Digital cellular telecommunications system (Phase 2+) (GSM); Radio transmission and reception (GSM 05.05 version 6.3.1 Release 1997)

SUBJECT Power control levels 29-31 for DCS1800 False USF detection Correction of reference for MS test loop DCS1800 MS sensitivity for GPRS

Digitalni celični telekomunikacijski sistem (faza 2+) – Radijsko oddajanje in sprejemanje (GSM 05.05, različica 6.3.1, izdaja 1997)

General Information

Status
Published
Publication Date
30-Nov-2003
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
01-Dec-2003
Due Date
01-Dec-2003
Completion Date
01-Dec-2003
Standard
SIST EN 300 910 V6.3.1:2003
English language
52 pages
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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Digital cellular telecommunications system (Phase 2+) (GSM); Radio transmission and reception (GSM 05.05 version 6.3.1 Release 1997)33.070.50Globalni sistem za mobilno telekomunikacijo (GSM)Global System for Mobile Communication (GSM)ICS:Ta slovenski standard je istoveten z:EN 300 910 Version 6.3.1SIST EN 300 910 V6.3.1:2003en01-december-2003SIST EN 300 910 V6.3.1:2003SLOVENSKI
STANDARD
EN 300 910 V6.3.1 (1999-03)European Standard (Telecommunications series)Digital cellular telecommunications system (Phase 2+);Radio transmission and reception(GSM 05.05 version 6.3.1 Release 1997)GLOBAL SYSTEM
FOR MOBILE COMMUNICATIONSRSIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)2GSM 05.05 version 6.3.1 Release 1997ReferenceDEN/SMG-020505Q6R1 (8fc0310o.PDF)KeywordsDigital cellular telecommunications system,Global System for Mobile communications (GSM)ETSIPostal addressF-06921 Sophia Antipolis Cedex - FRANCEOffice address650 Route des Lucioles - Sophia AntipolisValbonne - FRANCETel.: +33 4 92 94 42 00
Fax: +33 4 93 65 47 16Siret N° 348 623 562 00017 - NAF 742 CAssociation à but non lucratif enregistrée à laSous-Préfecture de Grasse (06) N° 7803/88Internetsecretariat@etsi.frIndividual copies of this ETSI deliverablecan be downloaded fromhttp://www.etsi.orgIf you find errors in the present document, send yourcomment to: editor@etsi.frCopyright NotificationNo part may be reproduced except as authorized by written permission.The copyright and the foregoing restriction extend to reproduction in all media.© European Telecommunications Standards Institute 1999.All rights reserved.SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)3GSM 05.05 version 6.3.1 Release 1997ContentsIntellectual Property Rights.5Foreword.51Scope.61.1Normative references.61.2Abbreviations.72Frequency bands and channel arrangement.73Reference configuration.84Transmitter characteristics.84.1Output power.84.1.1Mobile Station.84.1.2Base station.104.2Output RF spectrum.114.2.1Spectrum due to the modulation and wide band noise.114.2.2Spectrum due to switching transients.144.3Spurious emissions.164.3.1Principle of the specification.164.3.2Base Transceiver Station.174.3.3Mobile Station.174.4Radio frequency tolerance.184.5Output level dynamic operation.184.5.1Base Transceiver Station.184.5.2Mobile Station.184.6Phase accuracy.194.7Intermodulation attenuation.194.7.1Base transceiver station.194.7.2Intra BTS intermodulation attenuation.194.7.3Intermodulation between MS (DCS 1 800 only).194.7.4Mobile PBX (GSM 900 only).195Receiver characteristics.205.1Blocking characteristics.205.2AM suppression characteristics.225.3Intermodulation characteristics.225.4Spurious emissions.236Transmitter/receiver performance.236.1Nominal Error Rates (NER).236.2Reference sensitivity level.246.3Reference interference level.256.4Erroneous frame indication performance.266.5Random access and paging performance at high input levels.266.6Frequency hopping performance under interference conditions.27Annex A (informative):Spectrum characteristics (spectrum due to the modulation).34Annex B (normative):Transmitted power level versus time.38Annex C (normative):Propagation conditions.39C.1Simple wideband propagation model.39C.2Doppler spectrum types.39C.3Propagation models.40C.3.1Typical case for rural area (RAx): (6 tap setting).40C.3.2Typical case for hilly terrain (HTx): (12 tap setting).40SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)4GSM 05.05 version 6.3.1 Release 1997C.3.3Typical case for urban area (TUx): (12 tap setting).41C.3.4Profile for equalization test (EQx): (6 tap setting).41Annex D (normative):Environmental conditions.42D.1General.42D.2Environmental requirements for the MSs.42D.2.1Temperature.42D.2.2Voltage.42D.2.3Vibration.43D.3Environmental requirements for the BSS equipment.43Annex E (normative):Repeater characteristics.44E.1Introduction.44E.2Spurious emissions.44E.3Intermodulation products.45E.4Out of band gain.45E.5Frequency error and phase error.45Annex F (normative):Antenna Feeder Loss Compensator Characteristics.46F.1Introduction.46F.2Transmitting path.46F.2.1Maximum output power.46F.2.2Gain.46F.2.3Burst transmission characteristics.47F.2.4Phase error.47F.2.5Frequency error.47F.2.6Group delay.48F.2.7Spurious emissions.48F.2.8VSWR.48F.2.9Stability.49F.3Receiving path.49F.3.1Gain.49F.3.2Noise figure.49F.3.3Group delay.49F.3.4Intermodulation performance.49F.3.5VSWR.49F.3.6Stability.49F.4Guidelines (informative).50Annex G (informative):Change control history.51History.52SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)5GSM 05.05 version 6.3.1 Release 1997Intellectual Property RightsIPRs essential or potentially essential to the present document may have been declared to ETSI. The informationpertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be foundin SR 000 314: "Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respectof ETSI standards", which is available free of charge from the ETSI Secretariat. Latest updates are available on theETSI Web server (http://www.etsi.org/ipr).Pursuant to the ETSI IPR Policy, no investigation, including IPR searches, has been carried out by ETSI. No guaranteecan be given as to the existence of other IPRs not referenced in SR 000 314 (or the updates on the ETSI Web server)which are, or may be, or may become, essential to the present document.ForewordThis European Standard (Telecommunications series) has been produced by ETSI Special Mobile Group (SMG).This EN defines the requirements for the transceiver of the digital mobile cellular and personal communication systemsoperating in the 900 MHz (P-GSM, E-GSM and R-GSM) and 1 800 MHz band (GSM 900 and DCS 1 800).The contents of this EN are subject to continuing work within SMG and may change following formal SMG approval.Should SMG modify the contents of this EN it will then be republished by ETSI with an identifying change of releasedate and an increase in version number as follows:Version 6.x.ywhere:6indicates release 1997 of GSM Phase 2+xthe second digit is incremented for all other types of changes, i.e. technical enhancements, corrections,updates, etc.ythe third digit is incremented when editorial only changes have been incorporated in the specification;National transposition datesDate of adoption of this EN:12 March 1999Date of latest announcement of this EN (doa):30 June 1999Date of latest publication of new National Standardor endorsement of this EN (dop/e):31 December 1999Date of withdrawal of any conflicting National Standard (dow):31 December 1999SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)6GSM 05.05 version 6.3.1 Release 19971ScopeThis EN defines the requirements for the transceiver of the pan-European digital mobile cellular and personalcommunication systems operating in the 900 MHz and 1 800 MHz band (GSM 900 and DCS 1 800).Requirements are defined for two categories of parameters:-Those that are required to provide compatibility between the radio channels, connected either to separate orcommon antennas, that are used in the system. This category also includes parameters providing compatibilitywith existing systems in the same or adjacent frequency bands.-Those that define the transmission quality of the system.This EN defines RF characteristics for the Mobile Station (MS) and Base Station System (BSS). The BSS will containeither Base Transceiver Stations (BTS) or microcell base transceiver stations (micro-BTS). The precise measurementmethods are specified in GSM 11.10 and GSM 11.20.Unless otherwise stated, the requirements defined in this EN apply to the full range of environmental conditionsspecified for the equipment (see annex D).In this EN some relaxations are introduced for GSM 900 MSs which fulfil the following conditions:-pertain to power class 4 or 5 (see subclause 4.1.1);-not designed to be vehicle mounted (see GSM 02.06).In this EN these Mobile Stations are referred to as "small MS".NOTE:In this EN, a handheld which can be connected to a car kit is not considered to be vehicle mounted.MSs may operate on more than one of the frequency bands specified in clause 2. These MSs, defined in GSM 02.06, arereferred to as "Multi band MSs" in this EN. Multi band MSs shall meet all requirements for each of the bands supported.The relaxation on GSM 900 for a "small MS" are also valid for a multi band MS if it complies with the definition of asmall MS.The RF characteristics of repeaters are defined in annex E of this EN. Annexes D and E are the only clauses of this ENapplicable to repeaters. Annex E does not apply to the MS or BSS.1.1Normative referencesThe following documents contain provisions which, through reference in this text, constitute provisions of the presentdocument.-References are either specific (identified by date of publication, edition number, version number, etc.) ornon-specific.-For a specific reference, subsequent revisions do not apply.-For a non-specific reference, the latest version applies.-A non-specific reference to an ETS shall also be taken to refer to later versions published as an EN with the samenumber.[1]GSM 01.04: "Digital cellular telecommunications system (Phase 2+); Abbreviations andacronyms".[2]GSM 02.06: "Digital cellular telecommunications system (Phase 2+); Types of Mobile Stations(MS)".[3]GSM 03.64: "Digital cellular telecommunications system (Phase 2+); General Packet RadioService (GPRS); GPRS Radio Interface Stage 2".SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)7GSM 05.05 version 6.3.1 Release 1997[4]GSM 05.01: "Digital cellular telecommunications system (Phase 2+); Physical layer on the radiopath General description".[5]GSM 05.04: "Digital cellular telecommunications system (Phase 2+); Modulation".[6]GSM 05.08: "Digital cellular telecommunications system (Phase 2+); Radio subsystem linkcontrol".[7]GSM 05.10: "Digital cellular telecommunications system (Phase 2+); Radio subsystemsynchronization".[8]GSM 11.10: "Digital cellular telecommunications system (Phase 2+); Mobile Station (MS)conformity specification".[9]GSM 11.11: "Digital cellular telecommunications system (Phase 2+); Specification of theSubscriber Identity Module - Mobile Equipment (SIM - ME) interface".[10]ITU-T Recommendation O.153: "Basic parameters for the measurement of error performance at bitrates below the primary rate".[11]ETS 300 019-1-3: "Equipment Engineering (EE); Environmental conditions and environmentaltests for telecommunications equipment; Part 1-3: Classification of environmental conditionsStationary use at weather protected locations".[12]ETS 300 019-1-4: "Equipment Engineering (EE); Environmental conditions and environmentaltests for telecommunications equipment; Part 1-4: Classification of environmental conditionsStationary use at non-weather protected locations".[13]GSM 04.14: “Digital cellular telecommunications system (Phase 2+); Individual equipment typerequirements and interworking; Special conformance testing functions”.1.2AbbreviationsAbbreviations used in this EN are listed in GSM 01.04.2Frequency bands and channel arrangementi)Standard or primary GSM 900 Band, P-GSM:For Standard GSM 900 band, the system is required to operate in the following frequency band:890 - 915 MHz: mobile transmit, base receive935 - 960 MHz: base transmit, mobile receiveii)Extended GSM 900 Band, E-GSM (includes Standard GSM 900 band):For Extended GSM 900 band, the system is required to operate in the following frequency band:880 - 915 MHz: mobile transmit, base receive925 - 960 MHz: base transmit, mobile receiveiii)Railways GSM 900 Band, R-GSM (includes Standard and Extended GSM 900 Band);For Railways GSM 900 band, the system is required to operate in the following frequency band:876 - 915 MHz: mobile transmit, base receive921 - 960 MHz: base transmit, mobile receiveSIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)8GSM 05.05 version 6.3.1 Release 1997iv)DCS 1 800 Band:For DCS 1 800, the system is required to operate in the following band:1 710 - 1 785 MHz: mobile transmit, base receive1 805 - 1 880 MHz: base transmit, mobile receiveNOTE:The term GSM 900 is used for any GSM system which operates in any 900 MHz band.NOTE:The BTS may cover the complete band, or the BTS capabilities may be restricted to a subset only,depending on the operator needs.Operators may implement networks which operates on a combination of the frequency bands above to support multiband mobile terminals which are defined in GSM 02.06.The carrier spacing is 200 kHz.The carrier frequency is designated by the absolute radio frequency channel number (ARFCN). If we call Fl(n) thefrequency value of the carrier ARFCN n in the lower band, and Fu(n) the corresponding frequency value in the upperband, we have:P-GSM 900Fl(n) = 890 + 0.2*n
1 £
n £
124Fu(n) = Fl(n) + 45E-GSM 900Fl(n) = 890 + 0.2*n
0 £
n £
124Fu(n) = Fl(n) + 45Fl(n) = 890 + 0.2*(n-1024)
975 £
n £
1 023DCS 1 800Fl(n) = 1710.2 + 0.2*(n-512)512 £
n £
885Fu(n) = Fl(n) + 95Frequencies are in MHz.3Reference configurationThe reference configuration for the radio subsystem is described in GSM 05.01.The micro-BTS is different from a normal BTS in two ways. Firstly, the range requirements are much reduced whilst theclose proximity requirements are more stringent. Secondly, the micro-BTS is required to be small and cheap to allowexternal street deployment in large numbers. Because of these differences the micro-BTS needs a different set of RFparameters to be specified. Where the RF parameters are not different for the micro-BTS the normal BTS parametersshall apply.4Transmitter characteristicsThroughout this clause, unless otherwise stated, requirements are given in terms of power levels at the antennaconnector of the equipment. For equipment with integral antenna only, a reference antenna with 0 dBi gain shall beassumed.The term output power refers to the measure of the power when averaged over the useful part of the burst (see annex B).The term peak hold refers to a measurement where the maximum is taken over a sufficient time that the level would notsignificantly increase if the holding time were longer.4.1Output power4.1.1Mobile StationThe MS maximum output power and lowest power control level shall be, according to its class, as defined in thefollowing table (see also GSM 02.06).SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)9GSM 05.05 version 6.3.1 Release 1997PowerGSM 900DCS 1 800Tolerance (dB)classNominal MaximumoutputNominal Maximumoutputfor conditionspowerpowernormalextreme1- - - - - -1 W (30 dBm)±2±2.528 W (39 dBm)0.25 W (24 dBm)±2±2.535 W (37 dBm)4 W (36 dBm)±2±2.542 W (33 dBm)±2±2.550.8 W (29 dBm)±2±2.5NOTE:The lowest nominal output power for all classes of GSM 900 MS is 5 dBm and for allclasses of DCS 1 800 MS is 0 dBm.A multi band MS has a combination of the power class in each band of operation from the table above. Any combinationmay be used.The different power control levels needed for adaptive power control (see GSM 05.08) shall have the nominal outputpower as defined in the table below, starting from the power control level for the lowest nominal output power up to thepower control level for the maximum nominal output power corresponding to the class of the particular MS as defined inthe table above. Whenever a power control level commands the MS to use a nominal output power equal to or greaterthan the maximum nominal output power for the power class of the MS, the nominal output power transmitted shall bethe maximum nominal output power for the MS class, and the tolerance of ±2 or 2.5 dB (see table above) shall apply.GSM 900PowercontrollevelNominal Outputpower (dBm)Tolerance (dB) forconditionsnormalextreme0-239±2±2.5337±3±4435±3±4533±3±4631±3±4729±3±4827±3±4925±3±41023±3±41121±3±41219±3±41317±3±41415±3±41513±3±41611±5±6179±5±6187±5±619-315±5±6SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)10GSM 05.05 version 6.3.1 Release 1997DCS 1 800PowercontrollevelNominalOutput power(dBm)Tolerance (dB) forconditionsnormalextreme2936±2±2.53034±3±43132±3±4030±3±4128±3±4226±3±4324±3±4422±3±4520±3±4618±3±4716±3±4814±3±4912±4±51010±4±5118±4±5126±4±5134±4±5142±5±615-280±5±6NOTE 1:For DCS 1 800, the power control levels 29, 30 and 31 are not used when transmitting the parameterMS_TXPWR_MAX_CCH on BCCH, for cross phase compatibility reasons. If levels greater than 30 dBmare required from the MS during a random access attempt, then these shall be decoded from parametersbroadcast on the BCCH as described in GSM 05.08.Furthermore, the difference in output power actually transmitted by the MS between two power control levels where thedifference in nominal output power indicates an increase of 2 dB (taking into account the restrictions due to powerclass), shall be +2 ± 1.5 dB. Similarly, if the difference in output power actually transmitted by the MS between twopower control levels where the difference in nominal output power indicates an decrease of 2 dB (taking into accountthe restrictions due to power class), shall be -2 ± 1.5 dB.NOTE 2:A 2 dB nominal difference in output power can exist for non-adjacent power control levels e.g. powercontrol levels 18 and 22 for GSM 900; power control levels 31 and 0 for class 3 DCS 1 800 and powercontrol levels 3 and 6 for class 4 GSM 900.A change from any power control level to any power control level may be required by the base transmitter. Themaximum time to execute this change is specified in GSM 05.08.4.1.2Base stationThe Base Station Transmitter maximum output power, measured at the input of the BSS Tx combiner, shall be,according to its class, as defined in the following tables:GSM 900DCS 1 800TRXMaximumTRXMaximumpower classoutput powerpower classoutput power1320 - (< 640) W120 - (< 40) W2160 - (< 320) W210 - (< 20) W380 - (< 160) W35 - (< 10) W440 - (< 80) W42.5 - (< 5) W520 - (< 40) W610 - (< 20) W75 - (< 10) W82.5 - (< 5) WSIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)11GSM 05.05 version 6.3.1 Release 1997The micro-BTS maximum output power per carrier measured at the antenna connector after all stages of combining shallbe, according to its class, defined in the following table.GSM 900 micro-BTSDCS 1 800 micro-BTSTRX powerclassMaximum output powerTRX powerclassMaximum output powerM1(> 19) - 24 dBm
((> 0.08) - 0.25 W)M1(> 27) - 32 dBm
((> 0.5) - 1.6 W)M2(> 14) - 19 dBm
((> 0.03) - 0.08 W)M2(> 22) - 27 dBm
((> 0.16) - 0.5 W)M3(> 9) - 14 dBm
((> 0.01) - 0.03 W)M3(> 17) - 22 dBm
((> 0.05) - 0.16 W)The tolerance of the actual maximum output power of the BTS shall be ±2 dB under normal conditions and ±2.5 dBunder extreme conditions. Settings shall be provided to allow the output power to be reduced from its maximum level inat least six steps of nominally 2 dB with an accuracy of ±1 dB to allow a fine adjustment of the coverage by the networkoperator. In addition, the actual absolute output power at each static RF power step (N) shall be 2*N dB below theabsolute output power at static RF power step 0 with a tolerance of ±3 dB under normal conditions and ±4 dB underextreme conditions. The static RF power step 0 shall be the actual output power according to the TRX power class.As an option the BSS can utilize downlink RF power control. In addition to the static RF power steps described above,the BSS may then utilize up to 15 steps of power control levels with a step size of 2 dB ±1.5 dB, in addition the actualabsolute output power at each power control level (N) shall be 2*N dB below the absolute output power at powercontrol level 0 with a tolerance of ±3 dB under normal conditions and ±4 dB under extreme conditions. The powercontrol level 0 shall be the set output power according to the TRX power class and the six power settings defined above.Network operators or manufacturers may also specify the BTS output power including any Tx combiner, according totheir needs.4.2Output RF spectrumThe specifications contained in this subclause apply to both BTS and MS, in frequency hopping as well as in nonfrequency hopping mode, except that beyond 1800 kHz offset from the carrier the BTS is not tested in frequencyhopping mode.Due to the bursty nature of the signal, the output RF spectrum results from two effects:-the modulation process;-the power ramping up and down (switching transients).The two effects are specified separately; the measurement method used to analyse separately those two effects isspecified in GSM 11.10 and 11.20. It is based on the "ringing effect" during the transients, and is a measurement in thetime domain, at each point in frequency.The limits specified thereunder are based on a 5-pole synchronously tuned measurement filter.Unless otherwise stated, for the BTS, only one transmitter is active for the tests of this subclause.4.2.1Spectrum due to the modulation and wide band noiseThe output RF modulation spectrum is specified in the following tables. A mask representation of this specification isshown in annex A. This specification applies for all RF channels supported by the equipment.The specification applies to the entire of the relevant transmit band and up to 2 MHz either side.The specification shall be met under the following measurement conditions:-For BTS up to 1800 kHz from the carrier and for MS in all cases:Zero frequency scan, filter bandwidth and video bandwidth of 30 kHz up to 1800 kHz from the carrier and100 kHz at 1800 kHz and above from the carrier, with averaging done over 50 % to 90 % of the useful part of theSIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)12GSM 05.05 version 6.3.1 Release 1997transmitted bursts, excluding the midamble, and then averaged over at least 200 such burst measurements. Above1800 kHz from the carrier only measurements centred on 200 kHz multiples are taken with averaging over 50bursts.-For BTS at 1800 kHz and above from the carrier:Swept measurement with filter and video bandwidth of 100 kHz, minimum sweep time of 75 ms, averaging over200 sweeps. All slots active, frequency hopping disabled.-When tests are done in frequency hopping mode, the averaging shall include only bursts transmitted when thehopping carrier corresponds to the nominal carrier of the measurement. The specifications then apply to themeasurement results for any of the hopping frequencies.The figures in tables a) and b) below, at the vertically listed power level (dBm) and at the horizontally listed frequencyoffset from the carrier (kHz), are then the maximum allowed level (dB) relative to a measurement in 30 kHz on thecarrier.NOTE:This approach of specification has been chosen for convenience and speed of testing. It does howeverrequire careful interpretation if there is a need to convert figures in the following tables into spectraldensity values, in that only part of the power of the carrier is used as the relative reference, and in additiondifferent measurement bandwidths are applied at different offsets from the carrier. Appropriate conversionfactors for this purpose are given in GSM 05.50.For the BTS, the power level is the "actual absolute output power" defined in subclause 4.1.2. If the power level fallsbetween two of the values in the table, the requirement shall be determined by linear interpolation.SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)13GSM 05.05 version 6.3.1 Release 1997a1)GSM 900 MS:100200250400³ 600³ 1800³ 3000³ 6000<1800<3000<6000³ 39+0.5-30-33-60-66-69-71-7737+0.5-30-33-60-64-67-69-7535+0.5-30-33-60-62-65-67-73£ 33+0.5-30-33-60-60-63-65-71a2)GSM 900 normal BTS:100200250400³ 600³ 1200³ 1800³ 6000< 1200< 1800< 6000³ 43+0.5-30-33-60-70-73-75-8041+0.5-30-33-60-68-71-73-8039+0.5-30-33-60-66-69-71-8037+0.5-30-33-60-64-67-69-8035+0.5-30-33-60-62-65-67-80£ 33+0.5-30-33-60-60-63-65-80a3)GSM 900 micro-BTS:100200250400³ 600³ 1200³ 1800< 1200< 1800£ 33+0.5-30-33-60-60-63-70b1) DCS 1 800 MS:100200250400³ 600³ 1800³ 6000< 1800< 6000³ 36+0.5-30-33-60-60-71-7934+0.5-30-33-60-60-69-7732+0.5-30-33-60-60-67-7530+0.5-30-33-60-60-65-7328+0.5-30-33-60-60-63-7126+0.5-30-33-60-60-61-69£ 24+0.5[tdb]-33-60-60-59-67b2) DCS 1 800 normal BTS:100200250400³ 600³ 1200³ 1800³ 6000< 1200< 1800< 6000³ 43+0.5-30-33-60-70-73-75-8041+0.5-30-33-60-68-71-73-8039+0.5-30-33-60-66-69-71-8037+0.5-30-33-60-64-67-69-8035+0.5-30-33-60-62-65-67-80£ 33+0.5-30-33-60-60-63-65-80SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)14GSM 05.05 version 6.3.1 Release 1997b3) DCS 1 800 micro-BTS:100200250400³ 600³ 1200³ 1800< 1200< 180035+0.5-30-33-60-62-65-76£ 33+0.5-30-33-60-60-63-76The following exceptions shall apply, using the same measurement conditions as specified above;i)In the combined range 600 kHz to 6 MHz above and below the carrier, in up to three bands of 200 kHz widthcentred on a frequency which is an integer multiple of 200 kHz, exceptions at up to -36 dBm are allowed.ii)Above 6 MHz offset from the carrier in up to 12 bands of 200 kHz width centred on a frequency which is aninteger multiple of 200 kHz, exceptions at up to -36 dBm are allowed. For the BTS only one transmitter is activefor this test.Using the same measurement conditions as specified above, if a requirement in tables a) and b) is tighter than the limitgiven in the following, the latter shall be applied instead.iii)For MS:Frequency offset from the carrierGSM 900DCS 1 800< 600 kHz-36 dBm-36 dBm³ 600 kHz, < 1 800 kHz-51 dBm-56 dBm³ 1 800 kHz-46 dBm-51 dBmiv)For normal BTS, whereby the levels given here in dB are relative to the output power of the BTS at the loweststatic power level measured in 30 kHz:Frequency offset from the carrierGSM 900DCS 1 800< 1 800 kHzmax {-88 dB, -65dBm}max {-88 dB, -57dBm}³ 1 800 kHzmax {-83 dB, -65dBm}max {-83 dB, -57dBm}v)For micro-BTS, at 1 800 kHz and above from the carrier:Power ClassGSM 900DCS 1 800M1-59 dBm-57 dBmM2-64 dBm-62 dBmM3-69 dBm-67 dBm4.2.2Spectrum due to switching transientsThose effects are also measured in the time domain and the specifications assume the following measurementconditions: zero frequency scan, filter bandwidth 30 kHz, peak hold, and video bandwidth 100 kHz.The example of a waveform due to a burst as seen in a 30 kHz filter offset from the carrier is given thereunder(figure 1).SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)15GSM 05.05 version 6.3.1 Release 1997dBt100%90%Averagingperiod50%midambleUseful part of the burst0%Switching transientsMax-hold level = peak of switching transientsVideo average level= spectrum due tomodulationFigure 1: Example of a time waveform due to a burst as seen in a 30 kHz filter offsetfrom the carriera)Mobile Station:Power levelMaximum level measured400 kHz600 kHz1 200 kHz1 800 kHz39 dBm-21 dBm-26 dBm-32 dBm-36 dBm£ 37 dBm-23 dBm-26 dBm-32 dBm-36 dBmNOTE 1:The relaxations for power level 39 dBm is in line with the modulated spectra and thus causes negligibleadditional interference to an analogue system by a GSM signal.NOTE 2:The near-far dynamics with this specification has been estimated to be approximately 58 dB for MSoperating at a power level of 8 W or 49 dB for MS operating at a power level of 1 W. The near-fardynamics then gradually decreases by 2 dB per power level down to 32 dB for MS operating in cells witha maximum allowed output power of 20 mW or 29 dB for MS operating at 10 mW.NOTE 3:The possible performance degradation due to switching transient leaking into the beginning or the end of aburst, was estimated and found to be acceptable with respect to the BER due to cochannel interference(C/I).b)Base transceiver station:SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)16GSM 05.05 version 6.3.1 Release 1997The maximum level measured, after any filters and combiners, at the indicated offset from the carrier, is:Maximum level measured400 kHz600 kHz1 200 kHz1 800 kHzGSM 900-57 dBc-67 dBc-74 dBc-74 dBcDCS 1 800-50 dBc-58 dBc-66 dBc-66 dBcor -36 dBm, whichever is the higher.dBc means relative to the output power at the BTS, measured at the same point and in a filter bandwidth of at least300 kHz.NOTE 4:Some of the above requirements are different from those specified in subclause 4.3.2.4.3Spurious emissionsThe limits specified thereunder are based on a 5-pole synchronously tuned measurement filter.4.3.1Principle of the specificationIn this subclause, the spurious transmissions (whether modulated or unmodulated) and the switching transients arespecified together by measuring the peak power in a given bandwidth at various frequencies. The bandwidth is increasedas the frequency offset between the measurement frequency and, either the carrier, or the edge of the MS or BTStransmit band, increases. The effect for spurious signals of widening the measurement bandwidth is to reduce theallowed total spurious energy per MHz. The effect for switching transients is to effectively reduce the allowed level ofthe switching transients (the peak level of a switching transient increases by 6 dB for each doubling of the measurementbandwidth). The conditions are specified in the following table, a peak-hold measurement being assumed.The measurement conditions for radiated and conducted spurious are specified separately in GSM 11.10 and 11.2xseries. The frequency bands where these are actually measured may differ from one type to the other (see GSM 11.10and 11.2x series).a)BandFrequency offsetMeasurement bandwidth(offset from carrier)relevant transmit³ 1.8 MHz30 kHzband³ 6 MHz100 kHzb)BandFrequency offsetMeasurement bandwidth100 kHz - 50 MHz-10 kHz50 MHz - 500 MHz-100 kHzabove 500 MHz outside the(offset from edge of therelevant transmit bandrelevant above band)³ 2 MHz30 kHz³ 5 MHz100 kHz³ 10 MHz300 kHz³ 20 MHz1 MHz³ 30 MHz3 MHzThe measurement settings assumed correspond, for the resolution bandwidth to the value of the measurement bandwidthin the table, and for the video bandwidth to approximately three times this value.NOTE:For radiated spurious emissions for MS with antenna connectors, and for all spurious emissions for MSwith integral antennas, the specifications currently only apply to the frequency band 30 MHz to 4 GHz.The specification and method of measurement outside this band are under consideration.SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)17GSM 05.05 version 6.3.1 Release 19974.3.2Base Transceiver StationThe power measured in the conditions specified in subclause 4.3.1a shall be no more than -36 dBm.The power measured in the conditions specified in subclause 4.3.1b shall be no more than:-250 nW (-36 dBm) in the frequency band 9 kHz - 1 GHz;-1 µW (-30 dBm) in the frequency band 1 - 12.75 GHz.NOTE 1:For radiated spurious emissions for BTS, the specifications currently only apply to the frequency band30 MHz to 4 GHz. The specification and method of measurement outside this band are underconsideration.In the BTS receive band, the power measured using the conditions specified in 4.2.1, with a filter and video bandwidthof 100 kHz shall be no more than:GSM (dBm)DCS (dBm)Normal BTS-98-98Micro BTS M1-91-96Micro BTS M2-86-91Micro BTS M3-81-86R-GSM 900 BTS-89These values assume a 30 dB coupling loss between transmitter and receiver. If BTSs of different classes are co-sited,the coupling loss must be increased by the difference between the corresponding values from the table above.Measures must be taken for mutual protection of receivers when GSM 900 and DCS 1 800 BTS are co-sited.NOTE 2:Thus, for this case, assuming the coupling losses are as above, then the power measured in the conditionsspecified in subclause 4.2.1, with a filter and video bandwidth of 100 kHz should be no more than thevalues in the table above for the GSM 900 transmitter in the band 1 710 - 1 785 MHz and for DCS 1 800transmitter in the band 876 - 915 MHz.In any case, the powers measured in the conditions specified in subclause 4.2.1, with a filter and video bandwidth of100 kHz shall be no more than -47 dBm for the GSM BTS in the band 1 805 - 1 880 MHz and -57 dBm for aDCS 1 800 BTS in the band 921 - 960 MHz.4.3.3Mobile StationThe power measured in the conditions specified in subclause 4.3.1a, for a MS when allocated a channel, shall be nomore than -36 dBm. For R-GSM 900 MS except small MS the corresponding limit shall be -42 dBm.The power measured in the conditions specified in subclause 4.3.1b for a MS, when allocated a channel, shall be nomore than (see also note in subclause 4.3.1b above):-250 nW (-36 dBm) in the frequency band 9 kHz - 1 GHz;-1 µW (-30 dBm) in the frequency band 1 - 12.75 GHz.The power measured in a 100 kHz bandwidth for a mobile, when not allocated a channel (idle mode), shall be no morethan (see also note in 4.3.1 above):-2 nW (-57 dBm) in the frequency bands 9 kHz - 880 MHz, 915 - 1 000 MHz;-1.25 nW (-59 dBm) in the frequency band 880 - 915 MHz;-5 nW (-53 dBm) in the frequency band 1.71 - 1.785 GHz;-20 nW (-47 dBm) in the frequency bands 1 - 1.71 GHz, 1.785 - 12.75 GHz.NOTE:The idle mode spurious emissions in the receive band are covered by the case for MS allocated a channel(see below).SIST EN 300 910 V6.3.1:2003

ETSIEN 300 910 V6.3.1 (1999-03)18GSM 05.05 version 6.3.1 Release 1997When allocated a channel, the power emitted by the MS, when measured using the measurement conditions specified in4.2.1, but with averaging over at least 50 burst measurements, with a filter and video bandwidth of 100 kHz, formeasurements centred on 200 kHz multiples, in the band 935 - 960 MHz shall be no more than -79 dBm, in the band925-935 MHz shall be no more than -67 dBm and in the band 1 805 - 1 880 MHz, shall be no more than -71 dBm. ForR-GSM 900 mobiles, in addition, a limit of -60 dBm shall apply in the frequency band 921 - 925 MHz.As exceptions up to five measurements with a level up to -36 dBm are permitted in each of the bands 925 - 960 MHzand 1 805 - 1 880 MHz for each ARFCN used in the measurements.When hopping, this applies to each set of measurements, grouped by the hopping frequencies as described insubclause 4.2.1.4.4Radio frequency toleranceThe radio frequency tolerance for the base transceiver station and the MS is defined in GSM 05.10.4.5Output level dynamic operationNOTE:The term "any transmit band channel" is used here to mean:any RF channel of 200 kHz bandwidth centred on a multiple of 200 kHz which is within the relevanttransmit band.4.5.1Base Transceiver StationThe BTS shall be capable of not transmitting a burst in a time slot not used by a logical channel or where DTX applies.The output power relative to time when sending a burst is shown in annex B. In the case where the bursts in
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