supply Modules equipped
in the Master Optical Subrack (the second
Power Supply Module, optional, provides
power supply redundancy for higher
reliability).
Fiber Optic
Modules
Supervision
Module
Power Supply
Modules
Fiber Optic
Modules
Example of Power Supply Modules equipped
in a monitored Active Subrack. The RJ45
connector available on the Power Supply
Module front panel can be used for connection
to the Supervision Module, equipped in the
Master Active Subrack.
Example of Power Supply Modules equipped
in a dedicated Active Subrack.
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Teko Telecom Coverage Systems Technical Specications1.2.4
This paragraph makes Coverage and Capacity Systems mechanical, environmental and power
supply specications available. Please refer to product datasheets for detailed electrical
specications. Contact Teko Telecom Sales Oce for further information.
Remote Units•
Remote Unit
model
Dimensions
(HxWxD)
Weight Operating
temperature
range
Degree of
protection
(IP)
Power supply
LOW POWER
Single / Dual /
Triband
350x350x100mm
(13.78x13.78x3.94 in)
max volume - heat
sinks and connectors
included
13 kg
(28.7 lbs)
-20°C up to +55°C
(-4°F up to +131°F)
IP32 (box)
IP66 (with
optional pro-
tection kit)
85÷264Vac
(50-60Hz) /AC
version
-72 ÷ -36Vdc
/48 version
6-band 414 x 395 x 144 mm
(24.41x16.34x10.24 in)
max volume - heat
sinks and connectors
included
19 kg
(41.9lbs)
MEDIUM POWER
Triband 570x415x260mm
(22.44x16.34x10.24 in)
max volume - heat
sinks, handles and
connectors included
30 kg
(66.1 lbs)
-20°C up to +55°C
(-4°F up to +131°F)
IP66 85÷264Vac
(50-60Hz)
Dual band 28 kg
(61.73 lbs)
Single band 26 kg
(57.32 lbs)
HIGH POWER
Triband 570x415x260mm
(22.44x16.34x10.24 in)
max volume - heat
sinks, handles and
connectors included
32 kg
(70.5 lbs)
-20°C up to +55°C
(-4°F up to +131°F)
IP66 85÷264Vac
(50-60Hz)
Dual band 30 kg
(66.1 lbs)
Single band 28 kg
(61.73 lbs)
VERY HIGH POWER
Triband 620x415x260mm
(24.41x16.34x10.24 in)
max volume - heat
sinks, handles and
connectors included
38 kg
(83.78 lbs)
-20°C up to +55°C
(-4°F up to +131°F)
IP66 85÷264Vac
(50-60Hz)
Dual band 37 kg
(81.57 lbs)
Single band 36 kg
(79.37 lbs)
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SIRIUS: Teko Telecom Modular Coverage and Capacity System
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System Subracks•
Dimensions 19” - 3U racks / depth 270 mm (10.63 in) - Active and Passive
Subracks
19” - 2U rack / depth 360 mm (14.17 in) - Service Front End Subrack
19” - 1U rack / depth 270 mm (10.63 in) - Forced-Air Cooling Subrack
Power supply (Active Subracks) 85÷264Vac (50-60Hz) (TPSU/AC)
-72÷-36Vdc (TPSU/48)
Operating temperature range -5°C up to +55°C (+23°F up to +131°F) with proper forced-air cooling

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