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SIST EN 300 328-1 V1.2.2:2003

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ElectroMagnetic Compatibility and Radio Spectrum Matters (ERM); Wideband Transmission systems; data transmission equipment operating in the 2,4 GHz ISM band and using spread spectrum modulation techniques; Part 1: Technical characteristics and test conditions

ElectroMagnetic Compatibility and Radio Spectrum Matters (ERM); Wideband Transmission systems; data transmission equipment operating in the 2,4 GHz ISM band and using spread spectrum modulation techniques; Part 1: Technical characteristics and test conditions

Editorial update of ETS 300 328 as EN 300 328-1, consequent to publishing EN 300 328-2.

Elektromagnetna združljivost in zadeve v zvezi z radijskim spektrom (ERM) – Širokopasovni prenosni sistemi – Oprema za prenos podatkov, ki deluje v frekvenčnem pasu 2,4 GHz ISM in uporablja modulacijsko tehniko z razpršenim spektrom – 1. del: Tehnične karakteristike in preskusni pogoji

General Information

Status
Published
Publication Date
30-Nov-2003
ICS
33.060.99 - Other equipment for radiocommunications
33.100.01 - Electromagnetic compatibility in general
Technical Committee
SS EIT - Technical Board for the electrotechnical, information technology and telecommunications fields
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
01-Dec-2003
Due Date
01-Dec-2003
Completion Date
01-Dec-2003
Ref Project
ETSI EN 300 328-1 V1.2.2 (2000-07) - ElectroMagnetic Compatibility and Radio Spectrum Matters (ERM); Wideband Transmission systems; data transmission equipment operating in the 2,4 GHz ISM band and using spread spectrum modulation techniques; Part 1: Technical characteristics and test conditions
SIST EN 300 328-1 V1.2.2:2003SIST EN 300 328-1 V1.2.2:2003
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SIST EN 300 328-1 V1.2.2:2003
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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.UD]SUãHQLPElectroMagnetic Compatibility and Radio Spectrum Matters (ERM); Wideband Transmission systems; data transmission equipment operating in the 2,4 GHz ISM band and using spread spectrum modulation techniques; Part 1: Technical characteristics and test conditions33.100.01Elektromagnetna združljivost na splošnoElectromagnetic compatibility in general33.060.99Druga oprema za radijske komunikacijeOther equipment for radiocommunicationsICS:Ta slovenski standard je istoveten z:EN 300 328-1 Version 1.2.2SIST EN 300 328-1 V1.2.2:2003en01-december-2003SIST EN 300 328-1 V1.2.2:2003SLOVENSKI
STANDARD
ETSIEN300328-1V1.2.2(2000-07)EuropeanStandard(Telecommunicationsseries)Electromagneticcompatibilityand Radio spectrum Matters (ERM);WidebandTransmissionsystems;datatransmissionequipmentoperatinginthe2,4GHzISMbandandusingspreadspectrummodulationtechniques;Part1:TechnicalcharacteristicsandtestconditionsSIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)2ReferenceREN/ERM-TG11-001-1Keywordsdata,ISM,LAN,mobile,radio,spreadspectrum,testing,transmissionETSI650RoutedesLuciolesF-06921SophiaAntipolisCedex-FRANCETel.:+33492944200Fax:+33493654716SiretN°34862356200017-NAF742CAssociationàbutnonlucratifenregistréeàlaSous-PréfecturedeGrasse(06)N°7803/88ImportantnoticeIndividualcopiesofthepresentdocumentcanbedownloadedfrom:http://www.etsi.orgThepresentdocumentmaybemadeavailableinmorethanoneelectronicversionorinprint.Inanycaseofexistingorperceiveddifferenceincontentsbetweensuchversions,thereferenceversionisthePortableDocumentFormat(PDF).Incaseofdispute,thereferenceshallbetheprintingonETSIprintersofthePDFversionkeptonaspecificnetworkdrivewithinETSISecretariat.Usersofthepresentdocumentshouldbeawarethatthedocumentmaybesubjecttorevisionorchangeofstatus.InformationonthecurrentstatusofthisandotherETSIdocumentsisavailableathttp://www.etsi.org/tb/status/Ifyoufinderrorsinthepresentdocument,sendyourcommentto:editor@etsi.frCopyrightNotificationNopartmaybereproducedexceptasauthorizedbywrittenpermission.Thecopyrightandtheforegoingrestrictionextendtoreproductioninallmedia.©EuropeanTelecommunicationsStandardsInstitute2000.Allrightsreserved.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)3ContentsIntellectualPropertyRights.5Foreword.5Introduction.51Scope.62References.73Definitionsandabbreviations.83.1Definitions.83.2Abbreviations.94General.94.1Manufacturerdeclarations.94.2Presentationofequipmentfortypetesting.104.2.1Choiceofmodel.104.2.2Presentation.104.2.3Choiceofoperatingfrequencies.104.3Design.114.3.1General.114.3.2Controls.114.4Interpretationofthemeasurementresults.115Technicalcharacteristics.115.1Modulation.115.1.1FHSSmodulation.115.1.2DSSSandotherformsofmodulation.115.2Transmitterparameterlimits.125.2.1Effectiveradiatedpower.125.2.2Peakpowerdensity.125.2.3Frequencyrange.125.2.4Spuriousemissions.125.3Receiverparameterlimits.135.3.1General.135.3.2Spuriousemissions.136Testconditions.146.1Normalandextremetestconditions.146.2Powersources.146.2.1Powersourcesforstand-aloneequipment.146.2.2Powersourcesforplug-inradiodevices.146.3Normaltestconditions.146.3.1Normaltemperatureandhumidity.146.3.2Normalpowersource.156.3.2.1Mainsvoltage.156.3.2.2Lead-acidbatterypowersourcesusedonvehicles.156.3.2.3Otherpowersources.156.4Extremetestconditions.156.4.1Extremetemperatures.156.4.2Extremepowersourcevoltages.156.4.2.1Mainsvoltage.156.4.2.2Lead-acidbatterypowersourcesusedonvehicles.166.4.2.3Powersourcesusingothertypesofbatteries.166.4.2.4Otherpowersources.166.4.3Procedurefortestsatextremetemperatures.166.5Testingofhostconnectedequipmentandplug-inradiodevices.166.5.1AlternativeA:combinedequipment.166.5.2AlternativeB:useofahostortestjig.17SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)46.6Testdatasequence.177Methodsofmeasurement.177.1General.177.2Measurementsoftransmitterparameters.187.2.1Effectiveradiatedpower.187.2.2Peakpowerdensity.197.2.3FrequencyrangeofequipmentusingFHSSmodulation.207.2.4Frequencyrangeofequipmentusingotherformsofmodulation.217.2.5Spuriousemissions.227.3Measurementsofreceiverparameters.237.3.1General.237.3.2Spuriousemissions.238Measurementuncertaintyvalues.24AnnexA(normative):Testsitesandarrangementsforradiatedmeasurements.25A.1Testsites.25A.1.1Openairtestsites.25A.1.2Anechoicchamber.26A.1.2.1General.26A.1.2.2Description.26A.1.2.3Influenceofparasiticreflections.26A.1.2.4Calibrationandmodeofuse.27A.2Testantenna.28A.3Substitutionantenna.29AnnexB(normative):Generaldescriptionofmeasurement.30B.1Conductedmeasurementsanduseoftestfixture.30B.2Radiatedmeasurements.30B.3Substitutionmeasurement.31Bibliography.33History.34SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)5IntellectualPropertyRightsIPRsessentialorpotentiallyessentialtothepresentdocumentmayhavebeendeclaredtoETSI.TheinformationpertainingtotheseessentialIPRs,ifany,ispubliclyavailableforETSImembersandnon-members,andcanbefoundinETSISR000314:"IntellectualPropertyRights(IPRs);Essential,orpotentiallyEssential,IPRsnotifiedtoETSIinrespectofETSIstandards",whichisavailablefromtheETSISecretariat.LatestupdatesareavailableontheETSIWebserver(http://www.etsi.org/ipr).PursuanttotheETSIIPRPolicy,noinvestigation,includingIPRsearches,hasbeencarriedoutbyETSI.NoguaranteecanbegivenastotheexistenceofotherIPRsnotreferencedinETSISR000314(ortheupdatesontheETSIWebserver)whichare,ormaybe,ormaybecome,essentialtothepresentdocument.ForewordThisEuropeanStandard(Telecommunicationsseries)hasbeenproducedbyETSITechnicalCommitteeElectromagneticcompatibilityandRadiospectrumMatters(ERM).Thepresentdocumentispart1ofamulti-partENcoveringtheElectromagneticcompatibilityandRadioSpectrumMatters(ERM);WidebandTransmissionsystems;datatransmissionequipmentoperatinginthe2,4GHzISMbandandusingspreadspectrummodulationtechniques,asidentifiedbelow:Part1:"Technicalcharacteristicsandtestconditions";Part2:"HarmonizedENcoveringessentialrequirementsunderarticle3.2oftheR&TTEDirective".AnnexAprovidesadditionalrequirementsconcerningradiatedmeasurements.AnnexBcontainsnormativespecificationsfortheadjustmentofthemeasurementequipmentandoftheequipmenttobemeasuredinordertoachievecorrectresults.AnnexCprovidesaBibliography.NationaltranspositiondatesDateoflatestannouncementofthisEN(doa):31October2000DateoflatestpublicationofnewNationalStandardorendorsementofthisEN(dop/e):30April2001DateofwithdrawalofanyconflictingNationalStandard(dow):30April2001IntroductionWidebandradiodatatransmissionsystemsarerapidlybeingintroducedintoavarietyofcommercialandindustrialapplicationsandthetechnologyemployedbythesesystemsisstilldeveloping.Thepresentdocumentmaybeusedbyaccreditedtestlaboratoriesfortheassessmentoftheperformanceoftheequipment.Theperformanceoftheequipmentsubmittedfortypetestingshouldberepresentativefortheperformanceofthecorrespondingproductionmodel.Inordertoavoidanyambiguityinthatassessment,thepresentdocumentcontainsinstructionsforthepresentationofequipmentfortypetestingpurposes(clause4),testingconditions(clause6)andmethodsofmeasurement(clause7).Thepresentdocumentassumesthat:-thetypetestmeasurementsperformedinanaccreditedtestlaboratoryinoneCEPTcountrywouldbeacceptedbytheTypeApprovalAuthorityinanothercountryprovidedthatthenationalregulatoryrequirementsaremet(seeCEPTRecommendationT/R71-03[3]);-ifequipmentavailableonthemarketisrequiredtobecheckeditwouldbetestedinaccordancewiththemethodsofmeasurementspecifiedinthepresentdocument.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)61ScopeThepresentdocumentcoversequipmentreferredtoinCEPTRecommendationT/R10-01[1].Thepresentdocumentcoverstheminimumtechnicalcharacteristicsforradiodatatransmissionequipmenthavingthefollowingtechnicalparameters:-widebandradiomodulationtechniques;-aggregatebitratesinexcessof250kbits/s;-operationinthe2,4to2,4835GHzIndustrial,ScientificandMedical(ISM)band;-effectiveradiatedpowerofupto-10dBW(100mW);-powerdensityofupto-10dBW(100mW)per100kHzforfrequencyhoppingmodulation;-powerdensityofupto-20dBW(10mW)per1MHzforotherformsofspreadspectrummodulation.Thepresentdocumentonlyaddressesthetransceivers,transmittersandreceiversofequipmentofferedfortesting.Theequipmentofferedfortestingmaybeusedinfixed,mobileorportableapplications,e.g.:-stand-aloneradioequipmentwithorwithouttheirowncontrolprovisions;-plug-inradiodevicesintendedforusewithorwithinavarietyofhostsystems,e.g.personalcomputers,hand-heldterminals,etc.Theequipmentmaybefittedwithintegralantennaeand/orantennaconnectors.CEPTRecommendationT/R10-01[1]definesthetotalpowerandpowerdensitylimitsforsystemsusingspreadspectrummodulationtogetherwithaminimumaggregatebitrateof250kbits/s.TheRecommendationdoesnotaddressthedetailsofthesemodulationtechniques.Therefore,thepresentdocumentdoesnotcoverthedesignoroperationoftheequipmentbeingtestedbutdescribesacommonsetofmeasurementstobeappliedtovarioustypesofsuchequipment,includingthoseemployingFrequencyHoppingSpreadSpectrum(FHSS)modulationandDirectSequenceSpreadSpectrum(DSSS)modulation.CEPTRecommendationT/R10-01[1]specifiesthatspreadspectrummodulationbeusedanditgivespowerdensityvaluesforFHSSandDSSSmodulation.ThepresentdocumentspecifiestheminimumtechnicalparametersofFHSSmodulationsuchthatitcanbeclearlydifferentiatedfromothertypesofmodulation,includingDSSSmodulation.CEPTRecommendationT/R01-04[2]defineslimitsofspuriousemissionsforavarietyofradioequipment;theselimitsareusedinthepresentdocumentasappropriate.Thepresentdocumentdescribesmeasurementsforoperatingfrequencyrange(s),effectiveradiatedpowerandpowerdensityaswellasspuriousemissionsfortransmittersandreceivers.ThemeasurementmethodshavebeenadaptedfromETR027[4]wherepossible.Thepresentdocumentspecifiestestsitecharacteristics,testconditions,equipmentcalibrationandmethodsofmeasurement.Thepresentdocumentisageneralstandardwhichmaybesupersededbyspecificstandardscoveringspecificapplications.AdditionalstandardsorspecificationsmayberequiredforequipmentsuchasthatintendedforconnectiontothePublicSwitchedTelephoneNetwork(PSTN)and/orotherPublicDataNetworks(PDN).SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)72ReferencesThefollowingdocumentscontainprovisionswhich,throughreferenceinthistext,constituteprovisionsofthepresentdocument.• Referencesareeitherspecific(identifiedbydateofpublication,editionnumber,Versionnumber,etc.)ornon-specific.• Foraspecificreference,subsequentrevisionsdonotapply.• Foranon-specificreference,thelatestVersionapplies.• Anon-specificreferencetoanETSshallalsobetakentorefertolaterVersionspublishedasanENwiththesamenumber.[1]CEPTRecommendationT/R10-01:"WideBandDataTransmissionSystemsUsingSpread-SpectrumTechnologyinthe2,5GHzBand".[2]CEPTRecommendationT/R01-04:"UseofLowPowerDevices(LPD)UsingIntegralAntennasandOperatinginHarmonizedFrequencyBands".[3]CEPTRecommendationT/R71-03:"ProceduresforTypeTestingandApprovalforRadioEquipmentIntendedforNon-PublicSystems".[4]ETSIETR027:"RadioEquipmentandSystems(RES);Methodsofmeasurementforprivatemobileradioequipment".[5]ETSIETR028:"RadioEquipmentandSystems(RES);Uncertaintiesinthemeasurementofmobileradioequipmentcharacteristics".SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)83Definitionsandabbreviations3.1DefinitionsForthepurposesofthepresentdocument,thefollowingtermsanddefinitionsapply:aggregatebitrate:bitrateattheairinterface(seepointDinfigure1)includingprotocoloverheadwhereapplicableandexcludingtheeffectsofsignalspreading.ABCDDatabufferprocessingradiodevicedata1datanclock1clocknsignalspreadingTxamplifierspreadingsignaltransmitterA:InterfaceB:InputintoprocessinglogicC:InputintothemodulatorD:AirInterfaceFigure1:Parametersrelatedtotheaggregatebitratechip:unitofmodulationusedindirectsequencespreadspectrummodulation.chiprate:numberofchipspersecond.chipsequence:sequenceofchipswithdefinedlengthanddefinedchippolarities.directsequencespreadspectrummodulation:formofmodulationwhereacombinationofdatatobetransmittedandaknowncodesequence(chipsequence)isusedtodirectlymodulateacarrier,e.g.byphaseshiftkeying.Thetransmittedbandwidthisdeterminedbythechiprateandthemodulationscheme.fixedstation:equipmentintendedforuseinafixedlocationandfittedwithoneormoreantennae.Theequipmentmaybefittedwitheitherantennasocket(s)orintegralantenna(e)orboth.frequencyhoppingspreadspectrummodulation:spreadspectrumtechniqueinwhichthetransmittersignaloccupiesanumberoffrequenciesintime,eachforsomeperiodoftime,referredtoasthedwelltime.Transmitterandreceiverfollowthesamefrequencyhoppattern.Thefrequencyrangeisdeterminedbythelowestandhighesthoppositionsandthebandwidthperhopposition(seesubclause5.2.3).frequencyrange:rangeofoperatingfrequenciesoverwhichtheequipmentcanbeadjusted.hand-portablestation:equipmentnormallyusedonastand-alonebasisandtobecarriedbyapersonorheldinthehand.Theequipmentmaybefittedwithoneormoreantennae.Theequipmentmaybefittedwitheitherantennasocket(s)orintegralantenna(e)orboth.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)9host:hostequipmentisanyequipmentwhichhascompleteuserfunctionalitywhennotconnectedtotheradioequipmentpartandtowhichtheradioequipmentpartprovidesadditionalfunctionalityandtowhichconnectionisnecessaryfortheradioequipmentparttoofferfunctionality.integralantenna:antennadesignedtobeconnectedtotheequipmentwithouttheuseofastandardconnectorandconsideredtobepartoftheequipment.Anintegralantennamaybefittedinternallyorexternallytotheequipment.manufacturer:forthepurposesofthepresentdocument"manufacturer"isunderstoodtorefertothemanufacturerorapplicantofequipmentofferedfortesting.mobilestation:equipmentnormallyusedinavehicleorasatransportablestation.Theequipmentmaybefittedwithoneormoreantennae.Theequipmentmaybefittedwitheitherantennasocket(s)orintegralantenna(e)orboth.operatingfrequency:nominalfrequencyatwhichtheequipmentcanbeoperated;thisisalsoreferredtoastheoperatingcentrefrequency.Equipmentmaybeadjustableforoperationatmorethanoneoperatingfrequency.plug-inradiodevice:equipmentintendedtobeusedwithorwithinvarietyofhostsystems,usingtheircontrolfunctionsandpowersupply.powerenvelope:frequency/powercontourwithinwhichtheusefulRFpowerisgenerated.spreadspectrummodulation:modulationtechniqueinwhichtheenergyofatransmittedsignalisspreadthroughoutarelativelylargeportionofthefrequencyspectrum.stand-aloneradioequipment:equipmentthatisintendedprimarilyascommunicationsequipmentandthatisnormallyusedonastand-alonebasis.3.2AbbreviationsForthepurposesofthepresentdocument,thefollowingabbreviationsapply:dBmdBrelativeto1milliwattpowerdBWdBrelativeto1wattpowerDSSSDirectSequenceSpreadSpectrume.i.r.p.equivalentisotropicallyradiatedpowerFHSSFrequencyHoppingSpreadSpectrumISMIndustrial,ScientificandMedicalRFRadioFrequencyTxTransmitter4General4.1ManufacturerdeclarationsThemanufacturershalldeclarethefollowingspecificcharacteristicsoftheequipment:a)theaggregatebitrate(seesubclause3.1forthedefinition);b)thetypeofmodulationused:FHSSmodulation,DSSSmodulationoranyothertypeofspreadspectrummodulation(seesubclause5.1);c)whereFHSSmodulationisused:thenumberofhoppingchannels,thedwelltimeperchannelandthemaximumtimebetweentwoinstancesofuseofthesamechannel;thesevaluesshallfallwithinthespecificationsgiveninsubclause5.1.1;d)theoperatingfrequencyrange(s)oftheequipmentand,whereapplicable,band(s)ofoperation(seesubclause5.2.3);SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)10e)thetypeoftheequipment,forexample:stand-aloneequipmentorplug-inradiodevices(seealsosubclause3.1).Incaseofcombinedequipmentusingaplug-inradiodevice,andmorethanonecombinationisintended,eachcombinationshouldbedeclaredaswell(seealsosubclause6.5.1);f)theextremeoperatingconditionsthatapplytotheequipmentofferedfortesting;g)wheretheradioequipmentiscapableofdifferenttransmitterpowersettings,themanufacturershalldeclaretheintendedcombination(s)oftheradioequipmentpowersettingsandoneormoreantennaassemblies.Foreachcombination,thegainoftheantennaassemblyi.e.thetransferfunctionbetweentheconductedRFpowerande.i.r.p.,shallbedeclared;h)thenominalvoltagesofthestand-aloneradioequipmentorthenominalvoltagesofthehostequipmentincaseofplug-indevices.Wherethemanufactureroffersdifferentcombinationsofequipmentandantennae,theantennaeappropriateforagivencombinationshallbereferencedeitherontheequipmentandontheantennaeand/orintheuserdocumentation.4.2Presentationofequipmentfortypetesting4.2.1ChoiceofmodelThemanufacturershallofferoneormoreproductionmodelsorequivalentpreliminarymodels,asappropriate,fortypetesting.Iftypeapprovalisgivenonthebasisoftestson(a)preliminarymodel(s),thenthecorrespondingproductionmodelsshallbeidenticaltothetestedmodelsinallrespectsrelevantforthepurposesofthepresentdocument,tothepreliminarymodel(s)tested.Softwarefittedtoproductionmodelsshallbesubstantiallythesameasthatusedduringtypetesting.DuetothelowlevelsofRFsignalandthewidebandmodulationsusedinthistypeofequipment,radiatedRFpowermeasurementsareimprecise.Conductedmeasurementsaremuchmoreprecise;incombinationwiththedeclaredantennaassemblygain(s)adequateassuranceoftheRFcharacteristicscanbeachieved.Therefore,equipmentofferedfortestingshallpreferablyprovideasuitableconnectorforconductedRFpowermeasurements.Wherethisisnotpossible,themanufacturershallprovideadocumentedtestfixturethatconvertstheradiatedsignalintoaconductedsignalintoasuitabletermination.Alternatively,radiatedmeasurementsshallbeperformed.4.2.2PresentationStand-aloneequipmentshallbeofferedcompletewithanyancillaryequipmentneededfortesting.Themanufacturershalldeclare,therangeofoperatingconditionsandpowerrequirementsasapplicableinordertoestablishtheappropriatetestconditions.Plug-inradiodevicesmaybeofferedfortestingtogetherwithasuitabletestjigand/orhostequipmentintendedfornormaluse(seesubclause6.5).Themanufacturershalldeclaretherangeofoperatingconditionsandpowerrequirementsthatareapplicableinordertoestablishtheappropriatetestconditions.Whereamanufacturerdeclaresmultiplecombinationsofradioequipmentandantennae,theconfigurationtobeusedfortestingshallbechosenasfollowsexceptwherespecifiedotherwise:-foreachcombination,determinethehighestuserselectablepowerlevelandtheantennaassemblywiththehighestgain;-fromtheresultingcombinations,choosetheonewiththehigheste.i.r.p.4.2.3ChoiceofoperatingfrequenciesWhereequipmentcanbeadjustedtooroperatedatdifferentoperatingfrequencies,aminimumoftwooperatingfrequenciesshallbechosensuchthatthelowerandhigherlimitsoftheoperatingrange(s)oftheequipmentarecovered(seesubclause5.2.3).SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)114.3Design4.3.1GeneralTheequipmentsubmittedbythemanufacturer,shallbedesigned,constructedandmanufacturedinaccordancewithgoodengineeringpractice,andwiththeaimofminimizingharmfulinterferencetootherequipmentandservices.4.3.2ControlsThosecontrols(oftheradiopart)which,ifmaladjusted,mightincreasetheinterferingpotentialoftheequipmentshallnotbeeasilyaccessibletotheuser.4.4InterpretationofthemeasurementresultsTheinterpretationofthetestresultsrecordedinatestreportforthemeasurementsdescribedinthepresentdocumentshallbeasfollows:a)themeasuredvaluerelatedtothecorrespondinglimitshallbeusedtodecidewhetheranequipmentmeetstherequirementsoftheEN;b)theactualmeasurementuncertaintyofthetestlaboratorycarryingoutthemeasurements,foreachparticularmeasurement,inaccordancewithETR028[5],shallberecordedinthetestreport.Therecordedvalueofthemeasurementuncertaintyshallbe,foreachmeasurement,equaltoorlowerthanthefiguresinclause8(tableofmeasurementuncertainty).5Technicalcharacteristics5.1ModulationThemanufacturershalldeclarethemodulationcharacteristicsoftheequipmenttobetested.Forthepurposeofdecidingwhichlevelofpowerdensityappliestoequipmentofferedfortesting,thepresentdocumentdefinestwocategoriesofequipment:equipmentconformingtothestatedcharacteristicsofFHSSmodulation(seesubclause5.1.1)andequipmentnotconformingtothesecharacteristics.ThelattercategoryincludesequipmentusingDSSSmodulation(seesubclause5.1.2).5.1.1FHSSmodulationFHSSmodulationshallmakeuseofatleast20welldefined,non-overlappingchannelsorhoppingpositionsseparatedbythechannelbandwidthasmeasuredat20dBbelowpeakpower.Thedwelltimeperchannelshallnotexceed0,4seconds.Whiletheequipmentisoperating(transmittingand/orreceiving)eachchannelofthehoppingsequenceshallbeoccupiedatleastonceduringaperiodnotexceedingfourtimestheproductofthedwelltimeperhopandthenumberofchannels.SystemsthatmeettheaboveconstraintsshallbetestedaccordingtotherequirementsforFHSSmodulation.5.1.2DSSSandotherformsofmodulationForthepurposesofthepresentdocument,otherformsofspreadspectrummodulationwhichdonotsatisfytheconstraintsofthespecificationgiveninsubclause5.1.1,shallbeconsideredequivalenttoDSSSmodulation.SystemsusingtheseotherformsofmodulationshallbeconsideredequivalenttoDSSSsystemsandshallbetestedaccordingtotherequirementsforDSSSmodulation.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)125.2Transmitterparameterlimits5.2.1EffectiveradiatedpowerTheeffectiveradiatedpowerisdefinedasthetotalpowerofthetransmitterandiscalculatedaccordingtotheproceduregiveninsubclause7.2.1.Theeffectiveradiatedpowershallbeequaltoorlessthan-10dBW(100mW)e.i.r.p.Thislimitshallapplyforanycombinationofpowerlevelandintendedantennaassembly.Seeclause6forthetestconditions;seesubclause7.2.1forthemeasurementmethod.5.2.2PeakpowerdensityThepeakpowerdensityisdefinedasthehighestinstantaneouslevelofpowerinWattsperHertzgeneratedbythetransmitterwithinthepowerenvelope.ForequipmentusingFHSSmodulation,thepowerdensityshallbelimitedto-10dBW(100mW)per100kHze.i.r.p.Forequipmentusingothertypesofmodulation,thepeakpowershallbelimitedto-20dBW(10mW)perMHze.i.r.p.Seeclause6forthetestconditions;seesubclause7.2.2forthemeasurementandcalculationmethods.5.2.3FrequencyrangeThefrequencyrangeoftheequipmentisdeterminedbythelowestandhighestfrequenciesoccupiedbythepowerenvelope.fHisthehighestfrequencyofthepowerenvelope:itisthefrequencyfurthestabovethefrequencyofmaximumpowerwheretheoutputpowerdropsbelowthelevelof-80dBm/Hze.i.r.p.spectralpowerdensity(-30dBmifmeasuredina100kHzbandwidth).fListhelowestfrequencyofthepowerenvelope;itisthefrequencyfurthestbelowthefrequencyofmaximumpowerwheretheoutputpowerdropsbelowthelevelequivalentto-80dBm/Hze.i.r.p.spectralpowerdensity(or-30dBmifmeasuredina100kHzbandwidth).Foragivenoperatingfrequency,thewidthofthepowerenvelopeis(fH-fL).Inequipmentthatallowsadjustmentorselectionofdifferentoperatingfrequencies,thepowerenvelopetakesupdifferentpositionsintheallocatedband.ThefrequencyrangeisdeterminedbythelowestvalueoffLandthehighestvalueoffHresultingfromtheadjustmentoftheequipmenttothelowestandhighestoperatingfrequencies.Forallequipmentthefrequencyrangeshallliewithintheband2,4GHzto2,4835GHz(fL>2,4GHzandfH<2,4835GHz).Seeclause6forthetestconditions;seesubclauses7.2.3and7.2.4forthemeasurementmethods.5.2.4SpuriousemissionsSpuriousemissionsareemissionsoutsidethefrequencyrange(s)oftheequipmentasdefinedinsubclause5.2.3.Thelevelofspuriousemissionsshallbemeasuredas:either:a)theirpowerinaspecifiedload(conductedspuriousemissions);andb)theireffectiveradiatedpowerwhenradiatedbythecabinetorstructureoftheequipment(cabinetradiation);or:c)theireffectiveradiatedpowerwhenradiatedbycabinetandantenna.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)13Thespuriousemissionsofthetransmittershallnotexceedthevaluesintables1and2intheindicatedbands.Table1:TransmitterlimitsfornarrowbandspuriousemissionsFrequencyRangeLimitwhenoperatingLimitwheninstandby30MHzto1GHz-36dBm-57dBmabove1GHzto12,75GHz-30dBm-47dBm1,8GHzto1,9GHz5,15GHzto5,3GHz-47dBm-47dBmTheabovelimitvaluesapplytonarrowbandemissions,e.g.ascausedbylocaloscillatorleakage.Themeasurementbandwidthforsuchemissionsmaybeassmallasnecessarytoachieveareliablemeasurementresult.Widebandemissionsshallnotexceedthevaluesgivenintable2.Table2:TransmitterlimitsforwidebandspuriousemissionsFrequencyRangeLimitwhenoperatingLimitwheninstandby30MHzto1GHz-86dBm/Hz-107dBm/Hzabove1GHzto12,75GHz-80dBm/Hz-97dBm/Hz1,8GHzto1,9GHz5,15GHzto5,3GHz-97dBm/Hz-97dBm/HzSeeclause6forthetestconditions;seesubclause7.2.5forthemeasurementmethods.5.3Receiverparameterlimits5.3.1GeneralThepresentdocumentdoesnotimposelimitsonthereceiveroftheequipmentotherthanspuriousemissionlimits.5.3.2SpuriousemissionsThelevelofspuriousemissionsshallbemeasuredas:either:a)theirpowerinaspecifiedload(conductedspuriousemissions);andb)theireffectiveradiatedpowerwhenradiatedbythecabinetorstructureoftheequipment(cabinetradiation);or:c)theireffectiveradiatedpowerwhenradiatedbycabinetandantenna.Thespuriousemissionsofthereceivershallnotexceedthevaluesintables3and4intheindicatedbands.Table3:NarrowbandspuriousemissionlimitsforreceiversFrequencyRangeLimit30MHzto1GHz-57dBmabove1GHzto12,75GHz-47dBmTheabovelimitvaluesapplytonarrowbandemissions,e.g.ascausedbylocaloscillatorleakage.Themeasurementbandwidthforsuchemissionsmaybeassmallasnecessarytogetareliablemeasurementresult.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)14Widebandemissionsshallbenotexceedthevaluesgivenintable4.Table4:WidebandspuriousemissionlimitsforreceiversFrequencyRangeLimit30MHzto1GHz-107dBm/Hzabove1GHzto12,75GHz-97dBm/HzSeeclause6forthetestconditions;seesubclause7.3forthemeasurementmethods.6Testconditions6.1NormalandextremetestconditionsTypetestsshallbemadeundernormaltestconditionsandwherestatedinthemethodsofmeasurement(seealsoclause7),underextremeconditions(subclause6.4.1).Exceptionstothemeasurementproceduresgiveninthisclauseshallberecordedinthetestreport.6.2Powersources6.2.1Powersourcesforstand-aloneequipmentDuringtypetests,thepowersourceoftheequipmentshallbereplacedbyatestpowersourcecapableofproducingnormalandextremetestvoltagesasspecifiedinsubclauses6.3.2and6.4.2.Theinternalimpedanceofthetestpowersourceshallbelowenoughforitseffectonthetestresultstobenegligible.Forthepurposeoftests,thevoltageofthepowersourceshallbemeasuredattheinputterminalsoftheequipment.Forbatteryoperatedequipmentthebatteryshallberemovedandthetestpowersourceshallbeappliedasclosetothebatteryterminalsaspracticable.Duringteststhepowersourcevoltagesshallbemaintainedwithinatoleranceof±1%relativetothevoltageatthebeginningofeachtest.Thevalueofthistoleranceiscriticaltopowermeasurements;usingasmallertolerancewillprovidebettermeasurementuncertaintyvalues.6.2.2Powersourcesforplug-inradiodevicesThepowersourcefortestingplug-inradiodevicesshallbeprovidedbyatestjigorhostequipment.Wherethehostequipmentand/ortheplug-inradiodeviceisbatterypowered,thebatterymayberemovedandthetestpowersourceappliedasclosetothebatteryterminalsaspracticable.6.3Normaltestconditions6.3.1NormaltemperatureandhumidityThenormaltemperatureandhumidityconditionsfortestsshallbeanyconvenientcombinationoftemperatureandhumiditywithinthefollowingranges:-temperature:+15°Cto+35°C;-relativehumidity:20%to75%.Whenitisimpracticabletocarryoutthetestsundertheseconditions,anotetothiseffect,statingtheambienttemperatureandrelativehumidityduringthetests,shallberecordedinthetestreport.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)15Theactualvaluesduringthetestsshallberecordedinthetestreport.6.3.2Normalpowersource6.3.2.1MainsvoltageThenormaltestvoltageforequipmenttobeconnectedtothemainsshallbethenominalmainsvoltage.Forthepurposeofthepresentdocument,thenominalvoltageshallbethedeclaredvoltageoranyofthedeclaredvoltagesforwhichtheequipmentwasdesigned.ThefrequencyofthetestpowersourcecorrespondingtotheACmainsshallbebetween49Hzand51Hz.6.3.2.2Lead-acidbatterypowersourcesusedonvehiclesWhenradioequipmentisintendedforoperationfromtheusual,alternatorfedlead-acidbatterypowersourceusedonvehicles,thenthenormaltestvoltageshallbe1,1timesthenominalvoltageofthebattery(6V,12V,etc.).6.3.2.3OtherpowersourcesForoperationfromotherpowersourcesortypesofbattery(primaryorsecondary),thenominaltestvoltageshallbeasdeclaredbytheequipmentmanufacturer.Thisshallberecordedinthetestreport.6.4Extremetestconditions6.4.1ExtremetemperaturesFortestsatextremetemperatures,measurementsshallbemadeinaccordancewiththeproceduresspecifiedinsubclause6.4.3,attheupperandlowertemperaturesoftherangeasfollows:-temperature:-20°Cto+55°C;Wherethemanufacturer'sdeclaredoperatingrangedoesnotincludetherangeof-20°Cto+55°C,theequipmentshallbetestedoverthefollowingtemperatureranges:a)0°Cto+35°Cforequipmentintendedforindooruseonly,orintendedforuseinareaswherethetemperatureiscontrolledwithinthisrange;b)overtheextremesoftheoperatingtemperaturerange(s)ofthedeclaredhostequipment(s)incaseofplug-inradiodevices.Thefrequencyrangeasinsubclause5.2.3andthee.i.r.p.limitinsubclause5.2.1shallnotbeexceeded.Thetemperaturerangeusedinthetypetestingshallberecordedinthetestreportandshallbestatedintheusermanual.6.4.2ExtremepowersourcevoltagesTestsatextremepowersourcevoltagesspecifiedbelowarenotrequiredwhentheequipmentundertestisdesignedforoperationaspartofandpoweredbyanothersystemorpieceofequipment.Wherethisisthecase,thelimitvaluesofthehostsystemorhostequipmentshallapply.Theappropriatelimitvaluesshallbedeclaredbythemanufacturerandrecordedinthetestreport.6.4.2.1MainsvoltageTheextremetestvoltageforequipmenttobeconnectedtoanACmainssourceshallbethenominalmainsvoltage±10%.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)166.4.2.2Lead-acidbatterypowersourcesusedonvehiclesWhenradioequipmentisintendedforoperationfromtheusualtypeofalternatorfedlead-acidbatterypowersourceusedonvehicles,thenextremetestvoltageshallbe1,3and0,9timesthenominalvoltageofthebattery(6V,12Vetc.).6.4.2.3PowersourcesusingothertypesofbatteriesThelowerextremetestvoltagesforequipmentwithpowersourcesusingthefollowingtypesofbattery,shallbe:-fortheLeclanchéorlithiumtypebattery:0,85timesthenominalvoltageofthebattery;-forthemercuryornickel-cadmiumtypeofbattery:0,9timesthenominalvoltageofthebattery.Inbothcases,theupperextremetestvoltageshallbe1,15timesthenominalvoltageofthebattery.6.4.2.4OtherpowersourcesForequipmentusingotherpowersources,orcapableofbeingoperatedfromavarietyofpowersources(primaryorsecondary),theextremetestvoltagesshallbethosedeclaredbythemanufacturer;theseshallberecordedinthetestreport.6.4.3ProcedurefortestsatextremetemperaturesBeforemeasurementsaremadetheequipmentshallhavereachedthermalbalanceinthetestchamber.Theequipmentshallbeswitchedoffduringthetemperaturestabilizingperiod.Inthecaseofequipmentcontainingtemperaturestabilizingcircuitsdesignedtooperatecontinuously,thesecircuitsshallbeswitchedonfor15minutesafterthermalbalancehasbeenreached.Afterthistimetheequipmentshallmeetthespecifiedrequirements.Forthistypeofequipmentthemanufacturershallprovideforthepowersourcecircuitfeedingthesecircuitstobeindependentofthepowersourceoftherestoftheequipment.Ifthermalbalanceisnotcheckedbymeasurements,atemperaturestabilizingperiodofatleastonehour,orsuchperiodasmaybedecidedbythetestinglaboratory,shallbeallowed.Thesequenceofmeasurementsshallbechosenandthehumiditycontentinthetestchambershallbecontrolledsothatexcessivecondensationdoesnotoccur.Beforetestsattheupperextremetemperature,theequipmentshallbeplacedinthetestchamberandleftuntilthermalbalanceisattained.Theequipmentshallthanbemadetotransmitthetestdatasequence(seesubclause6.6)foratleastoneminute,followedbyfourminutesinthereceivecondition,afterwhichtheequipmentshallmeetthespecifiedrequirements.Fortestsatthelowerextremetemperature,theequipmentshallbeleftinthetestchamberuntilthermalbalanceisattained,thenswitchedtothestandbyorreceiveconditionforaperiodofoneminuteafterwhichtheequipmentshallmeetthespecifiedrequirements.6.5Testingofhostconnectedequipmentandplug-inradiodevicesForequipmentforwhichconnectiontoorintegrationwithhostequipmentisrequiredtoofferfunctionality,twoalternativeapproachesarepermitted.Themanufacturershalldeclarewhichalternativeshallbeused.6.5.1AlternativeA:combinedequipmentAcombinationofaradioequipmentpartandaspecifictypeofhostequipmentmaybeusedfortestingaccordingtothepresentdocument.Wheremorethanonesuchcombinationisintended,testingshallnotberepeatedforcombinationsofradiopartsandhostequipmentwherethelatteraresubstantiallysimilar.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)17Wheremorethanonesuchcombinationisintendedandhostsystemsarenotsubstantiallysimilar,onecombinationshallbetestedagainstallrequirementsofthepresentdocument;othercombinationsshallbetestedseparatelyforradiatedspuriousemissionsonly.6.5.2AlternativeB:useofahostortestjigWheretheradioequipmentpartisintendedforusewithavarietyofhostsystems,themanufacturershallsupplyasuitabletestconfigurationconsistingofeitherahostsystemintendedfornormaluseoratestjigthatisrepresentativeoftherangeofhostsystemsinwhichthedevicemaybeused.Thetestjigshallallowtheradioequipmentparttobepoweredandstimulatedinawaysimilartothewayitwouldbepoweredandstimulatedwhenconnectedtoorinsertedintohostequipment.Measurementsshallbemadetoallrequirementsofthepresentdocument.6.6TestdatasequenceThemanufacturershalldescribeandprovideatestdatasequencewithwhichthetransmitterismodulatedduringthemeasurementsdescribedinthepresentdocument.Thetestdatasequenceshallspreadthetransmittedpowerthroughoutthepowerenvelope.WheretheequipmentisnotcapableofcontinuousRFtransmission,thetestdatasequenceshallbesuchthat:-thegeneratedRFsignalisthesameforeachtransmission;-transmissionsoccurregularlyintime;-sequencesoftransmissionscanberepeatedaccurately.Thesametestdatasequenceshallbeusedforallmeasurementsonthesameequipment.Forfrequencyhoppingsystemsthemanufacturershallsupplyameansofselectingthehopfrequenciesrequiredbythepresentdocument.7Methodsofmeasurement7.1GeneralThissubclausedescribesmethodsofmeasurementforthefollowingtransmitterparameters:-theeffectiveradiatedpower;-thepeakpowerdensity;-thefrequencyrange(s);-thetransmitterspuriousemissions.Thissubclausedescribesmethodsofmeasurementforthefollowingreceiverparameters:-thereceiverspuriousemissions.Thefollowingmethodsofmeasurementshallapplytothetestingofstand-aloneunitsandtotheequipmentconfigurationsidentifiedinsubclause6.5.SIST EN 300 328-1 V1.2.2:2003

ETSIETSIEN300328-1V1.2.2(2000-07)187.2Measurementsoftransmitterparameters7.2.1EffectiveradiatedpowerTheeffectiveradiatedpowershallbedeterminedandrecordedinthetestreport.Thefollowingshallbeappliedtothecombination(s)oftheradiodeviceanditsintendedantenna(e).InthecasethattheRFpowerlevelisuseradjustable,allmeasurementsshallbemadewiththehighestpowerlevelavailabletotheuserforthatcombination.Thefollowingmethodofmeasurementshallapplytobothconductedandradiatedmeasurements.Inthecaseofradiatedmeasurements,usingatestsiteasdescribedinannexAandapplicablemeasurementproceduresasdescribedinannexB,theeffectiveradiatedpowerasdefinedinsubclause5.2.1shallbemeasuredandrecordedinthetestreport.Incaseofconductedmeasurements,thetransmittershallbeconnectedtothemeasuringequipmentviaasuitableattenuatorandtheRFpowerasdefinedinsubclause5.2.1shallbemeasuredandrecordedinthetestreport.Themeasurementshallbeperformedusingnormaloperationoftheequipmentwithmodulation,usingthetestdatasequence,applied.Thetestprocedureshallbeasfollows:-step1:-usingasuitablemeans,theoutputofthetransmittershallbecoupledtoadiodedetector;-theoutputofthediodedetectorshallbeconnectedtotheverticalchannelofanoscilloscope;-thecombinationofthediodedetectorandtheoscilloscopeshallbecapableoffaithfullyreproducingtheenvelopep
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SIST EN 301 091-2 V1.2.2:2006(Main)
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SIST EN 301 033 V1.2.1:2006(Main)
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SIST EN 302 208-1 V1.1.1:2006(Main)
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SIST EN 301 842-3 V1.1.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); VHF air-ground Digital Link (VDL) Mode 4 radio equipment; Technical characteristics and methods of measurement for ground-based equipment; Part 3: Additional broadcast aspects
ETSI EN 301 842-3 V1.1.1 (2005-02)

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SIST EN 301 489-7 V1.3.1:2006(Main)
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The present document, together with EN 301 489-1 [1], covers the assessment of radio equipment meeting Phase 1, Phase 2, and Phase 2+ GSM and DCS digital cellular mobile and portable radio equipment transmitting and receiving speech and/or data, and operating in digital cellular radio telecommunications systems, and associated ancillary equipment in respect of ElectroMagnetic Compatibility (EMC). Technical specifications related to the antenna port and emissions from the enclosure port of radio equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for Phase 1, Phase 2, and Phase 2+ GSM and DCS digital cellular mobile and portable radio equipment, transmitting and receiving speech and/or data, and associated ancillary equipment. Examples of digital cellular mobile and portable radio equipment covered by the present document are given in annex A. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and EN 301 489-1 [1], the provisions of the present document take precedence. Base station equipment (BTS and BSS) operating within network infrastructure is outside the scope of the present document. However, the present document does cover mobile and portable equipment that is intended to be operated in a fixed location while connected to the AC mains (see clause 5.5). The environment classification and the emission and immunity requirements used in the present document are as stated in EN 301 489-1 [1], except for any special conditions included in the present document.

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SIST EN 302 842-4 V1.1.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); VHF air-ground and air-air Digital Link (VDL) Mode 4 radio equipment; Technical characteristics and methods of measurement for aeronautical mobile (airborne) equipment; Part 4: Point-to-point functions
ETSI EN 302 842-4 V1.1.1 (2005-05)

The present document provides part 4 of the technical specifications for Very High Frequency (VHF) Digital Link (VDL) Mode 4 aeronautical mobile (airborne) radio transmitters, transceivers and receivers for air-ground and air-air communications operating in the VHF band, using Gaussian Filtered Frequency Shift Keying (GFSK) modulation with 25 kHz channel spacing and capable of tuning to any of the 25 kHz channels from 118,000 MHz to 136,975 MHz as defined in ICAO VDL SARPs [2]. The present document is designed to ensure that equipment certified to it will be compatible with the relevant ICAO VDL SARPs [2] and ICAO VDL4 Technical Manual [1]. Manufacturers should note that in future the tuning range for the transmitter may also cover any 25 kHz channel from 112,000 MHz to 117,975 MHz and the receiver(s) may cover any 25 kHz channel from 108,000 MHz to 117,975 MHz. The present document applies to "aeronautical mobile (airborne and as applicable also ground vehicles)" equipment which will hereinafter be referred to as "mobile" equipment. The scope of the present document is limited to mobile stations. The equivalent specification for ground stations is EN 301 842 [4]. A description of the scope of the VDL Mode 4 system is provided in part 2 of these technical specifications (see EN 302 842-2 [6], clause 1). EN 302 842-1 [5] deals with tests of the physical layer, EN 302 842-2 [6] deals with core link layer functionality and EN 302 842-3 [7] with additional broadcast functionality. The present document deals with tests of the datalink layer (DLS) and the link layer sufficient to support point-to-point functionality. Note that, as described in EN 302 842-2 [6], a system supporting point-to-point functionality is required to conform to EN 302 842-1 [5], EN 302 842-2 [6] and the specification in the present document.
The present document includes:
• references, definitions and abbreviations are provided in clauses 2 and 3;
• clause 4 describes the VDL Mode 4 mobile station point-to-point functions;
• clause 5 performance specifications for the VDL Mode 4 mobile station;
• clause 6 provides general design requirements;
• clause 7 provides protocol tests for the point-to-point functions of the system;
• a document history is contained in clause 8;
• annex A provides a detailed cross-reference to the relevant requirements contained in ICAO VDL4 Technical Manual [1].
Note that the system can support a very wide range of functions. It is not practical to provide specific tests for all aspects of functionality. The approach used is to provide detailed tests for the core point-to-point functionality and to provide tests of those remaining requirements which, if wrongly implemented, could cause a deterioration in the service offered by other VDL Mode 4 stations.
Mandating and Recommendation Phrases
a) "Shall":
- The use of the word "Shall" indicates a mandated criterion; i.e. compliance with the particular procedure or specification is mandatory and no alternative may be applied.
b) "Should":
- The use of the word "Should" (and phrases such as "It is recommended that...", etc.) indicates that though the procedure or criterion is regarded as the preferred option, alternative procedures, specifications or criteria may be applied, provided that the manufacturer, installer or tester can provide information or data to adequately support and justify the alternative.

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SIST
SIST EN 300 674-1 V1.2.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); Road Transport and Traffic Telematics (RTTT); Dedicated Short Range Communication (DSRC) transmission equipment (500 kbit/s / 250 kbit/s) operating in the 5,8 GHz Industrial, Scientific and Medical (ISM) band; Part 1: General characteristics and test methods for Road Side Units (RSU) and On-Board Units (OBU)
ETSI EN 300 674-1 V1.2.1 (2004-02)

The present document applies to Road Transport and Traffic Telematics (RTTT) wireless systems:
- with or without antenna connectors;
- for digital data transmission;
- operating on radio frequencies in the 5,725 GHz to 5,875 GHz Industrial, Scientific and Medical (ISM) frequency band.
The applicability of the present document covers both the Road Side Units (RSUs) and the On-Board Units (OBUs) with transceivers and transponders. The present document complies with ECC/DEC/(02)01 [1] and CEPT/ERC/REC 70-03 [3]. It is a specific standard covering various RTTT applications. Additional standards or specifications may be required for equipment such as that intended for connection to the Public Switched Telephone Network (PSTN) or other systems.

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SIST
SIST EN 302 066-2 V1.1.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); Short Range Devices (SRD); Ground- and Wall- Probing Radar applications; Part 2: Harmonized EN under article 3.2 of the R&TTE Directive
ETSI EN 302 066-2 V1.1.1 (2005-09)

The present document specifies the requirements for Ground- and Wall- Probing Radar applications operating in all or part of the frequency band from 30 MHz to 12,4 GHz. Ground Probing Radars (GPR) and Wall Probing Radars (WPR) are used in survey and detection applications. The scope is limited to radars operated as short range devices (because of their usage and design), in which the system is in close proximity to the materials being investigated. It does not include radars operated from aircraft or spacecraft. The radar applications in the present document are not intended for communications purposes. Their intended usage excludes radiation into the free space and means shall be taken to keep it to a minimum.
NOTE 1: Equipment using the frequencies typically below 100 MHz may use higher output power for geophysical applications and therefore, may not fulfil the emission requirements set out in the present document.
NOTE 2: Equipment covered by the present document is used by competent professional personnel. The present document applies to:
• Ground Probing Radars (GPR) operating over approximately one decade in the frequency range 30 MHz to 12,4 GHz radiating directly downwards into the ground. Any horizontal radiation from this equipment is caused by leakage and is considered as undesired emission.
• Wall Probing Radars (WPR) operating in the frequency range 30 MHz to 12,4 GHz radiating directly into a "wall". The "wall" is a building material structure, the side of a bridge, the wall of a mine or another physical structure that absorbs a significant part of the signal transmitted by the radar.
• Equipment fitted with integral antennas and without antenna connector.
• Equipment which uses different imaging heads (antennas) with an antenna connector, to allow operation at different frequencies.
The document does not necessarily include all the characteristics which may be required by a user, nor does it necessarily represent the optimum performance achievable.
The present document contains the technical characteristics and test methods for Ground- and Wall- Probing Radar applications.
The present document is intended to cover the provisions of Directive 1999/5/EC [1] (R&TTE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it effectively uses the spectrum allocated to terrestrial/space radio communications and orbital resources so as to avoid harmful interference". In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the R&TTE Directive [1] will apply to equipment within the scope of the present document. The document responds to the EC mandate M/329 for Harmonized Standards covering Ultra-WideBand (UWB) applications [5].

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SIST
SIST EN 301 842-1 V1.2.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); VHF air-ground Digital Link (VDL) Mode 4 radio equipment; Technical characteristics and methods of measurement for ground-based equipment; Part 1: EN for ground equipment
ETSI EN 301 842-1 V1.2.1 (2005-04)

The present document provides part 1 of the technical specifications for Very High Frequency (VHF) Digital Link (VDL) Mode 4 ground-based radio transmitters and receivers for air-ground communications operating in the VHF band, using Gaussian-filtered Frequency Shift Keying (GFSK) Modulation with 25 kHz channel spacing and capable of tuning to any of the 25 kHz channels from 118,000 MHz to 136,975 MHz as defined in ICAO VHF Digital Link (VDL) Standards and Recommended Practices (SARPs) [2]. The present document is designed to ensure that equipment certified to it will be compatible with the relevant ICAO VHF Digital Link (VDL) Standards and Recommended Practices (SARPs) [2] and VDL Mode 4 Technical Manual (TM) [1].
Manufacturers should note that in future the tuning range for the ground transceivers may also cover any 25 kHz channel from 108,000 MHz to 117,975 MHz. The scope of the present document is limited to ground stations. The equivalent specification for airborne stations is EN 302 842 [8].
The VDL Mode 4 system provides digital communication exchanges between aircraft and ground-based systems and other aircraft supporting surveillance and communication applications. The supported modes of communication include:
• broadcast and point-to-point communication;
• broadcast services including Automatic Dependent Surveillance - Broadcast (ADS-B), Traffic Information Service - Broadcast (TIS-B) and Flight Information Service - Broadcast (FIS-B) capabilities;
• air-air, air-to-ground, and ground-to-air services;
• operation without ground infrastructure.
The present document is derived from the specifications:
• VDL Mode 4 standards produced under the auspices of the International Civil Aviation Organization (ICAO) [1] and [2].
• Other relevant standards as defined in clause 2.
It is envisaged that manufacturers may provide equipment supporting:
• broadcast services only;
• point-to-point services only;
• both broadcast and point-to-point services.
The present document deals with tests of the physical layer necessary to support all types of equipment. The present document includes:
• Clause 2 provides references to relevant documents.
• Clause 3 provides general definitions, abbreviations and symbols used.
• Clause 4 provides refers to a general description and architecture of VDL Mode 4 contained in EN 301 842-2 [7].
• Clause 5 provides functional specifications applicable to the physical layer including transmitter/receiver requirements and the modulation scheme.
• Clause 6 provides general equipment requirements.
• Clause 7 provides general design requirements.
• Clause 8 covers general test conditions, environmental tests and calibration.
• Clause 9 provides detailed test procedures for the physical layer.
The full physical layer tests are provided which correspond closely to the standard set of tests used for other VDL systems.
Mandating and Recommendation Phrases
a) "Shall"
The use of the word "Shall" indicates a mandated criterion; i.e. compliance with the particular procedure or specification is mandatory and no alternative may be applied.
b) "Should"
The use of the word "Should" (and phrases such as "It is recommended that...", etc.) indicate that though the procedure or criterion is regarded as the preferred option, alternative procedures, specifications or criteria may be applied, provided that the manufacturer, installer or tester can provide information or data to adequately support and justify the alternative.

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SIST
SIST EN 301 841-2 V1.1.1:2006(Main)
Electromagnetic compatibility and Radio spectrum Matters (ERM); VHF air-ground Digital Link (VDL) Mode 2; Technical characteristics and methods of measurement for ground-based equipment; Part 2: Upper layers
ETSI EN 301 841-2 V1.1.1 (2004-03)

The present document applies to VDL Mode 2 ground-air digital communications using Differential Eight Phase Shift Keying (D8PSK), intended for channel increments of 25 kHz. The VDL Mode 2 system provides data communication exchanges between aircraft and ground-based systems. The scope of the present document is limited to ground-based stations. The VDL Mode 2 system is designed to be a Ground/Air sub-system of the Aeronautical Telecommunication Network (ATN) using the AM(R)S band and it is organized according to the Open Systems Interconnection (OSI) model (defined by ISO). It shall provide reliable subnetwork services to the ATN system. The present document provides functional specifications for ground-based radio equipment intended to be used for ground-air data communications. The present document is derived from the following documents:
• VDL Mode 2 SARPs version 3.0. ICAO Annex 10 Volume III part I [1].
• ED 92a [2]: "MOPS for an Airborne VDL Mode-2 Transceiver Operating in the frequency range 118-136.975 MHz" (2003), which specifies the airborne transceiver.
The present document consists of two parts:
• the first part provides functional specifications and test procedures for physical layer and MAC sub-layer;
• the second part provides functional specifications and test procedures for link and sub-network access layers.

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