Product Description for Nokia Siemens Networks FlexiHopper XC Outdoor Unit DN70426692 Issue 1-0 en draft # Nokia Siemens Networks 1 (74) C34241.90–C0 Nokia Siemens Networks FlexiHopper XC, Rel. 2.2, Product Documentation, v. 1
Jan 03, 2016
Product Description for NokiaSiemens Networks FlexiHopperXC Outdoor Unit
DN70426692Issue 1-0 en draft
# Nokia Siemens Networks 1 (74)
C34241.90–C0Nokia Siemens Networks FlexiHopper XC, Rel.2.2, Product Documentation, v. 1
The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This document is not an officialcustomer document and Nokia Siemens Networks does not take responsibility for any errors oromissions in this document. This document is intended for the use of Nokia Siemens Networkscustomers only for the purposes of the agreement under which the document is submitted. Nopart of this documentation may be used, reproduced, modified or transmitted in any form ormeans without the prior written permission of Nokia Siemens Networks. The documentation hasbeen prepared to be used by professional and properly trained personnel, and the customerassumes full responsibility when using it. Nokia Siemens Networks welcomes customercomments as part of the process of continuous development and improvement of thedocumentation.
The information or statements given in this documentation concerning the suitability, capacity orperformance of the mentioned hardware or software products are given “as is” and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer.
IN NO EVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THISDOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL,DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES SUCH AS BUTNOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESSOPPORTUNITY OR DATA, that might arise from the use of this document or the information in it.
THE CONTENTS OF THIS DOCUMENT ARE PROVIDED "AS IS". EXCEPT AS REQUIREDBY APPLICABLE MANDATORY LAW, NO WARRANTIES OF ANY KIND, EITHER EXPRESSOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OFMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT,ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THISDOCUMENT. NOKIA SIEMENS NETWORKS RESERVES THE RIGHT TO REVISE THISDOCUMENT OR WITHDRAW IT AT ANY TIME WITHOUT PRIOR NOTICE.
This document and the product it describes are considered protected by copyrights and otherintellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark ofNokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners,and they are mentioned for identification purposes only.
Copyright © Nokia Siemens Networks 2008. All rights reserved.
Hereby, Nokia Siemens Networks, declares that this FlexiHopper XC Microwave Radio Family isin compliance with the essential requirements and other relevant provisions of Directive: 1999/5/EC.
The product is marked with the CE marking and Notified Body number according to the Directive1999/5/EC.
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
Contents
Contents 3
1 Overview 5
2 Applications 92.1 Network applications 92.2 Mobile transport network applications 92.3 Site configuration example 11
3 Features 153.1 FlexiHopper XC features overview 153.2 Transmission capacities and frequency bands 163.3 Capacity and modulation licencing 163.4 ALCQ and ATPC 173.5 1+1 hot standby (HSB) protected configuration 18
4 FlexiHopper XC Outdoor Unit structure 214.1 Functional units 214.2 Antennas 234.3 Powering concept 24
5 FlexiHopper XC Outdoor Unit installation 255.1 Installation summary 255.2 Connectors and cables 27
6 Upgrading FlexiHopper XC Outdoor Unit 316.1 Increasing transmission capacity 316.2 Upgrading to 1+1 hot standby (HSB) protected configuration 31
7 Technical specifications 337.1 Overview 337.2 Capacities 347.3 Environment 347.4 Interfaces 387.5 Outdoor unit power supply 397.6 Synchronisation, recovery, and changeover 407.7 Frequencies 407.8 RF parameters 457.9 FlexiHopper XC 4-state modulation 477.9.1 Transmission delay 477.9.2 Channel spacing 487.9.3 Modulation and demodulation 487.9.4 Interference sensitivity 517.9.5 Power levels 527.9.6 System value 557.9.7 Signature 567.10 FlexiHopper XC 16-state modulation 577.10.1 Transmission delay 57
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Contents
7.10.2 Channel spacing 587.10.3 Modulation and demodulation 587.10.4 Interference sensitivity 627.10.5 Power levels 637.10.6 System value 667.10.7 Signature 677.11 Flexbus cable 687.12 FlexiHopper XC standards 69
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
1 Overview
Nokia Siemens Networks FlexiHopper XC Microwave Radio (later referredto as FlexiHopper XC) is a reliable and flexible microwave radio, which canbe used in diverse transmission networks: mobile networks, fixed networksor private networks.
FlexiHopper XC is a member of the Nokia Siemens Networks HopperMicrowave Radio family, and it offers transmission capacities of 2 x 2 Mbit/s, 4 x 2 Mbit/s, 8 x 2 Mbit/s or 16 x 2 Mbit/s in 4-state modulation (QPSK)and 8 x 2 Mbit/s, 16 x 2 Mbit/s or 40 x 2 Mbit/s in 16-state modulation (16-QAM).
FlexiHopper XC has a so-called split-mount architecture; it consists of anoutdoor unit, FlexiHopper XC Outdoor Unit and an indoor unit, NokiaSiemens Networks FlexiHub (later referred to as FlexiHub), whichprovides baseband connectivity and is typically located indoors.
The element management of FlexiHopper XC Outdoor Unit is performedby Nokia Siemens Networks FlexiHub Manager (later referred to asFlexiHub Manager) through the FlexiHub. FlexiHopper XC Outdoor Unithas a consistent network management system interface for NokiaSiemens Networks NetAct (later referred to as NetAct), as with other NokiaSiemens Networks transmission products.
Release 2.2 documentation includes two separate product descriptions:one for FlexiHub and one for FlexiHopper XC Outdoor Unit. Therefore,information regarding FlexiHub can be found in Product Description forNokia Siemens Networks FlexiHub. Note that Product Description forNokia Siemens Networks FlexiHopper XC Outdoor Unit includesreferences to the material contained in the Product Description for NokiaSiemens Networks FlexiHub, and therefore it is advised to have access toboth documents.
Transmission capacity
FlexiHopper XC is available for the 7 GHz, 15 GHz, 18 GHz, 23 GHz, 38GHz and, starting from release 2.2, 13 GHz, frequency bands.
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Overview
All frequency bands are available with 4-state modulation (QPSK) and 16-state modulation (16-QAM). 16-QAM has the advantages of a narrowspectrum and good output power efficiency. For more information onavailable transmission capacities and frequency bands, see Transmissioncapacities and frequency bands.
Installation
The FlexiHopper XC Outdoor Unit can be installed on a roof, wall, or pole.The FlexiHopper antenna and FlexiHopper Alignment Unit can be installedon either side of a pole. Normally, no loose parts are needed in theinstallation of the alignment unit and the Outdoor Unit. The Outdoor Unitand the antenna are fitted with guides, which prevent installation inconflicting polarisations.
FlexiHopper XC uses the same FlexiHopper antennas and FlexiHopperAlignment Unit as the rest of FlexiHopper family, which make a possibleupgrade to FlexiHopper XC easy, as no antenna re-alignment is needed.
For more information, see Installing Hardware for Nokia SiemensNetworks FlexiHopper XC.
Management system
FlexiHopper XC Outdoor Unit can be controlled and managed both locallyand remotely through the FlexiHub, using FlexiHub Manager. TheManager features an easy-to-use graphical user interface. One of theimportant Manager features is a Commissioning Wizard that guides youthrough the radio hop commissioning tasks.
In FlexiHopper XC, NetAct can be used to monitor alarms andperformance statistics when the Q1 management interface is used. Whenusing an IP-based management interface, only alarms can be monitored.In the network management system, FlexiHub Manager can be usedremotely only with IP DCN management interfaces for remoteconfiguration management. For more information, see FlexiHub Managerunder FlexiHub management in Product Description for Nokia SiemensNetworks FlexiHub.
RoHS compliance
FlexiHopper XC, FlexiHub, and all supported plug-in units comply with theEuropean Union RoHS Directive 2002/95/EC on the restriction of the useof certain hazardous substances in electrical and electronic equipment.
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
The directive applies to the use of lead, mercury, cadmium, hexavalentchromium, polybrominated biphenyls (PBB), and polybrominateddiphenylethers (PBDE) in electrical and electronic equipment put on themarket after 1 July 2006.
Materials usage information of Nokia Siemens Networks ElectronicInformation Products imported or sold in the People’s Republic ofChina
FlexiHopper XC, FlexiHub, and all supported plug-in units comply with theChinese standard SJ/T 11364-2006 on the restriction of the use of certainhazardous substances in electrical and electronic equipment. Thestandard applies to the use of lead, mercury, cadmium, hexavalentchromium, polybrominated biphenyls (PBB), and polybrominated diphenylethers (PBDE) in electrical and electronic equipment put on the marketafter 1 March 2007.
WEEE
50
Product collection and disposal within the European Union
Do not dispose of theproduct as unsortedmunicipal waste. Thecrossed-out wheeledbin means that at theend of the product’slife it must be takento separate collection.
Note: this is applicable onlywithin the European Union(see WEEE Directive 2002/96/EC)
DN0577953
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Overview
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
2 Applications
2.1 Network applications
FlexiHopper XC is a high-capacity microwave radio operating inconjunction with a hub solution - FlexiHub. Together they provide anoptimal answer to a wide range of wireless access needs in variousnetwork environments, both in cellular and fixed applications.
FlexiHub and FlexiHopper XC are mainly applied in cellular base stationbackhauling. In addition, they can be used for:
. corporate access applications, and
. providing temporary high-capacity wireless link for voice and/or dataapplications.
For more information about the FlexiHub, see Product Description forNokia Siemens Networks FlexiHub.
2.2 Mobile transport network applications
FlexiHopper XC radios are mainly used in macrocellular sites, often incollocated 2G and 3G base stations. Because of a vast increase in voiceand data traffic in mobile networks, not only higher capacity microwaveradios are demanded, but also outstanding capabilities of the wholebackhauling network to support its growth and frequent changes.
FlexiHub offers higher amount and larger variety of transmission interfacesfor Nokia Siemens Networks Flexi EDGE BTS.
In a typical hub and spoke topology networks, FlexiHub provides flexibilityin network expansion and capacity upgrades. It also significantly reducesthe amount of cabling and installation work at the site.
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Applications
FlexiHub provides an efficient solution to small and medium sized hubsites. With FlexiHub it is possible to directly connect up to 11 microwaveradios (Outdoor Units). Connectivity between different radio directions isorganised through the software configuration of a single FlexiHub, eitherlocally or remotely. Centralised management system for remote FlexiHubcommissioning allows significant reduction of the operational costs.
Figure FlexiHub in a mobile transport network shows a typical mobilenetwork where FlexiHub is deployed.
Figure 1. FlexiHub in a mobile transport network
Panel 1 of the figure shows a hub and spoke network, where a singleFlexiHub connects a number of microwave radio directions to a redundantuplink. Panel 2 shows a loop network, where FlexiHub acts as a hub forbranched loop slave sites.
To RNC / BSC
Hub and spoke network Loop network
BSC
MHB
1
MHB = MetroHubFHB = FlexiHub
RNC = radio network controllerBSC = base station controller
2
Legend: BTS = 2G base stationNB = 3G base station
BTS
BTS
BTS
BTSBTS
FHB
FHB
NB
BTS FHB
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
FlexiHopper XC is especially suitable for any radio link where the expectedgrowth in capacity may exceed 16E1, but can also be used for any linkfrom 2E1 to 40E1. FlexiHub together with FlexiHopper XC scales from lowcapacity up to 40E1 equivalent capacity per radio hop. However, it ismainly used in the higher network level, while the FlexiHopper andFlexiHopper Plus microwave radios are used in the lower capacitybranches of the network.
2.3 Site configuration example
Figure Site configuration example 1 shows an example site configuration.In this example the high-capacity microwave radio link towards theaggregation network is implemented with FlexiHopper XC. The lowercapacity downlinks are implemented with FlexiHopper microwave radios.The FlexiHub provides connectivity between different radio directions aswell as connection to the local base station(s). Connection to the basestation is done with 8E1 PIU, or, alternatively, with Sub-2M CCU PIU. Incase of 8E1 PIU, It is possible to choose either symmetric (120 ohm) orasymmetric (75 ohm) cabling.
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Applications
Figure 2. Site configuration example 1
In figure FlexiHopper XC in a cellular network, it is assumed thatFlexiHopper microwave radios and FIU 19(E)s exist in the network andthey are carrying the traffic from the neighbouring tail and chain sites to thehub sites.
BTS
FlexbusFlexbus
n x E1
FlexiHub in 1+1HSB protectedconfiguration withFlexiHopper XC andplug-in units: Flexbus and8E1 (120 ohm)
3 x FlexiHopper
FlexiHopper XC(1+1 HSB protected configuration)
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
Figure 3. FlexiHopper XC in a cellular network
The high capacity microwave radio link to the fibre access site isimplemented with FlexiHopper XC. FlexiHub provides connectivity to thebase stations.
FlexiHopper XC 40E1 interfaces are implemented as symmetrical G.703interfaces. The 40E1 interfaces are split into two connectors and eachcarries 20 x 2 Mbit/s traffic. The E1 signals are wired to a Data DistributionFrame (DDF) with bundle cables as shown in the following figure. Forexample, DDF is used to interface with other equipment at the site. Seefigure Site configuration example 2.
Fibre site Largehub site
Smallhub site
Smallhub site
40E1(26E1 payload)
FH XC
FH 4E1
FH 2E1
Chain site Tail site
Tail site
16E1(10E1
payload)FH orFH XC
FH 4E1 FH 2E1
MH 2E1 FH 2E1
16E1(10E1
payload)FH orFH XC FH 4E1 MH 2E1
FH 2E1 FH 2E1
Controllersite
2-40 E1 MWR
2-16 E1 MWR
SDH, Fibre
FlexiHopper XC = FH XC
FlexiHopper (Plus) = FH
MetroHopper = MH
Chain site Tail site
Tail site
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Applications
It is also possible to use 8E1 PIUs instead of 40E1 PIUs.
Figure 4. Site configuration example 2
It is also possible to take into use a separate connector panel, as analternative to DDF. For more information, see Installing Hardware for NokiaSiemens Networks FlexiHopper XC.
DDF
2G 3G
E1cabling
Bundle cables
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
3 Features
3.1 FlexiHopper XC features overview
The FlexiHopper XC Outdoor Unit supports the following features:
. 3.5, 7, 14, 28 MHz channel spacing,
. QPSK and 16-QAM modulations with Reed-Solomon forward errorcorrection (FEC),
. powerful adaptive transversal equaliser against multipathpropagation,
. received signal level measurement,
. ALCQ (Automatic Level Control with Quality measurement) andATPC (Automatic Transmit Power Control) for monitoring thereceived signal level with the BER of the receiver, in order to adjustthe far-end transmitter output power to adapt to the fadingconditions, and
. 1+1 hot standby (HSB) protection with two FlexiHopper XC OutdoorUnits connected to duplicate indoor PIUs.
It is easy to perform an upgrade from FlexiHopper to FlexiHopper XCOutdoor Unit since no antenna re-alignment is needed. FlexiHopper XCuses the same FlexiHopper Antennas and FlexiHopper Alignment Units asthe rest of the FlexiHopper family.
Channel spacing is not limited to the mentioned above values. It ispossible to adjust channel spacing by incrementally increasing/decreasingthe value with the 10 kHz steps. Depending on the market area, it ispossible to use other channel spacing values, for example 5, 7.5, 13.75and 27.5 MHz at 18 GHz. For more information, see Technicalspecifications.
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Features
3.2 Transmission capacities and frequency bands
Each FlexiHopper XC 2.2 Outdoor Unit can support up to 40E1transmission capacity. The capacity allowed for a specific Outdoor Unit isdefined by the factory-installed SW licences and the FlexiHub XC MainUnit variant.
FlexiHopper XC is available for the 7 GHz, 13 GHz, 15 GHz, 18 GHz, 23GHz, and 38 GHz frequency bands. All frequency bands are available with4-state modulation (QPSK) and 16- state modulation (16-QAM). The radiotransmission capacities of 4-state modulation are 2 x 2 Mbit/s, 4 x 2 Mbit/s,8 x 2 Mbit/s or 16 x 2 Mbit/s. The channel spacing is 3.5 MHz, 7.0 MHz,14.0 MHz or 28.0 MHz accordingly. The radio transmission capacities of16-state modulation are 8 x 2 Mbit/s, 16 x 2 Mbit/s or 40 x 2 Mbit/s. Thechannel spacing is 7.0 MHz, 14.0 MHz or 28.0 MHz accordingly.
For more information, see Technical specifications.
3.3 Capacity and modulation licencing
Licences that define FlexiHopper XC capacity and modulation mode aretied to the FlexiHub XC Main Unit and are currently not upgradable in thefield. FlexiHopper XC can support up to 40E1 transmission capacity, butthe capacity allowed for the FlexiHopper XC is defined by the factory-installed software licences and the FlexiHub XC Main Unit variant. Thelicences have to be ordered separately in addition to the correct FlexiHubXC Main Unit variant. See table Capacity and modulation licences neededfor the list of required licenses.
Table 1. Capacity and modulation licences needed
Channel(MHz)
Modulation Channel(MHz)
Modulation
4-state 16-state 4-state 16-state
3.5 2 x 2 Mbit/s - 3.5 - -
7 4 x 2 Mbit/s 8 x 2 Mbit/s 7 - 1 capacity licence
1 modulation licence
14 8 x 2 Mbit/s 16 x 2 Mbit/s 14 1 capacity licence 2 capacity licences
1 modulation licence
28 16 x 2 Mbit/s 40 x 2 Mbit/s 28 2 capacity licences 4 capacity licences
1 modulation licence
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Product Description for Nokia Siemens Networks FlexiHopper XCOutdoor Unit
Table 1. Capacity and modulation licences needed (cont.)
Channel(MHz)
Modulation Channel(MHz)
Modulation
4-state 16-state 4-state 16-state
With one capacity licence the FlexiHopper XC reaches 8E1, with 2 licences 16E1.
With a modulation licence 16-state modulation can be applied.
With 4 capacity licences and a modulation licence 40E1 capacity with 16-state modulation can be achieved.
3.4 ALCQ and ATPC
ALCQ (Adaptive Level Control with Quality measurement) is a method ofAutomatic Transmit Power Control (ATPC). FlexiHopper XC offers bothstandard ATPC and the more sophisticated ALCQ. ATPC and ALCQenable the radio transmitter to increase or decrease the transmit powerautomatically, according to the response received from the other end of thehop. This approach achieves more efficient utilisation of radio frequenciesthan the constant power level approach. The controlled use of transmitpower reduces interference between systems, which, in turn, allows tighterpacking of radio links within the same geographical area or at network starpoints.
The maximum transmit power is set with FlexiHub Manager or otheremployed management application. However, when ATPC or ALCQ is inuse, the radio always tries to transmit at minimum power. The idea behindALCQ is to monitor the received signal level together with the bit error ratio(BER) of the receiver, and to adjust the far-end transmitter output power toadapt to the fading conditions.
According to this invention, the bit errors detected by the forward errorcorrection (FEC) decoder are interpreted as pseudo-errors, and further,used as an additional input for ALCQ operation. In other words, thismethod can respond to degradation of signal quality before actual biterrors occur over the radio relay.
If the fading increases rapidly (multipath fading), the radio reactsimmediately by increasing the power, but not higher than the set maximumvalue. After the fading conditions resume to normal, the power is graduallydecreased. ALCQ also reacts to slow changes in the fading conditions bygradually increasing the transmit power.
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Features
ATPC (Automatic Transmit Power Control) is similar to ALCQ but withoutBER measurement. ATPC controls the far-end transmit power level inorder to maintain the receive signal level above a certain user-definedthreshold level for the particular modulation method and capacity beingused. The selection between ALCQ and ATPC can be made usingFlexiHub Manager.
3.5 1+1 hot standby (HSB) protected configuration
1+1 HSB protected configuration mode ensures high reliability for theFlexiHub and the FlexiHopper XC Outdoor Unit. In this configuration, twoalternative data paths exist. The data flow path will be switched in case ofhardware failure in the current path. In 1+1 HSB protected configurationmode, the data flows from the upper radio through the FlexiHub slots 3 and6, or from the lower radio through slots 1 and 4 towards 40E1 IF PIUinstalled in slot 5.
In 1+1 HSB protected configuration mode, FlexiHub XC Main Unit isduplicated. The 40E1 LIC PIU can also be duplicated, if it is required toprotect E1 interfaces. In that case, two 40E1 LIC PIUs should be installedin slots 4 and 6. This configuration enables protection of the E1 interfacesand ensures efficiency and high reliability. 1+1 HSB protectedconfiguration is also possible when one 40E1 IF and one 40E1 LIC plug-inunits are installed in the FlexiHub, but in that case there is no protection forthe E1 interfaces.
When using 8E1 PIU instead of 40E1 IF PIU, 8E1 PIU doesn't have to beduplicated since it is not protected in 1+1 HSB configuration.
The radio of the Outdoor Unit must be duplicated as well. In theconfiguration with two radios installed, one of them acts as primary and theother one as protecting. Figure FlexiHopper XC 1+1 HSB protectedconfiguration illustrates FlexiHopper XC Outdoor Unit connection to theFlexiHub. Note that the protecting radio is connected to the protectingFlexiHub XC Main Unit (slot 3), and the primary radio - to the primaryFlexiHub XC Main Unit (slot 1).
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Figure 5. FlexiHopper XC 1+1 HSB protected configuration
Note that in order to implement 1+1 HSB protected mode, you need toinstall an additional FlexiHopper XC radio and an additional FlexiHub XCMain Unit.
ProtectingOutdoor Unit
PrimaryOutdoor Unit
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Features
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4 FlexiHopper XC Outdoor Unit structure
4.1 Functional units
The figure Block diagram of the Outdoor Unit illustrates the top-level blockdiagram of the FlexiHopper XC Outdoor Unit. It includes four functionalunits:
. a modem board with an integrated power supply,
. an intermediate frequency (IF) unit,
. a microwave unit, and
. a duplex filter.
Figure 6. Block diagram of the Outdoor Unit
Coax-cabletoindoorunit
DC/DC
CPU
VCO
AGC
VCO
HPAVVA
Antennaport
Modem board IF unit Microwave unit Duplexfilter
LNA
XN
VCO
ASIC
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FlexiHopper XC Outdoor Unit structure
A Flexbus cable is used to connect the FlexiHopper XC Outdoor Unit to theFlexiHub. The cable carries data between the FlexiHub and FlexiHopperXC Outdoor Unit in full-duplex mode. It also carries the required DC powerfrom the FlexiHub to the Outdoor Unit.
On the modem board, the DC voltage and the data signals are separatedfrom each other. DC voltage is converted to multiple DC voltage levels inthe power supply of the modem board and those voltage levels aredelivered to other units of the Outdoor Unit.
The modem board also includes the embedded microprocessor system,which is used to control all units within the Outdoor Unit as well as tocommunicate with the FlexiHub and the far-end radio. The interfacebetween the modem board and the RF parts consists of analog I and Qsignals.
In the transmitter (Tx) part, the data coming from the cable is demodulatedand reshaped in such a manner that it can be sent over the radio interface.The modulation of the Tx signal happens in the modem ASIC (Application-Specific Integrated Circuit) that also takes care of the Reed-Solomonencoding as well as Tx filtering.
The modem ASIC supplies the TxI and TxQ signals through the digital-to-analog converters to RF functions. In the transmitter, direct conversionarchitecture has been implemented to enable the use of a singlemicrowave local oscillator.
After the up-conversion, the signal is amplified enough in order to attainthe required maximum output power level. A temperature-compensatedpower detector is used to monitor the power level after the high-poweramplifier, and to drive the voltage variable attenuator in order to obtain therequired output power level.
On the receiver (Rx) side, single intermediate frequency (IF) conversionarchitecture is used. After the low-noise amplifier (LNA), the receivedsignal is down-converted to the IF. The automatic gain control (AGC) isused to obtain a constant rms-power level for the I/Q-demodulator.
In the I/Q-demodulator, the IF signals are converted to RxI and RxQsignals, which are supplied to the modem ASIC through the analog-to-digital converters.
Modem ASIC carries out Rx filtering, adaptive equalisation, timing andcarrier recovery, decision making and Reed-Solomon decoding. Thedemodulated data is then converted to the format that can be transmittedto the FlexiHub through the Flexbus cable.
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4.2 Antennas
FlexiHopper antennas are available in eight sizes: 20, 30, 60, 90, 120,180, 240 and 300 cm. The polarisation of the antenna can be easilychanged by rotating the Outdoor Unit and the antenna feeder through 90°.
Figure 7. FlexiHopper XC Outdoor Unit with an integrated 30 cm FlexiHopperantenna and FlexiHopper Alignment Unit
The Outdoor Unit is directly connected to a small (20, 30, or 60 cm) singleantenna by using the FlexiHopper Alignment Unit or to a larger (90, 120and 180 cm) single antenna by using a snap-on adapter. No waveguidesare needed. The alignment is carried out by using a ratchet or a battery-operated screwdriver.
All antennas can be used separately by connecting a flexible waveguidebetween the antenna and the radio.
Larger antennas (240 cm and 300 cm) can only be installed separately. 2.4m single polarised (SP) antenna is also available with a split reflectoroption and the 3.0 m antennas are delivered only with the split reflectoroption.
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FlexiHopper XC Outdoor Unit structure
FlexiHopper XC uses the same FlexiHopper antennas and FlexiHopperAlignment Units as the rest of FlexiHopper family, which make a possibleupgrade to FlexiHopper XC easy, as no antenna re-alignment is needed.For more detailed information, see Nokia Siemens Networks FlexiHopperXC Antennas, Alignment Units and Electrical Specifications.
4.3 Powering concept
The power is supplied to the FlexiHopper XC Outdoor Unit from theFlexiHub. The FlexiHopper XC has an N connector (female) and theFlexiHub has a TNC connector (female). The units are connected togetherwith a single coaxial Flexbus cable, that carries required DC power anddigital baseband data from the FlexHub to the FlexiHopper XC OutdoorUnit. On the modem board, the DC voltage and the data signals areseparated from each other. DC voltage is converted to multiple DC voltagelevels in the power supply of the modem board and those voltage levelsare delivered to other units of the Outdoor Unit. For the block-diagram ofthe FlexiHopper XC Outdoor Unit, see Functional units.
The low power consumption of the FlexiHopper XC Outdoor Unit results inhigh reliability and a long running time on battery backup. For the powerconsumption values, see Outdoor unit power supply.
In single configuration mode, one FlexiHub XC Main Unit provides thepower needed for the FlexiHopper XC. In 1+1 HSB protected configurationmode, the two FlexiHub XC Main Units share the power loading. The loadsharing is implemented with active load balancing, which ensuresefficiency and reliability, as the load is equally distributed between theredundant power supplies. For more information on powering of theFlexiHub, see Powering concept in Product Description for Nokia SiemensNetworks FlexiHub.
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5 FlexiHopper XC Outdoor Unit installation
5.1 Installation summary
The FlexiHopper XC Outdoor Unit can be installed on a roof, wall, or pole.For easier installation process, Nokia Siemens Networks offers twoinstallation kits: roof-mounting kit and wall-mounting kit. The Outdoor Unitdoes not have any specific accessories for the tower installation.
The FlexiHopper Antenna and FlexiHopper Alignment Unit can be installedon either side of a pole. Normally, no loose parts are needed in theinstallation of the alignment unit and the Outdoor Unit. The Outdoor Unitand the antenna are fitted with guides, which prevent installation inconflicting polarisations.
For more information, see Installing Hardware for Nokia SiemensNetworks FlexiHopper XC.
The following parts are needed in the normal installation of theFlexiHopper XC Outdoor Unit:
. FlexiHopper XC Outdoor Unit,
. FlexiHopper Antenna,
. FlexiHopper Alignment Unit,
. Flexbus cable with an N connector (waterproof) and cable clamps,
. grounding wire, 16 mm2.
If FlexiHopper XC is installed with a separate antenna, the followingadditional parts are needed:
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. FlexiHopper Alignment Unit,
. waveguide adapter,
. waveguide.
Flexbus cable connects the Outdoor Unit to the FlexiHub. Cables,including Flexbus cable, and connector kits are available from NokiaSiemens Networks.
The following order is recommended for the installation of the FlexiHopperXC Outdoor Unit:
1. Install the vertical installation pole (if applicable).
2. Install the FlexiHopper Alignment Unit, FlexiHopper Antenna, andFlexiHopper XC Outdoor Unit.
3. Pre-align the Antenna.
4. Connect the grounding wire to the Outdoor Unit.
5. Connect the Flexbus cable to the Outdoor Unit.
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Figure 8. Installing the Outdoor Unit with the integrated Alignment Unit
Carefully read Installing Hardware for Nokia Siemens NetworksFlexiHopper XC before attempting FlexiHopper XC Outdoor Unitinstallation.
5.2 Connectors and cables
FlexiHopper XC Outdoor Unit has 3 connectors:
. Grounding connector
. Flexbus connector
. AGC connector
Installation pole(30 -125 mm)
Alignment Unit
IU-OU Flexbus cable
FlexiHopper XC Outdoor Unit
Grounding wire
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Grounding connector - used for connecting a 16 mm2 grounding wire. Thepurpose of protective grounding is to keep the electrical potential of theequipment at the same level as the potential of the surrounding ground.This prevents generation of dangerous voltages between the equipmentand the ground. Because of the high locations of the radio and basestation equipment, equipment stations are particularly susceptible tolightning strokes.
Flexbus connector - used for connecting coaxial Flexbus cable to theOutdoor Unit. Flexbus cable carries power and digital baseband data fromthe FlexiHub. The FlexiHopper XC Outdoor Unit has an N connector(female) and the FlexiHub has a TNC connector (female). FlexiHopper XCuses the same Flexbus cables as other Hopper family products. Note thatthe Flexbus cable has to be grounded.
AGC connector - measurement point for the AGC (automatic gain control)voltage. AGC voltage measurement is needed when aligning the antennafor connecting DC voltage meter.
Figure 9. FlexiHopper XC Outdoor Unit connectors
Flexbus connectorGrounding connectorAGC connector
(antenna alignmentmonitor)
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Note that the cable interface on FlexiHub XC Main Unit is a high-speedinterface designed to support 40 E1 capacity and is not compatible withthe FlexiHopper (Plus) radios. Similarly, FlexiHopper XC Outdoor Unit isnot compatible with other Hopper family indoor units such as FIU 19(E),FXC RRI, IFUE, FIFA, FTFA, or RRIC.
For detailed information on connecting cables to the FlexiHopper XCOutdoor Unit, see Installing Hardware for Nokia Siemens NetworksFlexiHopper XC or Nokia Siemens Networks FlexiHopper XC Outdoor UnitInstallation Quick Reference Guide.
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6 Upgrading FlexiHopper XC Outdoor Unit
6.1 Increasing transmission capacity
Each FlexiHopper XC Outdoor Unit can support up to 40E1 transmissioncapacity, but the capacity allowed for a specific XC Outdoor Unit is definedby the factory-installed SW licences and the FlexiHub XC Main Unitvariant. Only a correct combination of these two factors - FlexiHub XCMain Unit and factory-installed licences - will give the desired capacity andmodulation. These licences must be ordered separately, in addition to theright FlexiHub XC Main Unit variant. Therefore no additional parts areneeded for increasing transmission capacity of the FlexiHopper XCOutdoor Unit.
The licences defining the FlexiHopper XC capacity and modulation modeare tied to the FlexiHub XC Main Unit and are currently not upgradable inthe field. Later FlexiHopper XC releases will support also fieldupgradability with licence keys.
For more information see Ordering Parts and Accessories for NokiaSiemens Networks FlexiHopper XC and corresponding sections in ProductDescription for Nokia Siemens Networks FlexiHub.
6.2 Upgrading to 1+1 hot standby (HSB) protectedconfiguration
It is possible to upgrade to 1+1 HSB protected configuration after the initialinstallation. Two FlexiHopper XC radios and their cabling are alwaysneeded for the installation. One radio acts as primary and the other one asprotecting. Note that this may require obtaining additional parts andaccessories depending on the existing antenna setup.
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For more information see Installing 1-antenna hot standby (HSB)equipment in Installing Hardware for Nokia Siemens NetworksFlexiHopper XC.
For complete information about equipment, tools, coupler assembly, andpolarisation adjustment, follow the instructions in Nokia Siemens NetworksFlexiHopper Integrated Coupler Installation Quick Reference Guide.
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7 Technical specifications
7.1 Overview
FlexiHopper XC 2.2 Outdoor Units are available in 7 GHz, 13 GHz, 15GHz, 18 GHz, 23 GHz and 38 GHz frequency bands. They offer selectablecapacity and modulation mode, depending on the FlexiHub XC Main Unitvariant and factory-installed software licence ordered.
Compatibility with FlexiHopper XC 2.1
FlexiHopper XC 2.2 software is fully compatible with FlexiHopper XC 2.1hardware platform.
Compatibility with FlexiHopper XC 1.x
FlexiHopper XC 2.2 or later additional features are limited in FlexiHopperXC 1.x hardware.
FlexiHopper XC 2.2 software is not fully supported by FlexiHopper XC 1.xhardware platform.
Note that FlexiHopper XC 1.x Outdoor Units, available in 15 GHz and 38GHz frequency bands, offer only fixed 40E1 capacity and 16-QAMmodulation mode.
For more information on upgrading to release 2.2 from release 1.x, contactyour local Nokia Siemens Networks representative.
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Technical specifications
7.2 Capacities
Table 2. Capacity options
Modulation Traffic capacity (Mbit/s) Symbol rate (MS/s, ±10 ppm)
4 - state 2 x 2 3.10
4 x 2 6.21
8 x 2 11.76
16 x 2 21.23
16 - state 8 x 2 5.94
16 x 2 11.32
40 x 2 24.19
7.3 Environment
Table 3. Electromagnetic compatibility (EMC)
Emissions
Radiated emission EN 55022 Class B or CISPR22
30 - 230 MHz: 30 dBµV/m Quasi-peak
> 230 - 1000 MHz: 37 dBµV/m Quasi-peak
1000 - 3000 MHz: 70 dBµV/m Peak limit;50 dBµV/m Average
3000 - 6000 MHz: 74 dBµV/m Peak limit;54 dBµV/m Average
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Table 3. Electromagnetic compatibility (EMC) (cont.)
Conducted emission EN 55022 Class B
DC port:
0.15 - 0.5 MHz: 66 - 56 dBµV Quasi-peak
56 - 46 dBµV Average
> 0.5 - 5 MHz: 56 dBµV Quasi-peak
46 dBµV Average
> 5 - 30 MHz: 60 dBµV Quasi-peak
50 dBµV Average
Telecommunication ports:
0.15 – 0.5 MHz: 84 - 74 dBµV Quasi-peak
74 - 64 dBµV Average
> 0.5 - 30 MHz: 74 dBµV Quasi-peak
64 dBµV Average
Immunities
RF EM field EN 61000-4-3
80 - 1000MHz, 1400 - 2000 MHz, 10 V/m:no errors
Electrostatic discharge EN 61000-4-2
± 8 kV air discharge: self-recovery, errorsaccepted
± 4 kV contact discharge: self-recovery,errors accepted
Fast common mode transients EN 61000-4-4
DC port:
±2 kV self recovery, errors accepted
Signal ports:
±1 kV self recovery, errors accepted
Earth port:
±1 kV self recovery, errors accepted
RF common mode EN 61000-4-6
DC port and signal ports:
0.15 – 80 MHz, 10 Vrms: no errors
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Technical specifications
Table 3. Electromagnetic compatibility (EMC) (cont.)
Surges EN 61000-4-5
DC port:
±0.5 kV, 1.2/µs, 2 Ω series resistance indifferential mode
±1.0 kV, 1.2/µs, 2 Ω series resistance incommon mode
Signal ports:
±1.0 kV, 1.2/µs, 2 Ω series resistance
No damage, self recovery, sync lossaccepted
Overvoltage tolerance of the indoor-outdoor cables and Outdoor Unit powerinput
4 kV
1.2/50 µs, 2 Ω series resistance
No damage, self recovery
Table 4. Environmental information
Change of temperature IEC 60068-2-14
Test Nb
Cold IEC 60068-2-1
Test Ab
Dry heat IEC 60068-2-2
Test Bb
Shock IEC 60068-2-27
Class 4M3 1)
Shock IEC 60068-2-29
Class 4M5 1)
Vibration, sinusoidal IEC 60068-2-6
Class 4M5 , Class 4M3 1)
Vibration, random IEC 60068-2-64
Class 4M5 , Class 4M3 1)
Damp heat cyclic variant 1 IEC 60068-2-30
Test Db
Tightness 2)
Salt mist 3)
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Table 4. Environmental information (cont.)
Notes:
1) In mechanical tests the product must fulfil class 4M5 with no damages allowed,and class 4M3 with no errors allowed during test execution.
2) The degree of protective closure of FlexiHopper XC Outdoor Unit shall be IP 66defined in IEC 60 529.
3) FlexiHopper XC shall pass cyclic salt mist test according IEC 60068-2-52 kb(severity 1).
Table 5. Environmental standards and conditions
All units, storage
Ambient temperature -40 to +70°C
EN 300 019-1-1 Class 1.2
EN 300 019-2-1 Class 1.2
All units, transportation
Ambient temperature -40 to +70°C
EN 300 019-1-2 Class 2.3
EN 300 019-2-2 Class 2.3
FlexiHopper XC Outdoor Unit, operation and tightness
Operating temperature -45°C to +55°C (operational)
-40°C to +55°C (start-up)
Wind < 55 m/s
Relative humidity 8 to 100%
Low air pressure 70 kPa (represents a limit value for openair use, normally at about 3000 m)
IEC 60529 Class IP 55
EN 300 019-1-4 Class 4.1 E
EN 300 019-2-4 Class 4.1 E
Antennas, operation
Operating temperature -45°C to +55°C (operational)
Wind load, survival 55 m/s with radial ice load of 25 mm,density 7 kN/m3
Relative humidity 8 to 100%
IEC 60529 Class IP 55
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7.4 Interfaces
Figure 10. FlexiHopper XC Outdoor Unit connectors
Table 6. Antenna connectors
Frequency band Waveguide flange
7 GHz UBR84
13 GHz UBR120
15 GHz UBR140
18, 23 GHz UBR220
38 GHz UBR320
Table 7. Electrical interfaces
Interface to Flexbus cable N connector (female) 50 Ω
Power supply for the Outdoor Unit
Flexbus connectorGrounding connectorAGC connector
(antenna alignmentmonitor)
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Table 7. Electrical interfaces (cont.)
AGC monitor interface
(antenna alignment monitor)
Banana Jack, 4 mm2
Voltage range: 0 - 3.3 V (decreasing withdecreasing Rx level)
Output impedance: > 3 kΩ
Table 8. Residual bit error ratio (RBER)
RBER ≤ 10-11
Table 9. Outdoor unit dimensions without antenna and alignment units
Frequencyband
Height Width Depth Weight
7 GHz 255 mm 220 mm 165 mm 4.7 kg
13 GHz 255 mm 220 mm 150 mm 4.5 kg
15 GHz 255 mm 220 mm 150 mm 4.5 kg
18 GHz 255 mm 220 mm 150 mm 4.2 kg
23 GHz 255 mm 220 mm 150 mm 4.2 kg
38 GHz 255 mm 220 mm 150 mm 4.0 kg
7.5 Outdoor unit power supply
Table 10. FlexiHopper XC Outdoor Unit power supply
DC supply voltage in Flexbus connector +48 to +60 VDC
Power consumption *) < 30 W
Power consumption (7 GHz OutdoorUnit)
35 W **)
*) Power consumption for 13, 15, 18, 23, and 38 GHz Outdoor Units.
**) 7 GHz Outdoor Unit is an enhanced output power radio, therefore powerconsumption is higher.
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Technical specifications
7.6 Synchronisation, recovery, and changeover
Table 11. Synchronisation, recovery, and changeover
Transmitter turn on time (Tx off to on) < 150 ms
Transmitter turn off time (Tx on to off) < 50 ms
Receiver synchronisation (Rx off to on) < 100 ms
Changeover time for E1 data / hot standby < 500 ms *)
*) Hub management changeover time might be longer.
7.7 Frequencies
Table 12. Frequency bands, duplex spacing, and sub-bands
Frequencyband
(GHz)
ITU-R Rec. Frequencyband
(GHz)
Duplexspacing
(MHz)
Number of
sub-bands
Sub-bandbandwidth
(MHz)
CEPT
LO HI
7 F.385-7 7.125 - 7.435 161 4 4 56 -
7.425 - 7.725 154 4 4 65 ECC/REC/(02)06
7.415 - 7.725 161 4 4 65 -
7.240 - 7.560 161 4 4 65 -
13 F.497-6 12.75-13.25 266 3 3 84 CEPT/ERC/REC 12-02
15 F.636-3 14.4-15.35 420 3 3 150 CEPT/ERC/REC 12-07E
15 F.636-3 14.4-15.35 490 3 3 170 CEPT/ERC/REC 12-07E
18 F595-8 17.7 – 19.7 1010 4 4 270 REC 12-03
23 F.637-3 21.2 – 23.6 1232 3 3 400 -
23 F.637-3 22.0 – 23.6 1008 2 2 400 T/R 13-02
38 F.749-2 37.0-39.5 1260 4 4 300 T/R 12-01 E
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Table 12. Frequency bands, duplex spacing, and sub-bands (cont.)
Frequencyband
(GHz)
ITU-R Rec. Frequencyband
(GHz)
Duplexspacing
(MHz)
Number of
sub-bands
Sub-bandbandwidth
(MHz)
CEPT
LO HI
Administration may define frequency band and duplex-spacing.
Figure 11. Channel spacing and duplex spacing
Table 13. FlexiHopper XC 7, frequency tuning range
Sub-bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
161 MHz duplex spacing, sub-bands A, B,C, D
A LO
B LO
C LO
D LO
7125.00 7168.25 7125.00 7166.50 7125.00 7163.00 7128.00 7156.00
7150.75 7203.25 7152.50 7201.50 7156.00 7198.00 7163.00 7191.00
7185.75 7238.25 7187.50 7236.50 7191.00 7233.00 7198.00 7226.00
7220.75 7273.25 7222.50 7271.50 7226.00 7268.00 7233.00 7261.00
A HI
B HI
C HI
D HI
7286.00 7329.25 7286.00 7327.50 7286.00 7324.00 7289.00 7317.00
7311.75 7364.25 7313.50 7362.50 7317.00 7359.00 7324.00 7352.00
7346.75 7399.25 7348.50 7397.50 7352.00 7394.00 7359.00 7387.00
7381.75 7434.25 7383.50 7432.50 7387.00 7429.00 7394.00 7422.00
154 MHz duplex spacing, sub-bands E, F, G, H
F LO1 F HI2F HI1
df
Duplex spacing
F LO2
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Table 13. FlexiHopper XC 7, frequency tuning range(cont.)
Sub-bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
E LO
F LO
G LO
H LO
7425.00 7477.25 7425.00 7475.50 7425.00 7472.00 7428.00 7465.00
7450.75 7512.25 7452.50 7510.50 7456.00 7507.00 7463.00 7500.00
7484.75 7546.25 7486.50 7544.50 7490.00 7541.00 7497.00 7534.00
7518.75 7571.00 7520.50 7571.00 7524.00 7571.00 7531.00 7568.00
E HI
F HI
G HI
H HI
7579.00 7631.25 7579.00 7629.50 7579.00 7626.00 7582.00 7619.00
7604.75 7666.25 7606.50 7664.50 7610.00 7661.00 7617.00 7654.00
7638.75 7700.25 7640.50 7698.50 7644.00 7695.00 7651.00 7688.00
7672.75 7725.00 7674.50 7725.00 7678.00 7725.00 7685.00 7722.00
161 MHz duplex spacing, sub-bands I, J, K, L
I LO
J LO
K LO
L LO
7415.75 7470.25 7417.50 7468.50 7421.00 7465.00 7428.00 7458.00
7450.75 7505.25 7452.50 7503.50 7456.00 7500.00 7463.00 7493.00
7484.75 7539.25 7486.50 7537.50 7490.00 7534.00 7497.00 7527.00
7518.75 7564.00 7520.50 7564.00 7524.00 7564.00 7531.00 7561.00
I HI
J HI
K HI
L HI
7576.75 7631.25 7578.50 7629.50 7582.00 7626.00 7589.00 7619.00
7611.75 7666.25 7613.50 7664.50 7617.00 7661.00 7624.00 7654.00
7645.75 7700.25 7647.50 7698.50 7651.00 7695.00 7658.00 7688.00
7679.75 7725.00 7681.50 7725.00 7685.00 7725.00 7692.00 7722.00
161 MHz duplex spacing, sub-bands M, N, O, P
M LO
N LO
O LO
P LO
7240.75 7302.25 7242.50 7300.50 7246.00 7297.00 7253.00 7290.00
7272.75 7334.25 7274.50 7332.50 7278.00 7329.00 7285.00 7322.00
7304.75 7366.25 7306.50 7364.50 7310.00 7361.00 7317.00 7354.00
7336.75 7398.25 7338.50 7396.50 7342.00 7393.00 7349.00 7386.00
M HI
N HI
O HI
P HI
7401.75 7463.25 7403.50 7461.50 7407.00 7458.00 7414.00 7451.00
7433.75 7495.25 7435.50 7493.50 7439.00 7490.00 7446.00 7483.00
7465.75 7527.25 7467.50 7525.50 7471.00 7522.00 7478.00 7515.00
7497.75 7559.25 7499.50 7557.50 7503.00 7554.00 7510.00 7547.00
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Table 14. FlexiHopper XC 13, frequency tuning range
Sub bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
266 MHz duplex spacing, sub-bands A, B, C
A LO
B LO
C LO
12752.75 12833.25 12754.50 12831.50 12758.00 12828.00 12765.00 12821.00
12822.75 12903.25 12824.50 12901.50 12828.00 12898.00 12835.00 12891.00
12892.75 12973.25 12894.50 12971.50 12898.00 12968.00 12905.00 12961.00
A HI
B HI
C HI
13018.75 13099.25 13020.50 13097.50 13024.00 13094.00 13031.00 13087.00
13088.75 13169.25 13090.50 13167.50 13094.00 13164.00 13101.00 13157.00
13158.75 13239.25 13160.50 13237.50 13164.00 13234.00 13171.00 13227.00
Table 15. FlexiHopper XC 15, frequency tuning range
Sub-bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
420 MHz duplex spacing, sub-bands A, B, C
A LO
B LO
C LO
14502.75 14649.25 14504.50 14647.50 14508.00 14644.00 14515.00 14637.00
14641.25 14787.75 14643.00 14786.00 14646.50 14782.50 14653.50 14775.50
14779.75 14921.00 14781.50 14921.00 14785.00 14921.00 14792.00 14914.00
A HI
B HI
C HI
14922.75 15069.25 14924.50 15067.50 14928.00 15064.00 14935.00 15057.00
15061.25 15207.75 15063.00 15206.00 15066.50 15202.50 15073.50 15195.50
15199.75 15341.00 15201.50 15341.00 15205.00 15341.00 15212.00 15334.00
490 MHz duplex spacing, sub-bands D, E, F
D LO
E LO
F LO
14404.75 14714.25 14406.50 14712.50 14410.00 14709.00 14417.00 14559.00
14571.25 14689.75 14569.50 14691.50 14566.00 14695.00 14560.00 14702.00
14547.75 14851.00 14549.50 14851.00 14553.00 14851.00 14702.00 14844.00
D HI
E HI
F HI
14894.75 15204.25 14896.50 15202.50 14900.00 15199.00 14907.00 15049.00
15061.25 15179.75 15059.50 15181.50 15056.00 15185.00 15050.00 15192.00
15037.75 15341.00 15039.50 15341.00 15043.00 15341.00 15192.00 15334.00
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Table 16. FlexiHopper XC 18, frequency tuning range
Sub-bandfreq.
3.5/5 MHz *) spacing 7.0/7.5 MHz *)spacing
13.75 MHz spacing 27.5 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
1010 MHz duplex spacing, sub-bands A, B, C, D
A LO
B LO
C LO
D LO
17704.75 17970.75 17706.00 17969.00 17709.50 17965.50 17716.50 17958.50
17951.75 18218.25 17953.50 18216.50 17957.00 18213.00 17964.00 18206.00
18171.75 18438.25 18173.50 18436.50 18177.00 18433.00 18184.00 18426.00
18419.25 18682.50 18421.00 18682.50 18424.50 18680.50 18431.50 18673.50
A HI
B HI
C HI
D HI
18714.75 18980.75 18716.00 18979.00 18719.50 18975.50 18726.50 18968.50
18961.75 19228.25 18963.50 19226.50 18967.00 19223.00 18974.00 19216.00
19181.75 19448.25 19183.50 19446.50 19187.00 19443.00 19194.00 19436.00
19429.25 19692.50 19431.00 19692.50 19434.50 19690.50 19441.50 19683.50
*) Same spectrum for both channelling alternatives.
Table 17. FlexiHopper XC 23, frequency tuning range
Sub-bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
1232 MHz duplex spacing, sub-bands A, B, C
A LO
B LO
C LO
21225.75 21622.25 21227.50 21620.50 21231.00 21617.00 21238.00 21610.00
21585.75 21982.25 21587.50 21980.50 21591.00 21977.00 21598.00 21970.00
21945.75 22342.25 21947.50 22340.50 21951.00 22337.00 21958.00 22330.00
A HI
B HI
C HI
22457.75 22854.25 22459.50 22852.50 22463.00 22849.00 22470.00 22842.00
22817.75 23214.25 22819.50 23212.50 22823.00 23209.00 22830.00 23202.00
23177.75 23574.25 23179.50 23572.50 23183.00 23569.00 23190.00 23562.00
1008 MHz duplex spacing, sub-bands M, N
M LO
N LO
22004.5 22400.25 22005.50 22398.50 22009.00 22395.00 22016.00 22388.00
22193.75 22589.00 22195.50 22588.50 22199.00 22585.00 22206.00 22578.00
M HI
N HI
23012.5 23408.25 23013.50 23406.50 23017.00 23403.00 23024.00 23396.00
23201.75 23597.00 23203.50 23596.50 23207.00 23593.00 23214.00 23586.00
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Table 18. FlexiHopper XC 38, frequency tuning range
Sub-bandfreq.
3.5 MHz spacing 7.0 MHz spacing 14.0 MHz spacing 28.0 MHz spacing
Low freq. High freq. Low freq. High freq. Low freq. High freq. Low freq. High freq.
1260 MHz duplex spacing, sub-bands A, B, C, D
A LO
B LO
C LO
D LO
37059.75 37346.25 37059.75 37344.50 37059.75 37341.00 37062.00 37334.00
37329.75 37626.25 37331.50 37624.50 37335.00 37621.00 37342.00 37614.00
37609.75 37906.25 37611.50 37904.50 37615.00 37901.00 37622.00 37894.00
37889.75 38176.25 37891.50 38176.25 37895.00 38176.25 37902.00 38174.00
A HI
B HI
C HI
D HI
38319.75 38606.25 38319.75 38604.50 38319.75 38601.00 38322.00 38594.00
38589.75 38886.25 38591.50 38884.50 38595.00 38881.00 38602.00 38874.00
38869.75 39166.25 38871.50 39164.50 38875.00 39161.00 38882.00 39154.00
39149.75 39436.25 39151.50 39436.25 39155.00 39436.25 39162.00 39434.00
Table 19. Transmitter frequency adjustment and stability
Frequency adjustment step* 0.001 MHz
Frequency stability in all conditions
Ageing
< ±10 ppm
< ±1 ppm / year
< ±5 ppm / 15 years
*The software allows a 1 kHz step. Due to hardware limitations the actual resolutionis 10 - 25 kHz.
7.8 RF parameters
Table 20. Nominal transmit power with 4-state modulation (QPSK) at antennaconnector
Frequency band Transmit power (dBm), nominal
7 GHz 27
13, 15 GHz 20
18, 23 GHz 18
38 GHz 16
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Table 21. Nominal transmit power with 16-state modulation (16-QAM) atantenna connector
Frequency band Transmit power (dBm), nominal
7 GHz 23
13, 15 GHz 20
18, 23 GHz 18
38 GHz 16
Table 22. Transmit power stability and adjustment
Frequency band Transmit powerstability
Transmit poweradjustment step
7, 13, 15, 18, 23 GHz < ±2 dB 1 dB
38 GHz < ±3 dB 1 dB
Table 23. Spurious outputs
Spurious emissions (Txand Rx) at antennaconnector
(1 MHz referencebandwidth)
Frequency
0.03 - 21.2 GHz
21.2 - 3rd harmonic
Level
< -50 dBm
< -30 dBm
Table 24. Out-of-band CW interference tolerance*
Frequency ofinterference source
C/I (dB) BER 10-6 thresholddegradation
0.07 GHz to 2nd harmonic(excluding ± twice thechannel bandwidth)
-30 1 dB
*Meets the standards listed in the Table Radio transmission (ETSI) in FlexiHopper XCstandards.
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Table 25. Noise figure at antenna connector
Frequency band Receiver noise figure (dB),guaranteed over temperature
7 GHz < 7
13 GHz < 6.5
15 GHz < 6.5
18, 23 GHz < 7
38 GHz < 8
Table 26. Automatic Gain Control (AGC) tracking speed, received signal levelmeasurement and automatic fading margin measurement
AGC tracking speed > 100 dB/s
Received signal level measurementaccuracy
(from BER 10-3 threshold up to -30 dBmlevel)
< ±3 dB (typical)
< ±5 dB (guaranteed)
7.9 FlexiHopper XC 4-state modulation
7.9.1 Transmission delay
Table 27. Transmission delay caused by IU + OU + OU + IU (4-statemodulation)
Modulation type Capacity (Mbit/s) Interleaver on*) Interleaver off
4-state modulation 2 x 2 - < 830 μs
4 x 2 < 870 μs < 670 μs
8 x 2 < 650 μs < 560 μs
16 x 2 < 430 μs < 370 μs
*) For 2 x 2 interleaver is not in use.
For calculating the transmission delay over the entire hop including indoorunits and radio path, you can use the following data:
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Technical specifications
. Transmission delay caused by hop length: 3.3 μs / km
7.9.2 Channel spacing
Table 28. Channel spacing between adjacent channels (ITU-R)* (4-statemodulation)
Frequency band Capacity
(Mbit/s)
Channel spacing, df (MHz)
Same polarisation Cross-polarisation
4-state modulation
All bands
2 x 2 3.5 0
4 x 2 7.0 0
8 x 2 14.0 0
16 x 2 28.0 0
4-state modulation
18 GHz
2 x 2 5.0 0
4 x 2 7.5 0
8 x 2 13.75 0
16 x 2 27.5 0
* Channel spacing is not limited to these values.
7.9.3 Modulation and demodulation
Table 29. Modulation and demodulation (4-state modulation)
Modulation Modulation method Demodulation method
4-state QPSK Coherent
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Figure 12. Spectrum mask for FlexiHopper XC operating in 4-state modulationmode
Table 30. Spectrum masks for 4-state modulation; Attenuation of spectrummask (dB) at a specific distance (MHz) from centre frequency (linearinterpolation between specified points)
Frequencyband
ETSI spectralefficiency classfor 4-statemodulation
Capacity
Channel spacing
Attenuation (dB) Distance fromcentre frequency(MHz)
All bands Class 2 2 x 2 Mbit/s
(3.5 MHz)
> 0
> 25
> 45
0 - 1.4
2.8 - 3.25
5.5 - 8.75
4 x 2 Mbit/s
(7.0 MHz)
> 0
> 25
> 45
0 - 2.7
5.6 - 6.5
11 - 17.5
8 x 2 Mbit/s
(14.0 MHz)
> 0
> 25
> 45
0 - 5.2
9.6 - 13
22 - 35
16 x 2 Mbit/s
(28.0 MHz)
> 0
> 25
> 45
0 - 10.4
19.2 - 26
44 - 70
Frequency from nominal carrier frequency (MHz)
Transmitterspectralpowerdensity(dB)
16 x 2M
8 x 2M
4 x 2M2 x 2M-50
-40
-30
-20
-10
0
-50 -40 -30 -20 -10 0 10 20 30 40 50
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Table 30. Spectrum masks for 4-state modulation; Attenuation of spectrummask (dB) at a specific distance (MHz) from centre frequency (linearinterpolation between specified points) (cont.)
Frequencyband
ETSI spectralefficiency classfor 4-statemodulation
Capacity
Channel spacing
Attenuation (dB) Distance fromcentre frequency(MHz)
Meets the standards listed in the table Radio Transmission (ETSI) in FlexiHopper XC Standards.
Table 31. Emission codes (ITU-R SM.1138)
Capacity (Mbit/s) Code
(4-state modulation)
2 x 2 3M50G7W, 5M00G7W*
4 x 2 7M00G7W, 7M50G7W*
8 x 2 14M0G7W, 13M8G7W*
16 x 2 28M0G7W, 27M5G7W*
* The latter emission codes apply only to 18 GHz, for which there are two alternative channel spacingavailable. As a result both presented emission codes apply to 18 GHz.
Table 32. Receiver bandwidths for the 4-state modulation
Capacity (Mbit/s) Bandwidth Receiver -3 dBbandwidth, nominal(MHz)
Receiver noisebandwidth, nominal(MHz)
2 x 2 3.5 MHz ±1.6 3.5
4 x 2 7.0 MHz ±3.3 7.0
8 x 2 14.0 MHz ±6.2 13.3
16 x 2 28.0 MHz ±11.3 24.0
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7.9.4 Interference sensitivity
Table 33. Co-channel interference (CCI, similar interference source), 4-statemodulation
Capacity C/I, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
All capacities 18 15 23 19
Table 34. Adjacent channel interference (ACI, similar interference source), 4-state modulation
Capacity(Mbit/s)
Channelspacing(MHz)
C/I, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
2 x 2 3.5 -8 -11 -4 -8
4 x 2 7.0 -8 -11 -4 -8
8 x 2 14.0 -8 -11 -4 -8
16 x 2 28.0 -8 -11 -4 -8
Table 35. Two channels away interference (similar interference source), 4-state modulation
Capacity C/I, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
All capacities -24 -27 -19 -23
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7.9.5 Power levels
Table 36. Nominal transmit power at antenna connector (4-state modulation)
Frequency band Transmit power (dBm), nominal
7 GHz 27
13 GHz 20
15 GHz 20
18, 23 GHz 18
38 GHz 16
Table 37. Minimum transmit power (4-state modulation)
Frequency band Capacity (Mbit/s) Minimum transmitpower (dBm), nominal
7 GHz All capacities -3
13, 15, 18 GHz All capacities -6
23, 38 GHz 2 x 2 -10
4 x 2 -7
8 x 2 -4
16 x 2 -1
Table 38. Receiver threshold at antenna connector (4-state modulation)
Frequencyband
Capacity(Mbit/s)
BER 10-3 threshold(dBm)
BER 10-6 threshold(dBm)
Typical Guaranteed Typical Guaranteed
7 GHz 2 x 2 -94 -92 -91 -89
4 x 2 -92 -90 -89 -87
8 x 2 -89 -87 -86 -84
16 x 2 -86 -84 -83 -81
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Table 38. Receiver threshold at antenna connector (4-state modulation) (cont.)
Frequencyband
Capacity(Mbit/s)
BER 10-3 threshold(dBm)
BER 10-6 threshold(dBm)
Typical Guaranteed Typical Guaranteed
13 GHz 2 x 2 -93 -91 -90 -88
4 x 2 -91 -89 -88 -86
8 x 2 -88 -86 -85 -83
16 x 2 -86 -84 -83 -81
15 GHz 2 x 2 -93 -91 -90 -88
4 x 2 -91 -89 -88 -86
8 x 2 -88 -86 -85 -83
16 x 2 -85 -83 -82 -80
18 GHz 2 x 2 -93 -91 -90 -88
4 x 2 -91 -89 -88 -86
8 x 2 -88 -86 -85 -83
16 x 2 -85 -83 -82 -80
23 GHz 2 x 2 -93 -91 -90 -88
4 x 2 -91 -89 -88 -86
8 x 2 -88 -86 -85 -83
16 x 2 -86 -84 -83 -81
38 GHz 2 x 2 -91 -89 -88 -86
4 x 2 -90 -88 -87 -85
8 x 2 -87 -85 -84 -82
16 x 2 -84 -82 -81 -79
Typical values are met by about 80% of the equipment working at T=25°Cat nominal power feeding.
Guaranteed values are guaranteed in full temperature range andfrequency range.
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Table 39. Typical receiver noise power (4-state modulation)
Frequency band Capacity (Mbit/s) Receiver noise powerat antenna port at 25°C(dBm), typical
7 GHz 2 x 2 -103.5
4 x 2 -100.5
8 x 2 -97.5
16 x 2 -95
13, 15, 18, 23 GHz 2 x 2 -104
4 x 2 -101
8 x 2 -98
16 x 2 -95.5
38 GHz 2 x 2 -102.5
4 x 2 -99.5
8 x 2 -96.5
16 x 2 -94
Table 40. Maximum receiver power level at antenna connector (4-statemodulation)
Frequency band Maximum input power at BER level No damage
7, 13, 15, 18 GHz -20 dBm 10-3 < 0 dBm
23, 38 GHz -20 dBm 10-3 < 0 dBm
-24 dBm 10-8 < 0 dBm
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7.9.6 System value
Table 41. System value for FlexiHopper XC using 4-state modulation
Frequency band Capacity
(Mbit/s)
System value,typical (dB)
System value,guaranteed (dB)
7 GHz 2 x 2 121 118
4 x 2 119 116
8 x 2 116 113
16 x 2 113 110
13 GHz 2 x 2 113 109
4 x 2 111 107
8 x 2 108 104
16 x 2 106 102
15 GHz 2 x 2 113 109
4 x 2 111 107
8 x 2 108 104
16 x 2 105 101
18 GHz 2 x 2 111 107
4 x 2 109 105
8 x 2 106 102
16 x 2 103 99
23 GHz 2 x 2 111 107
4 x 2 109 105
8 x 2 106 102
16 x 2 104 100
38 GHz 2 x 2 107 102
4 x 2 106 101
8 x 2 103 98
16 x 2 100 95
Typical values are met by about 80 % of the equipment working at T=25 °Cat nominal power feeding.
Guaranteed values are guaranteed in full temperature range andfrequency range.
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The system value is defined as the attenuation value between thetransmitter and receiver antenna ports, which causes BER 10-3.
Figure 13. Defining system value
7.9.7 Signature
Table 42. Signature data for BER limit 10-3 (4-state modulation)
Capacity (Mbit/s) Signature width w(MHz)
Notch depth Bn (dB) Dispersive fadingmargin (dB)
Minimum phase
2 x 2 < 3 MHz > 32 dB > 68.4
4 x 2 < 6 MHz > 32 dB > 65.4
8 x 2 < 12 MHz > 32 dB > 62.4
16 x 2 < 23 MHz > 26 dB > 52.7
Non-minimum phase
2 x 2 < 3 MHz > 32 dB > 68.4
4 x 2 < 6 MHz > 32 dB > 65.4
8 x 2 < 12 MHz > 32 dB > 62.4
16 x 2 < 23 MHz > 26 dB > 52.7
Table 43. Signature data for BER limit 10-6 (4-state modulation)
Capacity (Mbit/s) Signature width w(MHz)
Notch depth Bn (dB) Dispersive fadingmargin (dB)
Minimum phase
CTx
TxRx
Rx
A
A = system value
when
BER = 10 -3
C
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Table 43. Signature data for BER limit 10-6 (4-state modulation) (cont.)
Capacity (Mbit/s) Signature width w(MHz)
Notch depth Bn (dB) Dispersive fadingmargin (dB)
2 x 2 < 4 MHz > 32 dB > 67.2
4 x 2 < 7 MHz > 32 dB > 64.7
8 x 2 < 13 MHz > 29 dB > 58.6
16 x 2 < 25 MHz > 23 dB > 48.9
Non-minimum phase
2 x 2 < 4 MHz > 32 dB > 67.2
4 x 2 < 7 MHz > 32 dB > 64.7
8 x 2 < 13 MHz > 29 dB > 58.6
16 x 2 < 25 MHz > 23 dB > 48.9
7.10 FlexiHopper XC 16-state modulation
7.10.1 Transmission delay
Table 44. Transmission delay caused by IU + OU + OU + IU (16-statemodulation)
Modulation type Capacity (Mbit/s) Interleaver on Interleaver off
16-state modulation
All bands
8 x 2 < 540 μs < 450 μs
16 x 2 < 410 μs < 370 μs
40 x 2 < 310 μs < 270 μs
For calculating the transmission delay over the entire hop including indoorunits and radio path, you can use the following data:
. Transmission delay caused by hop length: 3.3 μs / km
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7.10.2 Channel spacing
Table 45. Channel spacing between adjacent channels (ITU-R)* (16-statemodulation)
Frequency band Capacity
(Mbit/s)
Channel spacing, df (MHz)
Same polarisation Cross-polarisation
16-state modulation
All bands
8 x 2 7.0 7.0
16 x 2 14.0 14.0
40 x 2 28.0 28.0
16-state modulation
18 GHz
8 x 2 7.5 7.0
16 x 2 13.75 13.75
40 x 2 27.5 27.5
* Channel spacing is not limited to these values.
7.10.3 Modulation and demodulation
Table 46. Modulation and demodulation (16-state modulation)
Modulation Modulation method Demodulation method
16-state 16 QAM Coherent
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Figure 14. Spectrum masks for FlexiHopper XC operating in 16-statemodulation mode (7, 13, 15 and 18 GHz).
Figure 15. Spectrum masks for FlexiHopper XC operating in 16-statemodulation mode (23 GHz)
0
-10
-20
-30
-40
-50
-55
-60-80 -20-30-40-50-70 0-10-60 10 20 7060504030 80
Frequency from nominal carrier frequency (MHz)
Transmitterspectralpowerdensity(dB)
16 x 2M 40 x 2M8 x 2M
0
-10
-20
-30
-40
-50
-55
-60-80 -20-30-40-50-70 0-10-60 10 20 7060504030 80
Frequency from nominal carrier frequency (MHz)
Transmitterspectralpowerdensity(dB)
16 x 2M 40 x 2M8 x 2M
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Figure 16. Spectrum masks for FlexiHopper XC operating in 16-statemodulation mode (38 GHz)
Table 47. Spectrum masks for 16-state modulation; Attenuation of spectrummask (dB) at a specific distance (MHz) from centre frequency (linearinterpolation between specified points)
Frequency band Spectrumefficiency classfor 16-statemodulation mode
Capacity
Channel spacing
Attenuation (dB) Distance fromcentre frequency(MHz)
7, 13, 15, 18 GHz Class 4 8 x 2 Mbit/s (7 MHz) >0
>32
>37
>55
0 - 2.8
5.6
7.0
14.0-17.5
16 x 2 Mbit/s (14MHz)
>0
>32
>37
>55
0 - 5.6
11.2
14.0
28.0 - 35.0
40 x 2 Mbit/s (28MHz)
> 0
> 32
> 37
> 55
0 - 11.2
22.4
28
56 - 70
0
-10
-20
-30
-40
-50
-60-80 -20-30-40-50-70 0-10-60 10 20 7060504030 80
-45
Frequency from nominal carrier frequency (MHz)
Transmitterspectralpowerdensity(dB)
16 x 2M 40 x 2M8 x 2M
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Table 47. Spectrum masks for 16-state modulation; Attenuation of spectrummask (dB) at a specific distance (MHz) from centre frequency (linearinterpolation between specified points) (cont.)
Frequency band Spectrumefficiency classfor 16-statemodulation mode
Capacity
Channel spacing
Attenuation (dB) Distance fromcentre frequency(MHz)
23 GHz Class 4 8 x 2 Mbit/s (7 MHz) > 0
> 30
> 35
> 50
0 – 2.8
5.6
7.0
12.25 – 17.5
16 x 2 Mbit/s (14MHz)
> 0
> 30
> 35
> 50
0 – 5.6
11.2
14.0
24.5 – 35.0
40 x 2 Mbit/s (28MHz)
> 0
> 30
> 35
> 50
0 - 11.2
22.4
28.0
49.0 - 70.0
38 GHz Class 4 8 x 2 Mbit/s (7 MHz) > 0
> 30
> 35
> 45
0 – 2.8
5.6
7.0
10.5 – 17.5
16 x 2 Mbit/s (14MHz)
> 0
> 30
> 35
> 45
0 – 5.6
11.2
14.0
21.0 – 35.0
40 x 2 Mbit/s (28MHz)
> 0
> 30
> 35
> 45
0 - 11.2
22.4
28
42.0 - 70.0
Meets the standards listed in Table Radio transmission (ETSI) in FlexiHopper XC standards.
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Table 48. Emission codes (ITU-R SM.1138)
Capacity (Mbit/s) Code
(16-state modulation)
8 x 2 7M00D7W, 7M50D7W*
16 x 2 14M0D7W, 13M8D7W*
40 x 2 28M0D7W, 27M5D7W*
* The latter emission codes apply only to 18 GHz, for which there are two alternative channel spacingavailable. As a result both presented emission codes apply to 18 GHz.
Table 49. Receiver bandwidths for the 16-state modulation
Capacity
(Mbit/s)
Bandwidth Receiver -3 dBbandwidth, nominal(MHz)
Receiver noisebandwidth, nominal(MHz)
8 x 2 7 MHz ±3.1 6.7
16 x 2 14 MHz ±6.0 12.8
40 x 2 28 MHz ±12.8 27.3
7.10.4 Interference sensitivity
Table 50. Co-channel interference (CCI, similar interference source), 16-statemodulation
Capacity
(Mbit/s)
C/I, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
8 x 2 27 23 28 24
16 x 2 27 23 28 24
40 x 2 27 23 28 24
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Table 51. Adjacent channel interference (ACI, similar interference source), 16-state modulation
Capacity
(Mbit/s)
Channelspacing(MHz)
C/I, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
8 x 2 7 -9 -12 -6 -10
16 x 2 14 -10 -13 -7 -11
40 x 2 28 -10 -13 -7 -11
Table 52. Two channels away interference (similar interference source), 16-state modulation
Capacity C/l, guaranteed (dB)
BER 10-3 thresholddegradation
BER 10-6 thresholddegradation
< 1 dB < 3 dB < 1 dB < 3 dB
All capacities -17 -19 -16 -18
-17 -19 -16 -18
-17 -19 -16 -18
7.10.5 Power levels
Table 53. Nominal transmit power at antenna connector (16-state modulation)
Frequency band Transmit power (dBm), nominal
7 GHz 23
13, 15 GHz 20
18, 23 GHz 18
38 GHz 16
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Table 54. Minimum transmit power (16-state modulation)
Frequency band Capacity (Mbit/s) Minimum transmitpower (dBm), nominal
7, 13, 15, 18 GHz 8 x 2 0
16 x 2 0
40 x 2 0
23 GHz 8 x 2 -5
16 x 2 -2
40 x 2 0
38 GHz 8 x 2 -5
16 x 2 -2
40 x 2 -2
Table 55. Receiver threshold at antenna connector (16-state modulation)
Frequencyband
Capacity(Mbit/s)
BER 10-3 threshold(dBm)
BER 10-6 threshold(dBm)
Typical Guaranteed Typical Guaranteed
7 GHz 8 x 2 -85 -82 -82 -79
16 x 2 -82 -79 -79 -76
40 x 2 -78 -75 -75 -72
13 GHz 8 x 2 -85 -82 -82 -79
16 x 2 -82 -79 -79 -76
40 x 2 -78 -75 -75 -72
15 GHz 8 x 2 -84 -81 -81 -78
16 x 2 -82 -79 -79 -76
40 x 2 -77 -74 -75 -72
18 GHz 8 x 2 -82 -79 -79 -76
16 x 2 -79 -76 -76 -73
40 x 2 -77 -74 -74 -71
23 GHz 8 x 2 -84 -81 -81 -78
16 x 2 -81 -78 -78 -75
40 x 2 -77 -74 -74 -71
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Table 55. Receiver threshold at antenna connector (16-state modulation)(cont.)
Frequencyband
Capacity(Mbit/s)
BER 10-3 threshold(dBm)
BER 10-6 threshold(dBm)
Typical Guaranteed Typical Guaranteed
38 GHz 8 x 2 -82 -79 -79 -76
16 x 2 -80 -77 -77 -74
40 x 2 -75 -72 -73 -70
Typical values are met by about 80% of the equipment working at T=25°Cat nominal power feeding.
Guaranteed values are guaranteed in full temperature range andfrequency range.
Table 56. Typical receiver noise power (16-state modulation)
Frequency band Capacity (Mbit/s) Receiver noise powerat antenna port at 25°C(dBm), typical
7 GHz 8 x 2 -100.5
16 x 2 -98.0
40 x 2 -94.5
13, 15, 18, 23 GHz 8 x 2 -101
16 x 2 -98.5
40 x 2 -95
38 GHz 8 x 2 -99.5
16 x 2 -97
40 x 2 -93.5
Table 57. Maximum receiver power level at antenna connector (16-statemodulation)
Frequency band Maximum input power at BER level No damage
7 GHz -20 dBm 10-3 < 0 dBm
13, 15, 18 GHz -20 dBm 10-6 < 0 dBm
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Table 57. Maximum receiver power level at antenna connector (16-statemodulation) (cont.)
Frequency band Maximum input power at BER level No damage
23, 38 GHz -20 dBm 10-3 < 0 dBm
-24 dBm 10-8 < 0 dBm
7.10.6 System value
Table 58. System value for FlexiHopper XC using 16-state modulation
Frequency band Capacity
(Mbit/s)
System value,typical (dB)
System value,guaranteed (dB)
7 GHz 8 x 2 108 103
16 x 2 105 100
40 x 2 101 96
13 GHz 8 x 2 105 100
16 x 2 102 97
40 x 2 98 93
15 GHz 8 x 2 104 99
16 x 2 102 97
40 x 2 97 92
18 GHz 8 x 2 100 95
16 x 2 97 92
40 x 2 95 90
23 GHz 8 x 2 102 97
16 x 2 99 94
40 x 2 95 90
38 GHz 8 x 2 98 92
16 x 2 96 90
40 x 2 91 85
Typical values are met by about 80% of the equipment working at T=25°Cat nominal power feeding.
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Guaranteed values are guaranteed in full temperature range andfrequency range.
The system value is defined as the attenuation value between thetransmitter and receiver antenna ports, which causes BER 10-3.
Figure 17. Defining system value
7.10.7 Signature
Figure 18. Typical signature curves for FlexiHopper XC with 16-statemodulation and with 40 x 2M capacity
CTx
TxRx
Rx
A
A = system value
when
BER = 10 -3
C
-15 -10 -5 0 5 10 1540
35
30
25
20
15
10 Minimum phase 1e-6
Minimum phase 1e-3
Non Minimum phase 1e-6
Non Minimum phase 1e-3
Frequency offset (MHz)
Notch depth (dB)
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Table 59. Signature data for BER limit 10-3 (16-state modulation)
Capacity (Mbit/s) Signature width w(MHz)
Notch depth Bn dB) Dispersive fadingmargin (dB)
Minimum phase
8 x 2 < 6 MHz > 31 dB > 64.3
16 x 2 < 12 MHz > 25 dB > 54.4
40 x 2 < 23 MHz > 19 dB > 44.7
Non-minimum phase
8 x 2 < 6 MHz > 31 dB > 64.3
16 x 2 < 12 MHz > 25 dB > 54.4
40 x 2 < 23 MHz > 19 dB > 44.7
Table 60. Signature data for BER limit 10-6 (16-state modulation)
Capacity (Mbit/s) Signature width w(MHz)
Notch depth Bn (dB) Dispersive fadingmargin (dB)
Minimum phase
8 x 2 < 7 MHz > 28 dB > 60.2
16 x 2 < 13 MHz > 22 dB > 50.6
40 x 2 < 25 MHz > 16 dB > 40.9
Non-minimum phase
8 x 2 < 7 MHz > 28 dB > 60.2
16 x 2 < 13 MHz > 22 dB > 50.6
40 x 2 < 25 MHz > 16 dB > 40.9
7.11 Flexbus cable
Table 61. Flexbus cable specifications
Cable type Coaxial cable, double shielded or semi-rigid
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Table 61. Flexbus cable specifications (cont.)
Connector type FlexiHopper XC Outdoor Unit: Nconnector (male) 50 Ω
FlexiHub XC Main Unit: TNC connector(male) 50 Ω
FlexiHopper (Plus) Outdoor Unit: TNCconnector (male) 50 Ω
Flexbus PIU: TNC connector (female) 50Ω
Characteristic impedance 50 ± 2 Ω
DC resistance < 4.6 Ω (sum of inner and outerconductor)
Data attenuation < 9.0 dB at 19 MHz
< 15.0 dB at 50 MHz
Signals on cable interface DC power supply
Bidirectional digital data (160 Mbit/s, 32-QAM at 22.125 MHz, occupied bandwidth42 MHz)
NOTE: Overvoltage protection and cable equaliser are integral parts of the cableinterface. Primary overvoltage protection is a 90 V gas-arrester discharge tube.
7.12 FlexiHopper XC standards
The following tables list the standards referred to in the technicalspecifications.
Table 62. Frequency allocation (ITU-R)
Recommendation Recommendation name
F.385-8 (2005) Radio-frequency channel arrangements for fixed wirelesssystems operating in the 7 GHz band.
F.497-7 (2007) Radio frequency channel arrangements for fixed wirelesssystems operating in the 13 GHz (12.75-13.25 GHz)frequency band.
F.636-3 (1994) Radio-frequency channel arrangements for radio-relaysystems operating in the 15 GHz band.
F.595-9 (2006) Radio-frequency channel arrangements for fixed wirelesssystems operating in the 18 GHz frequency band.
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Table 62. Frequency allocation (ITU-R) (cont.)
Recommendation Recommendation name
F.637-3 (1999) Radio-frequency channel arrangements for radio-relaysystems operating in the 23 GHz band.
F.749-2 (2001) Radio-frequency channel arrangements for radio-relaysystems operating in the 38 GHz band.
SM.1138-1 (2007) Determination of necessary bandwidths includingexamples for their calculation and associated examplesfor the designation of emissions.
Table 63. CEPT
Recommendation Recommendation name
ECC/REC/(02)06 (2002) Preferred channel arrangements for digital fixed servicesystems operating in the frequency range 7125-8500MHz.
ERC/REC 12-02 E (2007) Harmonised radio frequency channel arrangements foranalogue and digital terrestrial fixed systems operating inthe band 12.75 GHz to 13.25 GHz.
ERC/REC 12-07 E (1996) Harmonised radio frequency channel arrangements fordigital terrestrial fixed systems operating in the bands14.5 -14.62 GHz paired with 15.23 - 15.35 GHz.
ERC/REC 12-03 E (1994) Harmonised radio frequency channel arrangements fordigital terrestrial fixed systems operating in the band 17.7GHz to 19.7 GHz.
ERC/REC T/R 13-02 E(1993)
Preferred channel arrangements for fixed services in therange 22.0 - 29.5 GHz.
ERC/REC T/R 12-01 E(1991)
Harmonised radio frequency channel arrangements foranalogue and digital terrestrial fixed systems operating inthe band 37 GHz to 39.5 GHz.
ERC/REC 74-01 E (2005) Unwanted emissions in the spurious domain.
Table 64. Radio transmission (CENELEC)
Recommendation Recommendation name
EN 50383 (2002) Basic standard for the calculation and measurement ofelectromagnetic field strength and SAR related to humanexposure from radio base stations and fixed terminalstations for wireless telecommunications system (110MHz - 40 GHz).
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Table 64. Radio transmission (CENELEC) (cont.)
Recommendation Recommendation name
EN 50384 (2002) Product standard to demonstrate the compliance of radiobase stations and fixed terminal stations for wirelesstelecommunication systems with the basic restrictions orthe reference levels related to human exposure to radiofrequency electromagnetic fields (110 MHz - 40 GHz ) -Occupational.
EN 50385 (2002) Product standard to demonstrate the compliance of radiobase stations and fixed terminal stations for wirelesstelecommunication systems with the basic restrictions orthe reference levels related to human exposure to radiofrequency electromagnetic fields (110 MHz - 40 GHz ) -General public.
Table 65. Radio transmission (ETSI)
Recommendation Recommendation name
Final draft ETSI EN 302217-1 V1.2.1 (2007)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 1: Overview and system-independent commoncharacteristics.
EN 302 217-2-1, V1.1.3(2004)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 2-1: System-dependent requirements for digitalsystems operating in frequency bands where frequencyco-ordination is applied.
Final draft ETSI EN 302217-2-1 V1.2.1 (2007)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 2-1: System-dependent requirements for digitalsystems operating in frequency bands where frequencyco-ordination is applied.
HEN 302 217-2-2, V1.1.3(2004)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 2-2 Harmonized EN covering essential requirementsof Article 3.2 of R&TTE Directive for digital systemsoperating in frequency bands where frequency co-ordination is applied.
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Table 65. Radio transmission (ETSI) (cont.)
Recommendation Recommendation name
Final draft ETSI EN 302217-2-2, V1.2.2 (2007)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 2-2 Harmonized EN covering essential requirementsof Article 3.2 of R&TTE Directive for digital systemsoperating in frequency bands where frequency co-ordination is applied.
EN 302 217-4-1 V1.1.3(2004)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 4-1: System-dependent requirements for antennas.
HEN 302 217-4-2 V1.2.1(2006)
Fixed Radio Systems; Characteristics and requirementsfor point-to-point equipment and antennas;
Part 4-2: Harmonized EN covering essentialrequirements of Article 3.2 of R&TTE Directive forantennas.
EN 301 126-1, V1.1.2(1999)
Fixed Radio Systems; Conformance testing;
Part 1: Point-to-Point equipment - Definitions, generalrequirements and test procedures.
EN 301 126-3-1, V1.1.2(2002)
Fixed Radio Systems; Conformance testing;
Part 3-1: Point-to-Point antennas - Definitions, generalrequirements and tests procedures.
Table 66. Environment (ETSI)
Recommendation Recommendation name
EN 300 019-1-0 V2.1.2(2003)
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 1-0: Classification of environmental conditions;Introduction.
EN 300 019-1-1 V2.1.4(2003)
Class 1.2
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 1-1: Classification of environmental conditions;Storage.
EN 300 019-1-2 V2.1.4(2003)
Class 2.3
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 1-2: Classification of environmental conditions;Transportation.
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Table 66. Environment (ETSI) (cont.)
Recommendation Recommendation name
EN 300 019-2-0 V2.1.2(2003)
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 2-0: Specification of environmental tests;Introduction.
EN 300 019-2-1 V2.1.2(2000)
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 2-1: Specification for environmental testes; Storage.
EN 300 019-2-2 V2.1.2(1999)
Environmental Engineering (EE); Environmentalconditions and environmental tests fortelecommunications equipment;
Part 2-2: Specification for environmental testes;Transportation.
EN 300 132-2 V2.2.2(2007)
Environmental Engineering (EE); Power supply interfaceat the input to telecommunications equipment;
Part 2: Operated by direct current (dc).
EN 301 489-1 V1.6.1(2005)
Electromagnetic compatibility and Radio SpectrumMatters (ERM); ElectroMagnetic Compatibility (EMC)standard for radio equipment and services;
Part 1: Common technical requirements.
Final draft ETSI EN 301489-1 V1.7.1 (2007)
Electromagnetic compatibility and Radio SpectrumMatters (ERM); ElectroMagnetic Compatibility (EMC)standard for radio equipment and services;
Part 1: Common technical requirements.
EN 301 489-4 V1.3.1(2002)
Electromagnetic compatibility and Radio SpectrumMatters (ERM); ElectroMagnetic Compatibility (EMC)standard for radio equipment and services;
Part 4: Specific requirements for fixed radio links andancillary equipment and services.
Table 67. Environment (CENELEC)
Recommendation Recommendation name
EN 55022 (2006) Information technology equipment - Radio disturbancecharacteristics - Limits and methods of measurement.
EN 61000-4-2 (1995) Electromagnetic compatibility (EMC) –
Part 4-2: Testing and measurement techniques –Electrostatic discharge immunity test.
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Table 67. Environment (CENELEC) (cont.)
Recommendation Recommendation name
EN 61000-4-3 (2006) Electromagnetic compatibility (EMC) –
Part 4-3: Testing and measurement techniques –Radiated, radio frequency, electromagnetic field immunitytest.
EN 61000-4-4 (2004) Electromagnetic compatibility (EMC) –
Part 4-4: Testing and measurement techniques –Electrical fast transient/burst immunity test.
EN 61000-4-5 (2006) Electromagnetic compatibility (EMC) -
Part 4-5 Testing and measurement techniques - Surgeimmunity test.
EN 61000-4-6 (1996) Electromagnetic compatibility (EMC) -
Part 4-6 Testing and techniques - Immunity to conducteddisturbances, induced by radio frequency fields.
EN 60950-1 (2006) Information technology equipment - Safety -
Part 1: General requirements.
Table 68. IEC
Recommendation Recommendation name
IEC 60529 (1989) Degrees of protection provided by enclosures (IP Code).
IEC 60950-1 (2005) Information technology equipment - Safety -
Part 1: General requirements.
CISPR 22 (2005) Information technology equipment - Radio disturbancecharacteristics - Limits and methods of measurement.
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