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3GPP TS 05.05 V8.11.0 (2001-08)Technical Specification

3rd Generation Partnership Project;Technical Specification Group GSM/EDGE

Radio Access Networ;Radio trans!ission and reception

"Release #$$$%

GLOBAL SYSTEM FOR

MOBILE COMMUNICATIONS

R

The present document has been developed within the 3rdGeneration Partnership Project (3GPPTM) and may be further elaborated for the purposes of 3GPP.

The present document has not been subject to any approval process by the 3GPP Orani!ational Partners and shall not be implemented.

This "pecification is provided for future development wor# within 3GPPonly. The Orani!ational Partners accept no liability for any use of this

"pecification."pecifications and reports for implementation of the 3GPPTMsystem should be obtained via the 3GPP Orani!ational Partners$ Publications Offices.

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%eywords

GSM, radio, mux, access

3GPP

Postal address

3GPP support office address

650 Roue des !ucio"es - So#$ia %&i#o"is

Va"'o&&e - R%*+Te". 33 /2 / 2 00 ax 33 /3 65 16

&nternet

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Copyright Notification

'o part may be reproduced ecept as authorised by written permission.

The copyriht and the foreoin restrictions etend to reproduction in all

media.

*++,- 3GPP Orani!ational Partners (/&0- 12T"- T"&- T,- TT- TT1).

ll rihts reserved.

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*o&e&s

4oreword..........................................................................................................................................................

, "cope......................................................................................................................................................,., /eferences.................................................................................................................................................................,.* bbreviations............................................................................................................................................................

* 4re5uency bands and channel arranement............................................................................................

3 /eference confiuration.......................................................................................................................

6 Transmitter characteristics....................................................................................................................6., Output power...........................................................................................................................................................

6.,., Mobile "tation...................................................................................................................................................6.,.* 0ase station........................................................................................................................................................6.,.*., dditional re5uirements for P1" , 7++ and M8M ,7++ 0ase stations............................................................6.,.*.* dditional re5uirements for G"M 9:+ and M8M 9:+ 0ase stations...............................................................

6.* Output /4 spectrum................................................................................................................................................6.*., "pectrum due to the modulation and wide band noise......................................................................................

6.*.* "pectrum due to switchin transients................................................................................................................6.3 "purious emissions..................................................................................................................................................6.3., Principle of the specification.............................................................................................................................6.3.* 0ase Transceiver "tation...................................................................................................................................6.3.*., General re5uirements.........................................................................................................................................6.3.*.* dditional re5uirements for co;eistence with 3 G...........................................................................................

6.3.3 Mobile "tation...................................................................................................................................................6.3.3., Mobile "tation G"M 6++- G"M 7++ and M..........................................................................................................................................................6.=.*.6 7:?th percentile..................................................................................................................................................6.@ &ntermodulation attenuation....................................................................................................................................6.@., 0ase transceiver station.....................................................................................................................................6.@.* &ntra 0T" intermodulation attenuation..............................................................................................................

6.@.*., G"M 6++- G"M 7++-

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=.6 rroneous frame indication performance................................................................................................................=.: /andom access and pain performance at hih input levels.................................................................................=.= 4re5uency hoppin performance under interference conditions.............................................................................=.@ &ncremental /edundancy Performance for GP/" M"..........................................................................................

Annex A (informative): Se!tr"m !#ara!teri$ti!$ ($e!tr"m %"e to t#e mo%"&ation)'''''''''''''''''''''

Annex B (normative): Tran$mitte% oer &eve& ver$"$ time'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''

Annex C (normative): roa*ation !on%ition$'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''

1., "imple wideband propaation model....................................................................................................

1.*

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4.3 /eceivin path......................................................................................................................................4.3., Gain...................................................................................................................................................................4.3.* 'oise fiure.......................................................................................................................................................4.3.3 Group delay.......................................................................................................................................................

4.3.6 &ntermodulation performance............................................................................................................................4.3.: >"2/................................................................................................................................................................

4.3.= "tability..............................................................................................................................................................

4.6 Guidelines (informative).......................................................................................................................

Annex G (normative): Ca&!"&ation of Error 2e!tor Ma*nit"%e''''''''''''''''''''''''''''''''''''''''''''''''''''''

Annex 3 (normative): Re4"irement$ on Lo!ation Mea$"rement Unit'''''''''''''''''''''''''''''''''''''''''''

B., TO EMC /e5uirements.....................................................................................................................B.,., >oid....................................................................................................................................................................B.,.* EMC characteristics..........................................................................................................................................B.,.*., 0loc#in characteristics.....................................................................................................................................B.,.*.* M suppression characteristics.........................................................................................................................

B.,.*.3 &ntermodulation characteristics..........................................................................................................................

B.,.*.6 "purious emissions............................................................................................................................................B.,.3 Time;of;rrival Measurement Performance.....................................................................................................B.,.3., "ensitivity Performance.....................................................................................................................................B.,.3.* &nterference Performance...................................................................................................................................B.,.3.3 Multipath Performance......................................................................................................................................

B.,.6 /adio &nterface Timin Measurement Performance..........................................................................................

B.* ;OT< EMC /e5uirements.................................................................................................................B.*., EMC 1haracteristics..........................................................................................................................................B.*.,., 0loc#in characteristics.....................................................................................................................................B.*.,.* M suppression characteristics.........................................................................................................................B.*.,.3 &ntermodulation characteristics..........................................................................................................................B.*.* "ensitivity and &nterference Performance..........................................................................................................

B.*.*., "ensitivity Performance.....................................................................................................................................B.*.*.* &nterference Performance...................................................................................................................................B.*.*.3 Multipath Performance......................................................................................................................................

Annex I (normative): E5OT+ Mo6i&e Station Re4"irement$'''''''''''''''''''''''''''''''''''''''''''''''''''''''''

&., &ntroduction..........................................................................................................................................

&.* "ensitivity and &nterference Performance.............................................................................................&.*., "ensitivity Performance.....................................................................................................................................&.*.* &nterference Performance...................................................................................................................................

&.*.3 Multipath Performance......................................................................................................................................

Annex L (informative): C#an*e #i$tor7''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''

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1 Sco#e

The present document defines the re5uirements for the transceiver of the pan;uropean diital cellulartelecommunications systems G"M.

/e5uirements are defined for two cateories of parameters?

; those that are re5uired to provide compatibility between the radio channels- connected either to separate orcommon antennas- that are used in the system. This cateory also includes parameters providin compatibilitywith eistin systems in the same or adjacent fre5uency bandsF

; those that define the transmission 5uality of the system.

This ' defines /4 characteristics for the Mobile "tation (M") and 0ase "tation "ystem (0""). The 0"" will contain0ase Transceiver "tations (0T")- which can be normal 0T"- micro;0T" or pico;0T". The precise measurementmethods are specified in 3GPP T" ,,.,+ and 3GPP T" ,,.*,.

Cnless otherwise stated- the re5uirements defined in this ' apply to the full rane of environmental conditions

specified for the e5uipment (see anne

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H3aI 3GPP T" +3.@,?

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; 699-9 MB! to 67= MB! base transmit- mobile receive.

iii) G"M 9:+ 0and?

; for G"M 9:+- the system is re5uired to operate in the followin band?

; 9*6 MB! to 967 MB!? mobile transmit- base receiveF

; 9=7 MB! to 976 MB!? base transmit- mobile receive.

iv) "tandard or primary G"M 7++ 0and- P;G"M?

; for "tandard G"M 7++ band- the system is re5uired to operate in the followin fre5uency band?

; 97+ MB! to 7,: MB!? mobile transmit- base receiveF

; 73: MB! to 7=+ MB!? base transmit- mobile receive.

v) tended G"M 7++ 0and- ;G"M (includes "tandard G"M 7++ band)?

; for tended G"M 7++ band- the system is re5uired to operate in the followin fre5uency band?

; 99+ MB! to 7,: MB!? mobile transmit- base receiveF

; 7*: MB! to 7=+ MB!? base transmit- mobile receive.

vi) /ailways G"M 7++ 0and- /;G"M (includes "tandard and tended G"M 7++ 0and)F

; for /ailways G"M 7++ band- the system is re5uired to operate in the followin fre5uency band?

; 9@= MB! to 7,: MB!? mobile transmit- base receiveF

; 7*, MB! to 7=+ MB!? base transmit- mobile receive.

vii)

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P-GSM /00 "(&) 8/0 0.29& 1 & 12 u(&) "(&) 5+-GSM /00 "(&) 8/0 0.29& 0 & 12 u(&) "(&) 5

"(&) 8/0 0.29(&-102) /5 & 1 023R-GSM /00 "(&) 8/0 0.29& 0 & 12 u(&) "(&) 5

"(&) 8/0 0.29(&-102) /55 & 1023:*S 1 800 "(&) 110.2 0.29(&-512) 512 & 885 u(&) "(&) /5

P*S 1 /00 ;(&) 1850.2 .29(&-512) 512 & 810 u(&) ;(&) 80GSM 50 "(&) 50.6 0.29(&-25/) 25/& 2/3 u(&) "(&) 10GSM 80 "(&) / 0.29(&-306) 306 & 30 u(&) "(&) 10GSM 850 "(&) 82.2 0.29(&-128) 128 & 251 u(&) "(&) 5

4re5uencies are in MB!.

multi;band M" shall interpret /41' numbers :,* to 9,+ as either

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GSM -&& and GSM $&& and GSM *'&

Powercontrol

le4el

No!inal 5utputpower "d2!%

Tolerance "d2% forconditions

nor!al etre!e

0-2 3/ ?2 ?2,53 3 ?3 ? 35 ?3 ?5 33 ?3 ?6 31 ?3 ? 2/ ?3 ?8 2 ?3 ?/ 25 ?3 ?10 23 ?3 ?11 21 ?3 ?12 1/ ?3 ?13 1 ?3 ?1 15 ?3 ?15 13 ?3 ?

16 11 ?5 ?61 / ?5 ?618 ?5 ?6

1/-31 5 ?5 ?6

D1S# *&&

Powercontrol

le4el

No!inal5utput power

"d2!%

Tolerance "d2% forconditions

nor!al etre!e

2/ 36 ?2 ?2,530 3 ?3 ?

31 32 ?3 ?0 30 ?3 ?1 28 ?3 ?2 26 ?3 ?3 2 ?3 ? 22 ?3 ?5 20 ?3 ?6 18 ?3 ? 16 ?3 ?8 1 ?3 ?/ 12 ? ?510 10 ? ?511 8 ? ?512 6 ? ?5

13 ? ?51 2 ?5 ?615-28 0 ?5 ?6

'OT ,? 4or

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'OT *? * d0 nominal difference in output power can eist for non;adjacent power control levels e.. powercontrol levels ,9 and ** for G"M 6++ and G"M 7++F power control levels 3, and + for class 3 2,5 d>31 32 2 d> 2,5 d>0 30

3 d>1

d>1

1 28 3 d> d>2 26 3 d> d>3 2

3 d>1

d>1

22 3 d> d>5 20 3 d> d>6 18 3 d> d> 16 3 d> d>8 1 3 d> d>/ 12 d> 5 d>10 10 d> 5 d>11 8 d> 5 d>12 6 d> 5 d>13 d> 5 d>1 2 5 d> 6 d>15 0 5 d> 6 d>

16-21 Resered Resered Resered &orma"

a&d 2,5 d> exreme a Poer *o&ro" !ee"s 0 a&d 3res#ecie"7.

The output power actually transmitted by the M" at each of the power control levels shall form a monotonic se5uence-

and the interval between power steps shall be * d0 ,-: d0 ecept for the step between power control levels 3+ and 3,where the interval is , d0 , d0.

The M" transmitter may be commanded by the 0T" to chane from any power control level to any other power controllevel. The maimum time to eecute this chane is specified in 3GPP T" +:.+9.

4or 1T" transmission- the nominal maimum output power of the M" shall be restricted to?

; ,, d0m (+-+,: 2) in G"M 7++ i.e. power control level ,=F

; ,* d0m (+-+,= 2) in

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.1.2 >ase saio&

4or a normal 0T"- the maimum output power measured at the input of the 0"" T combiner- shall be- accordin to itsclass- as defined in the followin table.

GSM -&& 0 GSM $&& 0 GSM *'& 0

M7M *'&

D1S# *&& 0 P1S # $&& 0 M7M #$&&

TR7 Mai!u! TR7 Mai!u!power class output power power class output power

1 320 - (@ 60) = 1 20 - (@ 0) =2 160 - (@ 320) = 2 10 - (@ 20) =3 80 - (@ 160) = 3 5 - (@ 10) = 0 - (@ 80) = 2,5 - (@ 5) =5 20 - (@ 0) =6 10 - (@ 20) = 5 - (@ 10) =8 2,5 - (@ 5) =

4or a micro;0T" or a pico;0T"- the maimum output power per carrier measured at the antenna connector after allstaes of combinin shall be- accordin to its class- defined in the followin table.

GSM $&& 0 GSM *'& 0 M7M *'& !icro andpico,2TS

D1S # *&& 0 P1S # $&& 0 M7M #$&& !icro andpico,2TS

TR7 powerclass

Mai!u! output power TR7 powerclass

Mai!u! output power

Micro Micro

M1 (A 1/) - 2 d>m M1 (A 2) - 32 d>mM2 (A 1) - 1/ d>m M2 (A 22) - 2 d>mM3 (A /) - 1 d>m M3 (A 1) - 22 d>m

Pico PicoP1 (A 13) - 20 d>m P1 (A 16) - 23 d>m

4or 0T" supportin 9;P"%- the manufacturer shall declare the maimum output power capability for GM"% and 9;P"%modulation. The T/8 power class is defined by the hihest output power capability for either modulation.

The tolerance of the actual maimum output power of the 0T" for each supported modulation shall be * d0 undernormal conditions and *-: d0 under etreme conditions. "ettins shall be provided to allow the output power to be

reduced from the maimum level for the modulation with the hihest output power capability in at least si steps ofnominally * d0 with an accuracy of , d0 for each modulation to allow a fine adjustment of the coverae by thenetwor# operator. &n addition- the actual absolute output power for each supported modulation at each static /4 powerstep (')- with the eception below for the hihest /4 power level for 9;P"%- shall be *' d0 below the absolute outputpower at static /4 power step + for the modulation with the hihest output power capability with a tolerance of 3 d0under normal conditions and 6 d0 under etreme conditions. The static /4 power step + shall be the actual output

power accordin to the T/8 power class.

s an option the 0"" can utili!e downlin# /4 power control. &n addition to the static /4 power steps described above-the 0"" may then for each supported modulation utili!e up to ,: steps of power control levels with a step si!e of * d0 ,-: d0- in addition the actual absolute output power for each supported modulation at each power control level (')-

with the eception below for the hihest power level for 9;P"%- shall be *' d0 below the absolute output power atpower control level + for the modulation with the hihest output power capability with a tolerance of 3 d0 undernormal conditions and 6 d0 under etreme conditions. The power control level + shall be the set output poweraccordin to the T/8 power class and the si power settins defined above.

The output power for both GM"% and 9;P"% shall be nominally the same for any supported static /4 power step and

power control level. n eception is allowed for the maimum output power of 9;P"%- which may be lower than theGM"% output power for the same power step or power control level- i.e. the nominal si!e of the first step down frommaimum power level for 9;P"% may be in the rane +Q* d0. The output power for the GM"% and 9;P"% at this

power control level shall still be considered the same when re5uired in 3GPP T" +:.+9. The output power of 9;P"% forthe second hihest power step or power control level shall be the same as the GM"% power for the same power step orpower control level within a tolerance of , d0. The number of static /4 power steps and the total number of power

control steps may be different for GM"% and 9;P"%.

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'etwor# operators or manufacturers may also specify the 0T" output power includin any T combiner- accordin totheir needs.

.1.2.1 %ddiio&a" reuireme&s 4or P*S 1 /00 a&d MBM 1/00 >ase saio&s

The 0T" transmitter maimum rated output power per carrier- measured at the input of the transmitter combiner- shall

be- accordin to its T/8 power class- as defined in the table above. The base station output power may also be specifiedby the manufacturer or system operator at a different reference point (e.. after transmitter combinin).

The maimum radiated power from the 0T"- includin its antenna system- shall not eceed a maimum of , =6+ 2&/P- e5uivalent to , +++ 2 /P- per the applicable 411 rules for wideband P1" services H411 part *6- subpart -

section *6.*3@I.

.1.2.2 %ddiio&a" reuireme&s 4or GSM 850 a&d MBM 850 >ase saio&s

The 0T" transmitter maimum rated output power per carrier- measured at the input of the transmitter combiner- shall

be- accordin to its T/8 power class- as defined in the table above. The base station output power may also be specifiedby the manufacturer or system operator at a different reference point (e.. after transmitter combinin).

The maimum radiated power from the 0T"- includin its antenna system- shall not eceed a maimum of :++ 2 /P-per the applicable 411 rules for public mobile services H411 part **- subpart B- section **.7,3I.

.2

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; when tests are done in fre5uency hoppin mode- the averain shall include only bursts transmitted when thehoppin carrier corresponds to the nominal carrier of the measurement. The specifications then apply to themeasurement results for any of the hoppin fre5uencies.

The fiures in tables a)- b) and c) below- at the vertically listed power level (d0m) and at the hori!ontally listed

fre5uency offset from the carrier (#B!)- are then the maimum allowed level (d0) relative to a measurement in 3+ #B!

on the carrier.

'OT? This approach of specification has been chosen for convenience and speed of testin. &t does howeverre5uire careful interpretation if there is a need to convert fiures in the followin tables into spectral

density values- in that only part of the power of the carrier is used as the relative reference- and inaddition different measurement bandwidths are applied at different offsets from the carrier. ppropriateconversion factors for this purpose are iven in 3GPP T" +:.:+.

4or the 0T"- the power level is the actual absolute output power defined in subclause 6.,.*. &f the power level fallsbetween two of the values in the table- the re5uirement shall be determined by linear interpolation.

a,)G"M 6++ and G"M 7++ and G"M 9:+ M"?

100 200 250 00 600 1 800 3 000 6 000

@ 1 800 @ 3 000 @ 6 0003/ 0,5 -30 -33 -60 -66 -6/ -1 -3 0,5 -30 -33 -60 -6 -6 -6/ -535 0,5 -30 -33 -60 -62 -65 -6 -3

33 0,5 -30 -33 -609 -60 -63 -65 -1.

a3)G"M 7++ and G"M 9:+ and M8M 9:+ micro;0T"?

100 200 250 00 600 1 200 1 800@ 1 200 @ 1 800

33 0,5 -30 -33 -609 -60 -63 -0

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b,).

b3).

c,)P1" , 7++ M"?

100 200 250 00 600 1 200 1 800 6 000@ 1 200 @ 1 800 @ 6 000

33 0,5 -30 -33 -60 -60 -60 -68 -632 0,5 -30 -33 -60 -60 -60 -6 -530 0,5 -30 -33 -609 -60 -60 -65 -328 0,5 -30 -33 -609 -60 -60 -63 -126 0,5 -30 -33 -609 -60 -60 -61 -6/

2 0,5 -30 -33 -609 -60 -60 -5/ -6

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c*)P1" , 7++ S M8M ,7++ normal 0T"?

100 200 250 00 600 1 200 1 800 6 000@ 1 200 @ 1 800 @ 6 000

3 0,5 -30 -33 -609 -0 -3 -5 -801 0,5 -30 -33 -609 -68 -1 -3 -803/ 0,5 -30 -33 -609 -66 -6/ -1 -803 0,5 -30 -33 -609 -6 -6 -6/ -8035 0,5 -30 -33 -609 -62 -65 -6 -80

33 0,5 -30 -33 -609 -60 -63 -65 -80.

c6)P1" , 7++ and M8M ,7++ pico;0T"?

100 200 250 00 600 1 200 1 800@ 1 200 @ 1 800

23 0,5 -30 -33 -609 -60 -63 -6

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Power 1lass GSM $&& 0 GSM *'& 0 M7M *'& D1S # *&& 0 P1S # $&& 0 M7M #$&&

M1 -5/ d>m -5 d>mM2 -6 d>m -62 d>mM3P1

-6/ d>m-68d>m

-6 d>m-65d>m

.2.2 S#ecrum due o sic$i& ra&sie&s

Those effects are also measured in the time domain and the specifications assume the followin measurementconditions? !ero fre5uency scan- filter bandwidth 3+ #B!- pea# hold- and video bandwidth ,++ #B!.

The eample of a waveform due to a burst as seen in a 3+ #B! filter offset from the carrier is iven thereunder(fiure ,).

d>

100I/0I%erai&

#eriod

50I

midam'"e

Jse4u" #ar o4 $e 'urs

0I

Sic$i& ra&sie&s

Max-$o"d "ee" #eaD o4 sic$i& ra&sie&s

Video aerae "ee" s#ecrum due o

modu"aio&

8iure #< Ea!ple of a ti!e wa4efor! due to a =urst as seen in a 3& >? filter offsetfro! the carrier

a) Mobile "tation?

Power le4el Mai!u! le4el !easured-&& >? .&& >? # +&& >? # *&& >?

3/ d>m -21 d>m -26 d>m -32 d>m -36 d>m

3 d>m -23 d>m -26 d>m -32 d>m -36 d>m

'OT ,? The relaation$s for power level 37 d0m is in line with the modulated spectra and thus causes neliible

additional interference to an analoue system by a G"M sinal.

'OT *? The near;far dynamics with this specification has been estimated to be approimately :9 d0 for M"operatin at a power level of 9 2 or 67 d0 for M" operatin at a power level of , 2. The near;fardynamics then radually decreases by * d0 per power level down to 3* d0 for M" operatin in cells with

a maimum allowed output power of *+ m2 or *7 d0 for M" operatin at ,+ m2.

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'OT 3? The possible performance deradation due to switchin transient lea#in into the beinnin or the end ofa burst- was estimated and found to be acceptable with respect to the 0/ due to cochannel interference(1A&).

b) 0ase transceiver station?

The maimum level measured- after any filters and combiners- at the indicated offset from the carrier- is?

Mai!u! le4el !easured

-&& >? .&& >? # +&& >? # *&& >?

GSM 00 K GSM /00K GSM 850 K MBM

850 (GMSC)

-5 d>c -6 d>c - d>c - d>c

GSM 00 K GSM /00K GSM 850 K MBM

850 (8-PSC)

-52 d>c -62 d>c - d>c - d>c

:*S 1 800 KP*S 1 /00 K

MBM 1/00 (GMSC)

-50 d>c -58 d>c -66 d>c -66 d>c

:*S 1 800 KP*S 1 /00 K

MBM 1/00 (8-PSC)

-50 d>c -58 d>c -66 d>c -66 d>c

Or ;3= d0m- whichever is the hiher.

d0c means relative to the output power at the 0T"- measured at the same point and in a filter bandwidth of at least3++ #B!.

'OT 6? "ome of the above re5uirements are different from those specified in subclause 6.3.*.

.3 S#urious emissio&s

The limits specified thereunder are based on a :;pole synchronously tuned measurement filter.

&n addition to the re5uirements of this section- the P1" , 7++ S M8M ,7++ 0T" and P1" , 7++ M" shall also complywith the applicable limits for spurious emissions established by the 411 rules for wideband P1" services H,6I.

&n addition to the re5uirements of this section- the G"M 9:+ S M8M 9:+ 0T" and G"M 9:+ M" shall also complywith the applicable limits for spurious emissions established by the 411 rules for public mobile services H411 Part **-"ubpart BI.

.3.1 Pri&ci#"e o4 $e s#eci4icaio&

&n this subclause- the spurious transmissions (whether modulated or unmodulated) and the switchin transients arespecified toether by measurin the pea# power in a iven bandwidth at various fre5uencies. The bandwidth is

increased as the fre5uency offset between the measurement fre5uency and- either the carrier- or the ede of the M" or0T" transmit band- increases. The effect for spurious sinals of widenin the measurement bandwidth is to reduce theallowed total spurious enery per MB!. The effect for switchin transients is to effectively reduce the allowed level ofthe switchin transients (the pea# level of a switchin transient increases by = d0 for each doublin of the measurementbandwidth). The conditions are specified in the followin table- a pea#;hold measurement bein assumed.

The measurement conditions for radiated and conducted spurious are specified separately in 3GPP T" ,,.,+ and ,,.*series. The fre5uency bands where these are actually measured may differ from one type to the other (see 3GPPT" ,,.,+ and ,,.* series).

a)

2and 8re9uenc: offset Measure!ent =andwidth

(o44se 4rom carrier)

re"ea& ra&smi 1,8 MEF 30 DEF'a&d 6 MEF 100 DEF

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b)

2and 8re9uenc: offset Measure!ent =andwidth

100 DEF o 50 MEF - 10 DEF50 MEF o 500 MEF ouside $e

re"ea& ra&smi 'a&d(o44se 4rom ede o4 $ere"ea& ra&smi 'a&d)

2 MEF 30 DEF

5 MEF 100 DEFa'oe 500 MEF ouside $e (o44se 4rom ede o4 $e

re"ea& ra&smi 'a&d re"ea& ra&smi 'a&d)

2 MEF 30 DEF

5 MEF 100 DEF

10 MEF 300 DEF

20 MEF 1 MEF

30 MEF 3 MEF

The measurement settins assumed correspond- for the resolution bandwidth to the value of the measurementbandwidth in the table- and for the video bandwidth to approimately three times this value.

'OT? 4or radiated spurious emissions for M" with antenna connectors- and for all spurious emissions for M"with interal antennas- the specifications currently only apply to the fre5uency band 3+ MB! to 6 GB!.

The specification and method of measurement outside this band are under consideration.

.3.2 >ase Tra&sceier Saio&

.3.2.1 Ge&era" reuireme&s

The power measured in the conditions specified in subclause 6.3.,a shall be no more than ;3= d0m.

The power measured in the conditions specified in subclause 6.3.,b shall be no more than?

; *:+ n2 (;3= d0m) in the fre5uency band 7 #B! to , GB!F

; , 2 (;3+ d0m) in the fre5uency band , GB! to ,*.@: GB!.

'OT ,? 4or radiated spurious emissions for 0T"- the specifications currently only apply to the fre5uency band

3+ MB! to 6 GB!. The specification and method of measurement outside this band are underconsideration.

&n the 0T" receive band- the power measured usin the conditions specified in subclause 6.*.,- with a filter and videobandwidth of ,++ #B! shall be no more than.

GSM $&& 0 GSM *'& 0 M7M

*'& "d2!%

D1S #*&& 0 P1S #$&& 0 M7M #$&&

"d2!%orma" >TS -/8 -/8

Micro >TS M1 -/1 -/6Micro >TS M2 -86 -/1Micro >TS M3Pico >TS P1

-81-0

-86-80

R-GSM /00 >TS -8/

These values assume a 3+ d0 couplin loss between transmitter and receiver. &f 0T"s of different classes are co;sited-the couplin loss must be increased by the difference between the correspondin values from the table above.

Measures must be ta#en for mutual protection of receivers when 0T" of different bands are co;sited.

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'OT *? Thus- for this case- assumin the couplin losses are as above- then the power measured in the conditionsspecified in subclause 6.*.,- with a filter and video bandwidth of ,++ #B! should be no more than thevalues in the table above for the G"M 6++ and G"M 7++ transmitter in the band , @,+ MB! to, @9: MB!- for G"M 6++ and

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.3.3 Mo'i"e Saio&

.3.3.1 Mo'i"e Saio& GSM 00, GSM /00 a&d :*S 1 800

The power measured in the conditions specified in subclause 6.3.,a- for a M" when allocated a channel- shall be nomore than ;3= d0m. 4or /;G"M 7++ M" ecept small M" the correspondin limit shall be ;6* d0m.

The power measured in the conditions specified in subclause 6.3.,b for a M"- when allocated a channel- shall be nomore than (see also note in subclause 6.3.,b above)?

; *:+ n2 (;3= d0m) in the fre5uency band 7 #B! to , GB!F

; , 2 (;3+ d0m) in the fre5uency band , GB! to ,*-@: GB!.

The power measured in a ,++ #B! bandwidth for a M"- when not allocated a channel (idle mode)- shall be no more than(see also note in subclause 6.3., above)?

- * n2 (;:@ d0m) in the fre5uency bands 7 #B! to , +++ MB!F

; *+ n2 (;6@ d0m) in the fre5uency bands , ; ,*.@: GB!-

with the followin eceptions?

; ,.*: n2 (;:7 d0m) in the fre5uency band 99+ MB! to 7,: MB!F

- : n2 (;:3 d0m) in the fre5uency band ,-@, GB! to ,-@9: GB!F

; ;@= d0m in the fre5uency bands ,7++ K ,7*+ MB!- ,7*+ K ,79+ MB!- *+,+ K *+*: MB!- and **,+ ;*,@+ MB!.

'OT? The idle mode spurious emissions in the receive band are covered by the case for M" allocated a channel(see below).

2hen allocated a channel- the power emitted by the M"- when measured usin the measurement conditions specified in

subclause 6.*.,- but with averain over at least :+ burst measurements- with a filter and video bandwidth of ,++ #B!-for measurements centred on *++ #B! multiples shall be no more than?

; ;=@ d0m in the bands 6=+.6 K 6=@.= MB! and 699.9 ; 67= MB!for G"M6++ M" onlyF

; ;=+ d0m in the band 7*, ; 7*: MB! for /;G"M M" onlyF

; ;=@ d0m in the band 7*: ; 73: MB!F

; ;@7 d0m in the band 73: K7=+ MB!F

; ;@, d0m in the band ,9+: ; ,99+ MB!F

; ;== d0m in the bands ,7++ ; ,7*+ MB!- ,7*+ ; ,79+ MB!- *+,+ ; *+*: MB!- and *,,+ ; *,@+ MB!..

s eceptions up to five measurements with a level up to ;3= d0m are permitted in each of the bands 7*: MB! to7=+ MB!- , 9+: MB! to , 99+ MB!- ,7++ ; ,7*+ MB!- ,7*+ ; ,79+ MB!- *+,+ ; *+*: MB!- and *,,+ ; *,@+ MB!for each /41' used in the measurements. 4or G"M 6++ M"- in addition- eceptions up to three measurements with alevel up to ;3= d0m are permitted in each of the bands 6=+-6 MB! to 6=@-= MB! and 699-9 MB! to 67= MB! for each/41' used in the measurements.

2hen hoppin- this applies to each set of measurements- rouped by the hoppin fre5uencies as described insubclause 6.*.,.

.3.3.2 Mo'i"e Saio& GSM 850 a&d P*S 1 /00

The pea# power measured in the conditions specified in subclause 6.3.,a- for a M" when allocated a channel- shall be

no more than ;3= d0m.

The pea# power measured in the conditions specified in subclause 6.3.,b for a M"- when allocated a channel- shall beno more than?

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; ;3= d0m in the fre5uency band 7 #B! to , GB!F

; ;3+ d0m in all other fre5uency bands , GB! to ,*-@: GB!.

The pea# power measured in a ,++ #B! bandwidth for a mobile- when not allocated a channel (idle mode)- shall be nomore than?

; ;:@ d0m in the fre5uency bands 7 #B! to ,+++ MB!F

; ;:3 d0m in the fre5uency band , 9:+ MB! to , 7,+ MB!F

; ;6@ d0m in all other fre5uency bands , GB! to ,*-@: GB!.

The power emitted by the M" in a ,++ #B! bandwidth usin the measurement techni5ues for modulation and wide bandnoise (subclause 6.*.,) shall not eceed?

; ;@7 d0m in the fre5uency band 9=7 MB! to 976 MB!F

; ;@, d0m in the fre5uency band , 73+ MB! to , 77+ MB!.

maimum of five eceptions with a level up to ;3= d0m are permitted in each of the band 9=7 MB! to 976 MB! and

, 73+ MB! to , 77+ MB! for each /41' used in the measurements.

. Radio 4reue&c7 o"era&ce

The radio fre5uency tolerance for the base transceiver station and the M" is defined in 3GPP T" +:.,+.

.5

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; ;:7 d0c or ;:6 d0m- whichever is the reater for G"M 6++- G"M 7++- and G"M 9:+- ecept for the time slotprecedin the active slot- for which the allowed level is ;:7 d0c or ;3= d0m whichever is the reaterF

; ;69 d0c or ;69 d0m- whichever is the reater for

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; the measured /M" >M over the useful part of any burst- ecludin tail bits- shall not eceedF

; for M"? under normal conditions 7-+ Runder etreme conditions ,+-+ R

; for 0T"F after any active element and ecludin the effect of any passive combinin e5uipment?

; under normal conditions @-+ Runder etreme conditions 9-+ R

; after any active element and includin the effect of passive combinin e5uipment?under normal conditions 9-+ Runder etreme conditions 7-+ R

The /M" >M per burst is measured under the duration of at least *++ bursts.

.6.2.2 M values are ac5uired durin the useful part of the burst- ecludin tail bits.

; The measured pea# >M values shall be V 3+ R for M" and V ** R for 0T" under normal and etremeconditions. 4or 0T"- the effect of any passive combinin e5uipment is ecluded.

.6.2. /5$ #erce&i"eThe 7:?th percentile is the point where 7:R of the individual >M values- measured at each symbol interval- is belowthat point. That is- only :R of the symbols are allowed to have an >M eceedin the 7:?th;percentile point. The >Mvalues are ac5uired durin the useful part of the burst- ecludin tail bits- over *++ bursts.

The measured 7:?th;percentile value shall be V ,: R for M" and V ,, R for 0T" under normal and etreme conditions.4or 0T"- the effect of any combinin e5uipment is ecluded.

. ;&ermodu"aio& ae&uaio&

The intermodulation attenuation is the ratio of the power level of the wanted sinal to the power level of anintermodulation component. &t is a measure of the capability of the transmitter to inhibit the eneration of sinals in its

non;linear elements caused by the presence of the carrier and an interferin sinal reachin the transmitter via theantenna- or by non linear combinin and amplification of multiple carriers.

..1 >ase ra&sceier saio&

n interferin 12 sinal shall be applied to the transmit antenna port- within the relevant 0T" T8 band at a fre5uency

offset of 9++ #B!- and with a power level 3+ d0 below the power level of the wanted sinal.

The intermodulation products shall meet the re5uirements in subclause 6.@.*.

..2 ;&ra >TS i&ermodu"aio& ae&uaio&

&n a 0T" intermodulation may be caused by combinin several /4 channels or amplification of multiple carriers to feeda sinle antenna- or when operatin them in the close vicinity of each other. The 0T" shall be confiured with eachtransmitter operatin at the maimum allowed power- with a full complement of transceivers and with modulation

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applied. 4or the measurement in the transmit band the e5uipment shall be operated at e5ual and minimum carrierfre5uency spacin specified for the 0"" confiuration under test. 4or the measurement in the receive band thee5uipment shall be operated with such a channel confiuration that at least 3rd order intermodulation products fall intothe receive band.

..2.1 GSM 00, GSM /00, :*S 1800

ll the followin re5uirements relate to fre5uency offsets from the uppermost and lowermost carriers. The pea# holdvalue of intermodulation components over a timeslot- shall not eceed ;@+ d0c or ;3= d0m- whichever is the hiher- forfre5uency offsets between = MB! and the ede of the relevant T band measured in a 3++ #B! bandwidth. , in,++ timeslots may fail this test by up to a level of ,+ d0. 4or offsets between =++ #B! to = MB! the re5uirements and

the measurement techni5ue is that specified in subclause 6.*.,.

The other re5uirements of subclause 6.3.* in the band 7 #B! to ,*-@: GB! shall still be met.

..2.2 MBM 850 a&d MBM 1/00

The followin re5uirements apply to M8M 9:+ and M8M ,7++ 0T"s which include '"&;,3= H,@I 3+ #B! carriers-in addition to the *++ #B! carriers specified in the present document. ll the followin re5uirements relate to fre5uency

offsets from the uppermost and lowermost carriers. The averae value of intermodulation components for fre5uencyoffsets W ,-* MB! to the ede of the relevant T band- shall not eceed?

(a) ;=+ d0c- measured in a 3+ #B! bandwidth-relative to the average power of the 3+ #B! channel carrier- measured

in a 3+ #B! bandwidth-usin normal power averain (per H,@I Part *9+)- and

(b) ;=+ d0c,measured in a *++ #B! bandwidth-relative to the *++ #B! carrier averae power- measured in a 3++

#B! bandwidth and averaed over a timeslot.

&n addition to the re5uirements of this section- the M8M 9:+ 0T" and M8M ,7++ 0T" shall also comply with theapplicable limits for spurious emissions established by the 411 rules for public mobile services H411 Part **- "ubpartBI and 411 rules for wideband P1" services H,6I respectively.

'OT ,? &n some areas- to avoid uncoordinated system impacts- it may be beneficial to use a more strinent value.

;@+ d0c rms is suested.

'OT *? 4or testin reasons- a M8M ,7++ normal 0T" fulfillin the P1" ,7++ normal 0T" re5uirements or aM8M 9:+ normal 0T" fulfillin G"M 9:+ normal 0T" re5uirements in this subclause may beconsidered fulfillin the re5uirements for M8M ,7++ normal 0T" or M8M 9:+ normal 0T"

respectively.

..2.3 GSM 850 a&d P*S 1/00

ll the followin re5uirements relate to fre5uency offsets from the uppermost and lowermost carriers. 4or fre5uencyoffsets W ,-9 MB! to the ede of the relevant T band- measured in 3++ #B! bandwidth the averae value of

intermodulation components over a timeslot shall not eceed ;@+ d0c relative to the per carrier power or ;6= d0m-

whichever is the hiher. 4or offsets between =++ #B! and ,-9 MB!- the measurement techni5ue and re5uirements arethose specified in subclause 6.*.,- ecept for offsets between ,-* MB! and ,-9 MB!- where the value ofintermodulation components shall not eceed K@+ d0c.

The other re5uirements of subclause 6.3.* in the band 7 #B! to ,*-@: GB! shall still be met.

&n reions where additional protection between uncoordinated systems is re5uired by national reulatory aencies- theintermodulation components for fre5uency offsets W ,-* MB! may be up to K=+ d0c- if not violatin the nationalreulation re5uirements. &n this case the P1" ,7++ 0T" and G"M 9:+ shall also comply with the applicable limits forspurious emissions established by the 411 rules for wideband P1" services H,6I and 411 rules for public mobile

services H411 Part **- "ubpart BI respectively- or similar national re5uirements with comparable limits and rules.

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..3 Void

.. Mo'i"e P>B (GSM /00 o&"7)

&n a mobile P08 intermodulation may be caused when operatin transmitters in the close vicinity of each other. The

intermodulation specification for mobile P08s (G"M 7++ only) shall be that stated in subclause 6.@.*.

5 Receier c$aracerisics

&n this clause- the re5uirements are iven in terms of power levels at the antenna connector of the receiver. 5uipment

with interal antenna may be ta#en into account by convertin these power level re5uirements into field strenthre5uirements- assumin a + d0i ain antenna. This means that the tests on e5uipment on interal antenna will considerfields strenths () related to the power levels (P) specifiedby the followin formula (derived from the formula X PJ *+lo4(MB!)J @@-*)?

assumin 4 X 6=+ MB! ? (d0>Am) X P (d0m) J ,3+-: for G"M 6++F

assumin 4 X 9:7 MB! ? (d0>Am) X P (d0m) J ,3:-7 for G"M 9:+F

assumin 4 X 7*: MB! ? (d0>Am) X P (d0m) J ,3=-: for G"M 7++F

assumin 4 X , @7: MB! ? (d0>Am) X P (d0m) J ,6*-3 for ?%=and D1S # *&&MS 2TS

i&-'a&d 1 85 - 1 /20 1 6/0 - 1 805ou-o4-'a&d (a) 0,1 - 105 0,1 - @ 1 6/0ou-o4-'a&d (') A 1 05 - @ 1 85 %ou-o4 'a&d (c) A 1 /20 - 1 /80 %ou-o4 'a&d (d) A 1 /80 - 12,50 A 1 805 - 12,50

8re9uenc: 8re9uenc: rane "M>?%=and

P1S # $&& MS P1S # $&& 0 M7M #$&&2TS

i&-'a&d 1/10 - 2010 1830 - 1/30ou-o4-'a&d (a) 0,1 - @ 1830 0,1 - @ 1830ou-o4-'a&d (') 1830 - @ 1/10 %ou-o4 'a&d (c) A 2010 - 200 %ou-o4 'a&d (d) A 200 - 12,50 A 1/30 - 12,50

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8re9uenc: 8re9uenc: rane "M>?%=and

GSM *'& MS GSM *'& 0 M7M *'&2TS

i&-'a&d 8/ - /1 80 - 85/

ou-o4-'a&d (a) 0,1 - @ 8/ 0,1 - @ 80ou-o4-'a&d (') % %ou-o4 'a&d (c) % %ou-o4 'a&d (d) A /1- 12,50 A 85/ - 12,50

8re9uenc: 8re9uenc: rane "M>?%=and GSM -'& GSM -*&

MS 2TS MS 2TS

i&-'a&d 5,6 L 3,6 , L 60, 86,0 L 502,0 2,8 L 88,8ou-o4-'a&d (a) 0,1 - @ 5,6 0,1 - @ , 0,1 - @ 86,0 0,1 - @ 2,8ou-o4-'a&d (') % % % %ou-o4 'a&d (c) % % % %ou-o4 'a&d (d) A 3,6 - 12,50 A 60, - 12,50 A 502,0 - 12,50 A 88,8 - 12,50

The reference sensitivity performance as specified in tables ,- ,a- ,b- ,c- ,d and ,e shall be met when the followinsinals are simultaneously input to the receiver?

; for all cases ecept G"M 9:+ normal 0T"- M8M 9:+ normal 0T" and M8M ,7++ normal 0T"- a useful sinal-modulated with the relevant supported modulation (GM"% or 9;P"%)- at fre5uency fo- 3 d0 above the reference

sensitivity level or input level for reference performance- whichever applicable- as specified in subclause =.*F

- for G"M 9:+ normal 0T"- M8M 9:+ normal 0T" and M8M ,7++ normal 0T" a useful sinal- modulatedwith the relevant supported modulation (GM"% or 9;P"%)- at fre5uency fo- , d0 above the reference sensitivity

level or input level for reference performance- whichever applicable- as specified in subclause =.*F

; a continuous- static sine wave sinal at a level as in the table below and at a fre5uency (f) which is an inteermultiple of *++ #B!. 4or G"M 9:+ normal 0T"- M8M 9:+ normal 0T" and M8M ,7++ normal 0T" at inband

fre5uency offsets 3 +++ #B! this sinal is GM"% modulated by any ,69;bit se5uence of the :,,;bit pseudorandom bit se5uence- defined in 11&TT /ecommendation O.,:3 fascicle &>.6-

with the followin eceptions- called spurious response fre5uencies?

a) G"M 7++ M" and 0T"- G"M 9:+ M" and 0T"- and M8M 9:+ 0T"? in band- for a maimum of sioccurrences (which if rouped shall not eceed three contiuous occurrences per roup)F

(emf)(i.e. ;63 d0m).

'OT? 4or testin reasons- a M8M ,7++ normal 0T" fulfillin the P1" ,7++ normal 0T" re5uirements in thispararaph may be considered fulfillin the re5uirements for M8M ,7++ normal 0T".

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8re9uenc: GSM -&&@ P,@ E, and R,GSM $&& D1S # *&& 0 P1S # $&&

=and other MS s!all MS 2TS MS 2TS

d2) d2! d2) d2! d2) d2! d2) d2! d2) d2!"e!f% "e!f% "e!f% "e!f% "e!f%

i&-'a&d

600 DEF 4-4o @

800 DEF

5 -38 0 -3 8 -26 0 -3 8 -35

800 DEF 4-4o @1,6 MEF

80 -33 0 -3 / -16 0 -3 88 -25

1,6 MEF 4-4o @ 3 MEF /0 -23 80 -33 / -16 80 -33 88 -25

3 MEF 4-4o /0 -23 /0 -23 100 -13 8 -26 88 -25

ou-o4-'a&d(a) 113 0 113 0 121 8 113 0 113 0(') - - - - - - 101 -12 - -(c) - - - - - - 101 -12 - -(d) 113 0 113 0 121 8 113 0 113 0

m

4or R-GSM /00 sma"" MS, i& $e 'a&d 86 MEF o /15 MEF - d>m

4or GSM 50 sma"" MS, i& $e 'a&d 50, MEF o 5,6 MEF -5 d>m

4or GSM 80 sma"" MS, i& $e 'a&d 8,8 MEF o 86 MEF -5 d>m

4or GSM /00 a&d +-GSM /00 >TS, i& $e 'a&d /25 MEF o /35 MEF 0 d>m

4or R-GSM /00 >TS a o44ses 600 DEF @ a's (4-40) @ 3 MEF, i& $e'a&d 86 MEF o 880 MEF

!ee" reduced '7 5 d>

8re9uenc: GSM *'& MS GSM *'& 0

M7M *'& 2TS

M7M #$&& 2TS

=and d2) d2! d2) d2! d2) d2!"e!f% "e!f% "e!f%

i&-'a&d

600 DEF 4-4o @800 DEF

0 -3 6 -3 0 -3

800 DEF 4-4o @

1,6 MEF

0 -3 8 -35 5 -38

1,6 MEF 4-4o @ 3 MEF 80 -33 80 -33 80 -33

3 MEF 4-4o /0 -23 80 -33 80 -33

ou-o4-'a&d(a) 113 0 121 8 113 0(') - - - - - -(c) - - - - - -(d) 113 0 121 8 113 0

The bloc#in characteristics of the micro;0T" receiver are specified for in;band and out;of;band performance. Theout;of;band bloc#in remains the same as a normal 0T" and the in;band bloc#in performance shall be no worse thanin the table below.

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8re9uenc: =and GSM $&&@ GSM *'& and M7M *'&!icro and pico,2TS

D1S # *&&@ P1S #$&& andM7M #$&&

!icro and pico,2TS

M# M+ M3 P# M# M+ M3 P#"d2!% "d2!% "d2!% "d2!% "d2!% "d2!% "d2!% "d2!%

i&-'a&d

600 DEF 4-40

@ 800 DEF -31 -26 -21 -3 -0 -35 -30 -1

800 DEF 4-40 @ 1,6 MEF -21 -16 -11 -3 -30 -25 -20 -1

1,6 MEF 4-40 @ 3 MEF -21 -16 -11 -26 -30 -25 -20 -31

3 MEF4-40 -21 -16 -11 -18 -30 -25 -20 -23

The bloc#in performance for the pico;0T" attempts- for the scenario of a close proimity uncoordinated M"- tobalance the impact due to bloc#in by the M" with that due to wideband noise overlappin the wanted sinal.

5.2 %M su##ressio& c$aracerisics

The reference sensitivity performance as specified in tables ,- ,a- ,b- ,c- ,d and ,e shall be met when the followin

sinals are simultaneously input to the receiver.

; useful sinal- modulated with the relevant supported modulation (GM"% or 9;P"%)- at fre5uency fo- 3 d0

above the reference sensitivity level or input level for reference performance- whichever applicable- as specified

in subclause =.*.

; sinle fre5uency (f)- in the relevant receive band- Y f;foY W = MB!- which is an inteer multiple of *++ #B!- a

G"M T

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; for the (emf) (i.e. ;6: d0m)F

; any ,69;bits subse5uence of the :,,;bits pseudo;random se5uence- defined in 11&TT /ecommendation O.,:3fascicle &>.6 GM"% modulatin a sinal at fre5uency f*- and a level of @+ d0> (emf) (i.e. ;63 d0m)?

; for G"M 6++ small M"s and G"M 7++ small M"s and G"M 9:+ small M"s- (emf) (i.e. ;67 d0m)F

; for the (emf) (i.e. ;6: d0m)F

such that f+X *f,; f*and Yf*;f,Y X 9++ #B!.

'OT? 4or subclauses :.* and :.3 instead of any ,69;bits subse5uence of the :,,;bits pseudo;random se5uence-defined in 11&TT /ecommendation O.,:3 fascicle &>.6- it is also allowed to use a more randompseudo;random se5uence.

5. S#urious emissio&s

The spurious emissions for a 0T" receiver- measured in the conditions specified in subclause 6.3.,- shall be no more

than?

; * n2 (;:@ d0m) in the fre5uency band 7 #B! to , GB!F

; *+ n2 (;6@ d0m) in the fre5uency band , GB! to ,*.@: GB!.

'OT? 4or radiated spurious emissions for the 0T"- the specifications currently only apply to the fre5uency band3+ MB! to 6 GB!. The specification and method of measurement outside this band are underconsideration.

6 Tra&smierreceier #er4orma&ce

&n order to assess the error rate performance that is described in this clause it is re5uired for a mobile e5uipment to havea loop bac# facility by which the e5uipment transmits bac# the same information that it decoded- in the same mode.This facility is specified in 3GPP T" +6.,6.

This clause aims at specifyin the receiver performance- ta#in into account that transmitter errors must not occur- andthat the transmitter shall be tested separately (see subclause 6.=). &n the case of base transceiver stations the values applyfor measurement at the connection with the antenna of the 0T"- includin any eternal multicoupler. ll the valuesiven are valid if any of the features? discontinuous transmission (

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; static channel? 0/ ,+;6F

; D:+ channel? 0/ 3 RF

ecept for 3GPP T" 6++- where the followin limits applies?

; static channel? 0/ ,+;6

F

; D,++ channel? 0/ 3 R.

4or the pico;0T" the nominal error rates need only be met in the static channel.

This performance shall be maintained up to ;6+ d0m input level for static and multipath conditions.

This performance shall also be maintained by the M" under fre5uency hoppin conditions- for input levels up to;6+ d0m in timeslots on the 1+ carrier- with e5ual input levels in timeslots on non 1+ carriers up to 3+ d0 less than onthe 1+ carrier.

'OT? This scenario may eist when 0T" downlin# power control and fre5uency hoppin are used.

4urthermore- for static conditions- a bit error rate of ,+;3

shall be maintained up to ;,: d0m for G"M 6++- G"M 7++-G"M 9:+ M" and G"M 6++- G"M 7++- G"M 9:+- M8M 9:+ 0T"- ;*3 d0m for

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&n addition- when the fre5uency of the input 9;P"% modulated sinal is randomly offset- on a burst;by;burst basis- bythe maimum fre5uency error specified in 3GPP T" +:.,+ H@I (for M" the pico;0T" fre5uency error in subclause :.,applies- and for 0T" the M" fre5uency error in subclause =., applies)- the performance shall fulfil the followin limitsfor "tatic channel?

; for input levels specified below up to K6+ d0m?

; G"M 6++- M8M 9:+- G"M 9:+ and G"M 7++ normal 0T"? 0/ ,+;6for levels ;96 d0mF

;

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GSM /00 >TS, GSM 850 >TS a&d MBM 850- 4or &orma" >TS -10 d>m- 4or micro >TS M1 -/ d>m- 4or micro >TS M2 -/2 d>m- 4or micro >TS M3 -8 d>m- 4or #ico >TS P1 -88 d>m

:*S 1 800 >TS- 4or &orma" >TS -10 d>m- 4or micro >TS M1 -102 d>m- 4or micro >TS M2 -/ d>m- 4or micro >TS M3 -/2 d>m- 4or #ico >TS P1 -/5 d>m

P*S 1 /00 >TS a&d MBM 1/00- 4or &orma" >TS -10 d>m- 4or micro >TS M1 -102 d>m- 4or micro >TS M2 -/ d>m- 4or micro >TS M3 -/2 d>m- 4or #ico >TS P1 -/5 d>m

4or all

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MS@ GMSB !odulated sinals- 4or :*S 1 800 c"ass 1 or c"ass 2 MS 2 d>99- 4or :*S 1 800 c"ass 3 MS 2 d>- 4or GSM 00 sma"" MS, GSM /00 sma"" MS

a&d GSM 850 sma"" MS2 d>

- 4or o$er GSM 00, GSM /00 MS a&d GSM850 MS

0 d>

4or P*S 1/00 c"ass 1 or c"ass 2 MS 2 d>4or o$er P*S 1/00 MS 0 d>

MS@ *,PSB !odulated sinals- 4or GSM 00, GSM /00 a&d GSM 850 sma""

MS0 d>

- 4or o$er GSM 00, GSM /00 a&d GSM 850MS

-2 d>

- 4or :*S 1 800 a&d P*S 1/00 c"ass 1 orc"ass 2 MS

0 d>

- 4or o$er :*S 1 800 a&d P*S 1/00 MS -2 d>

2TS

- 4or &orma" >TS 0 d>

- 4or GSM /00, GSM 850 a&d MBM 850 micro>TS M1

d>


12 d>


1 d>

- 4or GSM /00, GSM 850 a&d MBM 850 #ico>TS P1

16 d>

- 4or :*S 1 800, P*S 1/00 a&d MBM 1/00micro >TS M1

2 d>


d>


12 d>

- 4or :*S 1 800, P*S 1/00 a&d MBM 1/00#ico >TS P1

/ d>

4or all !+R 10I- 4or u#"i&D sae 4"as (JS) >!+R 1I- 4or #acDe ra&dom access c$a&&e"s (PR%*E), >!+R 15I

where 0E/ is the 0loc# rror /ate- referrin to all erroneously decoded data bloc#s includin any headers- stealinflas- parity bits as well as any implicit information in the trainin se5uence. For PDCH the BLER refers to RLC

blocks, and hence there can be up to two block errors per 20ms radio block for EGPRS MCS7, MCS8 and MCS9.4or

C"4- the 0E/ only refers to the C"4 value.

4or 9;P"% modulated P

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; for M" on a multislot confiuration- if the received level on any of the timeslots belonin to the same multislotconfiuration as the wanted time slot- eceed the wanted time slot by more than = d0.

The interferin adjacent time slots shall be static with valid G"M GM"% sinals in all cases. The reference sensitivitylevels- specified above for circuit;switched- GM"%;modulated channels- apply to 9;P"% as well.

The re5uirements for micro;0T" for 9;P"% modulated input sinals in the tables above- assume the same maimumoutput power in GM"% and 9;P"%. 4or other maimum output power levels- the sensitivity is adjusted accordinly.

The pico;0T" 7++ MB!- ,9++ MB!- ,7++ MB! and 9:+ MB! shall meet the reference sensitivity performance

specified for the static channel. The only other channel that is specified is the T&: propaation condition and this needonly be tested for the no 4B case. The performance re5uirement for G"M 7++- G"M 9:+- - 4or adNace& (200 DEF) i&er4ere&ce *;a1 -/ d>- 4or adNace& (00 DEF) i&er4ere&ce *;a2 -1 d>- 4or adNace& (600 DEF) i&er4ere&ce *;a3 -/ d>

4or GM"% modulated channels- pac#et switched and 1"

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4or 1"< channels and 9;P"% modulated pac#et;switched channels- the wanted input sinal level shall be? ; 73 d0m J&r J 1orr- where?

&r X the interference ratio accordin to table *b and *c for pac#ets switched channels and table *d and *e for1"%

RA+'&"no 8>%

>T#&&"no 8>%

%**EE (+R) 0,1 I 6,/ I 6,/ I 5, I 10,0 I

%**E (+R) 0,1 I 8,0 I 3,8 I 3, I 6,3 I

S:**E (+R) 0,1 I 13 I 8 I 8 I 12 I

R%*E (+R) 0,5 I 13 I 13 I 12 I 13 I

S*E (+R) 1 I 16 I 16 I 15 I 16 I

T*E1, (>+R)10-5 2,5 I 2 I 2 I 5 I

T*E/,6 K E,8 (>+R) 10-5 0,5 I 0, I 0,1 I 0, I

T*E,8 (>+R) - 10- 10- 10- 10-

T*E2, (>+R) - 2 10- 10-5 10-5 10-5

T*EE2, (>+R) - 10- 10- 10- 10-

T*ES (+R) 0,1I 6I 3I 2I I

c"ass ;' (R>+R) 0,I 0,I 0,3I 0,2I 0,5Ic"ass ;; (R>+R) 2 I 8 I 8 I I / I

T*E+S (+R) @ 0,1 I 8 I 3 I 3 I I

(R>+R ;') @ 0,1 I 0,21 I 0,11 I 0,10 I 0,20 I

(R>+R ;;) 2,0 I I 8 I I / I

T*EES (+R) 0,025 I ,1 I ,1 I ,1 I ,5 I

c"ass ;' (R>+R, >;0) 0,001 I 0,36 I 0,36 I 0,28 I 0,56 I

c"ass ;; (R>+R, >;0) 0,2 I 6,/ I 6,/ I 6,8 I ,6 I

(JR) 0,08 I 5,6 I 5,6 I 5,0 I ,5 I

c"ass ;' (R>+R,(>; or J;)0) 0,001 I 0,2 I 0,2 I 0,21 I 0,32 I

(+VS;:R) 0,06 I 6,8 I 6,8 I 6,0 I /,2 I

(R>+R, S;:2 a&d (>; or J;)0) 0,001 I 0,01 I 0,01 I 0,01 I 0,02 I

(+S;:R) 0,01 I 3,0 I 3,0 I 3,2 I 3, I(R>+R, S;:1 or S;:2) 0,003 I 0,3 I 0,3 I 0,21 I 0,2 I

T*E%S12.2 (+R) - ,/ I 2, I 1, I ,5 I

*"ass ;' (R>+R) @ 0,001 I 1,5 I 1,5 I 1,2 I 2,1 I

T*E%S10.2 (+R) - 2,1 I 0,85 I 0,5 I 1,6 I

*"ass ;' (R>+R) @ 0,001 I 0,23 I 0,15 I 0,0/2 I 0,26 I

T*E%S./5 (+R) - 0,36 I 0,05 I 0,02 I 0,0/6 I

*"ass ;' (R>+R) - 0,11 I 0,032 I 0,02 I 0,06 I

T*E%S. (+R) - 0,1 I 0,06/ I 0,028 I 0,13 I

*"ass ;' (R>+R) - 0,05 I 0,016 I 0,00/ I 0,033 I

T*E%S6. (+R) - 0,16 I 0,01 I @ 0,01 I(9) 0,026 I

*"ass ;' (R>+R) - 0,082 I 0,022 I 0,013 I 0,0 I

T*E%S5./ (+R) - 0,0/ I @ 0,01 I(9) @ 0,01 I(9) 0,011 I*"ass ;' (R>+R) - 0,01 I 0,001 I 0,001 I 0,003 I

T*E%S5.15 (+R) - 0,0 I @ 0,01 I(9) @ 0,01 I(9) @ 0,01 I(9)

*"ass ;' (R>+R) - 0,01 I @ 0,001 I @ 0,001 I 0,002 I

T*E%S.5 (+R) - 0,02/ I @ 0,01 I(9) - @ 0,01 I(9)

*"ass ;' (R>+R) - 0,005 I @ 0,001 I @ 0,001 I @ 0,001 I

T*E%S-;> (+R) - 0,03 I 0,013 I 0,002 I 0,01/ I

T*E%S (+VS;:JR) - 0,82 I 0,1 I 0,1 I 0,1 I

T*E%S (+VRR) - 0.0/5 I 0.00 I 0.00 I 0.011 IT*E%ES./5 (+R) @ 0,01 I"% 20 I 20 I 1 I 28 I

*"ass ;' (R>+R) 0,00 I 2,3 I 2,3 I 2 I 2,/ I

*"ass ;; (R>+R) 0,66 I 5 I 5 I , I 5, I

*o&i&ued

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%-#

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Ta=le # "continued%< Reference sensiti4it: perfor!ance

GSM *'& and GSM $&&

T:pe of Propaation conditions

1hannel Static TC'&"no 8>%

TC'&"ideal 8>%

RA+'&"no 8>%

>T#&&"no 8>%

T*E%ES. (+R) @ 0,01 I"% 16 I 16 I 1 I 22 I

*"ass ;' (R>+R) @ 0,01 I"% 1, I 1, I 1,1 I 1,8 I

*"ass ;; (R>+R) 0,66 I 5,3 I 5,3 I 5 I 6 I

T*E%ES6. (+R) @ 0,01 I"% /,2 I /,2 I 8 I 13 I

*"ass ;' (R>+R) @ 0,001 I 1,1 I 1,1 I 0,/3 I 1,5 I

*"ass ;; (R>+R) 0,66 I 5,8 I 5,8 I 5,5 I 6,6 I

T*E%ES5./ (+R) - 5, I 5. I ,/ I 8,6 I

*"ass ;' (R>+R) - 0,51 I 0,51 I 0,2 I 0,3 I

*"ass ;; (R>+R) 0,66 I 6 I 6 I 5, I 6,8 I

T*E%ES5.15 (+R) - 2,5 I 2,5 I 2,2 I I

*"ass ;' (R>+R) - 0,51 I 0,51 I 0,3 I 0,8 I

*"ass ;; (R>+R) 0,66 I 6,3 I 6,3 I 6 I ,2 I

T*E%ES.5 (+R) - 1,2 I 1,2 I 1,2 I 1,8 I

*"ass ;' (R>+R) - 0,1 I 0,1 I 0,1 I 0,26 I

*"ass ;; (R>+R) 0,66 I 6, I 6, I 6,2 I , I

T*E%ES-;> (+R) 0,013 I 0,2 I 0,6 I 0,53 I 0,/ I

T*E%ES (+VS;:JR) - 1,5 I 1,5 I 2,1 I 1,5 I

T*E%ES (+VRR) - 0,25 I 0,2 I 0,33 I 0,28 I

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%-+

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D1S # *&& 0 P1S # $&&


channel static TC'&"no 8>%

TC'&"ideal 8>%

RA#3&"no 8>%

>T#&&"no 8>%

%**EE (+R) 0,1 I ,2 I ,2 I 5, I 10, I

%**E (+R) 0,1 I 3,/ I 3,/ I 3, I , I

S:**E (+R) 0,1 I / I / I 8 I 13 IR%*E (+R) 0,5 I 13 I 13 I 12 I 13 I

S*E (+R) 1 I 1/ I 1/ I 15 I 25 I

T*E1, (>+R) 10-5 2,1 I 2 I 2 I 6,5 I

T*E/,6 K E,8 (>+R) 10-5 0, I 0, I 0,1 I 0, I

T*E,8 (>+R) - 10- 10- 10- 10-

T*E2, (>+R) - 10-5 10-5 10-5 10-5

T*EE2, (>+R) - 10- 10- 10- 10-

T*ES (+R) 0,1I 3I 3I 2I Ic"ass ;' (R>+R) 0,I 0,3I 0,3I 0,2I 0,5Ic"ass ;; (R>+R) 2 I 8 I 8 I I / I

T*E+S (+R) @ 0,1 I I I 3 I I

(R>+R ;') @ 0,1 I 0,12 I 0,12 I 0,10 I 0,2 I

(R>+R ;;) 2,0 I 8 I 8 I I / I

T*EES (+R) 0,025 I ,2 I ,2 I ,1 I 5,0 I

c"ass ;' (R>+R, >;0) 0,001 I 0,38 I 0,38 I 0,28 I 0,63 I

c"ass ;; (R>+R, >;0) 0,2 I 6,/ I 6,/ I 6,8 I ,8 I

(JR) 0,08 I 5, I 5, I 5,0 I 8,1 I

c"ass ;' (R>+R, (>; or J;)0) 0,001 I 0,26 I 0,26 I 0,21 I 0,35 I

(+VS;:R) 0,06 I ,0 I ,0 I 6,0 I /,/ I

(R>+R, S;:2 a&d (>; or J;)0) 0,001 I 0,01 I 0,01 I 0,01 I 0,02 I

(+S;:R) 0,01 I 3,0 I 3,0 I 3,2 I 3,/ I

(R>+R, S;:1 or S;:2) 0,003 I 0,33 I 0,33 I 0,21 I 0,5 I

T*E%S12.2 (+R) - 2 I 2,0 I 1,3 I ,6 I

*"ass ;' (R>+R) @ 0,001 I 1, I 1, I 1,2 I 2,1 I

T*E%S10.2 (+R) - 0,65 I 0,65 I 0,1 I 1,6 I

*"ass ;' (R>+R) @ 0,001 I 0,12 I 0,12 I 0,08 I 0,26 I

T*E%S./5 (+R) - 0,025 I 0,025 I 0,018 I 0,08/ I

*"ass ;' (R>+R) - 0,023 I 0,023 I 0,016 I 0,061 I

T*E%S. (+R) - 0,036 I 0,036 I 0,023 I 0,13 I

*"ass ;' (R>+R) - 0,013 I 0,013 I 0,00 I 0,031 I

T*E%S6. (+R) - @ 0,01 I"% @ 0,01 I"% @ 0,01 I"% 0,031 I

*"ass ;' (R>+R) - 0,01 I 0,01 I 0,01 I 0,01 I

T*E%S5./ (+R) - @ 0,01 I"% @ 0,01 I"% @ 0,01 I"% @ 0,01 I"%

*"ass ;' (R>+R) - @ 0,001 I @ 0,001 I @ 0,001 I 0,002 I

T*E%S5.15 (+R) - @ 0,01 I"% @ 0,01 I"% - @ 0,01 I"%*"ass ;' (R>+R) - @ 0,001 I @ 0,001 I @ 0,001 I 0,003 I

T*E%S.5 (+R) - @ 0,01 I"% - - @ 0,01 I"%

*"ass ;' (R>+R) - @ 0,001 I @ 0,001 I @ 0,001 I @ 0,001 I

T*E%S-;> (+R) - 0,011 I 0,011 I 0,006 I 0,021 I

T*E%S (+VS;:JR) - 0,1/ I 0,1/ I 0,1 I 0,25 I

T*E%S (+VRR) - 0.00 I 0.00 I 0.002 I 0.01 I

*o&i&ued

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%-3

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Ta=le # "concluded%< Reference sensiti4it: perfor!ance

D1S # *&& 0 P1S # $&&



TC'&"ideal 8>%

RA#3&"no 8>%

>T#&&"no 8>%

T*E%ES./5 (+R) 0,002 I 20 I 20 I 1 I 2 I

*"ass ;' (R>+R) 0,00 I 2,3 I 2,3 I 2 I 2,/ I

*"ass ;; (R>+R) 0,66 I 5 I 5 I ,8 I 5, I

T*E%ES. (+R) @ 0,01 I"% 16 I 16 I 13 I 22 I

*"ass ;' (R>+R) @0,001 I"% 1, I 1, I 1,1 I 1,/ I

*"ass ;; (R>+R) 0,66 I 5,3 I 5,3 I 5,1 I 6 I

T*E%ES6. (+R) @ 0,01 I"% /, I /, I ,5 I 13 I

*"ass ;' (R>+R) @ 0,001 I 1,1 I 1,1 I 0,/2 I 1,5 I

*"ass ;; (R>+R) 0,66 I 5,8 I 5,8 I 5,5 I 6,6 I

T*E%ES5./ (+R) - 5,/ I 5,/ I ,6 I 8,5 I

*"ass ;' (R>+R) - 0,52 I 0,52 I 0,3/ I 0,2 I

*"ass ;; (R>+R) 0,66 I 6,1 I 6,1 I 5,8 I 6,8 I

T*E%ES5.15 (+R) - 2,6 I 2,6 I 2 I 3, I

*"ass ;' (R>+R) - 0,53 I 0,53 I 0, I 0,6 I

*"ass ;; (R>+R) 0,66 I 6,3 I 6,3 I 6,1 I ,2 I

T*E%ES.5 (+R) - 1,2 I 1,2 I 1,1 I 1, I

*"ass ;' (R>+R) - 0,18 I 0,18 I 0,13 I 0,25 I

*"ass ;; (R>+R) 0,66 I 6,5 I 6,5 I 6,2 I ,3 I

T*E%ES-;> (+R) 0,013 I 0,6 I 0,6 I 0,53 I 0,/ I

T*E%ES (+VS;:JR) - 1,3 I 1,3 I 2,1 I 1,5 I

T*E%ES (+VRR) - 0,2 I 0,2 I 0,25 I 0,2 I

**E, %G*E, P*E, S%**E. T$e acua" #er4orma&ce o4S%**E, s$ou"d 'e 'eer.

;1)

JR J&re"ia'"e 4rame rae (4rames marDed i$ (>; or J;)1)+VS;:R +rased Va"id S;: 4rame rae (4rames marDed i$ (S;:0) or (S;:1) or ((>; or J;)1) i4 a a"idS;: 4rame as ra&smied)+VS;:JR+rased Va"id S;:OJP:%T+ 4rame rae associaed o a& ada#ie s#eec$ ra44ic c$a&&e"+S;:R +rased S;: 4rame rae (4rames marDed i$ S;:0 i4 a a"id S;: 4rame as ra&smied)+VRR +rased Va"id R%TS**E 4rame rae associaed o a& ada#ie s#eec$ ra44ic c$a&&e". T$is re"aes o$e erasure o4 $e R%TS**E messae due o $e 4ai"ure o deec $e R%TS**E ide&i4ier or due o a *R*4ai"ure.>+R >i error raeR>+R, >;0Residua" 'i error rae (de4i&ed as $e raio o4 $e &um'er o4 errors deeced oer $e 4ramesde4i&ed as ood o $e &um'er o4 ra&smied 'is i& $e ood 4rames).R>+R, (>; or J;)0 Residua" 'i error rae (de4i&ed as $e raio o4 $e &um'er o4 errors deeced oer $e4rames de4i&ed as re"ia'"e o $e &um'er o4 ra&smied 'is i& $e re"ia'"e 4rames).R>+R, S;:2 a&d (>; or J;)0 Residua" 'i error rae o4 $ose 'is i& c"ass ; $ic$ do &o 'e"o& o $eS;: codeord (de4i&ed as $e raio o4 $e &um'er o4 errors deeced oer $e 4rames $a are de4i&ed as a"idS;: 4rames o $e &um'er o4 ra&smied 'is i& $ese 4rames, u&der $e co&diio& $a a a"id S;: 4rame asse&).R>+R, S;:1 or S;:2 Residua" 'i error rae o4 $ose 'is i& c"ass ; $ic$ do &o 'e"o& o $e S;:codeord (de4i&ed as $e raio o4 $e &um'er o4 errors deeced oer $e 4rames $a are de4i&ed as a"id S;:4rames or as i&a"id S;: 4rames o $e &um'er o4 ra&smied 'is i& $ese 4rames, u&der $e co&diio& $a aa"id S;: 4rame as se&).T*E%xS-;> +R T$e 4rame error rae 4or $e i&-'a&d c$a&&e". Va"id 4or 'o$ Mode ;&dicaio& a&d Mode*omma&dMode Reues. =$e& esi& a"" 4our code ords s$a"" 'e used a& eua" amou& o4 ime a&d $emode o4 'o$ i&-'a&d c$a&&e"s (Mode ;&dicaio& a&d Mode *omma&dMode Reues) s$a"" 'e c$a&ed o a&ei$'ouri& mode &o more o4e& $a& eer7 22 s#eec$ 4rames (0 ms).

+R measureme&s 4or $e same c$a&&e" co&diio&.

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Ta=le #a< nput sinal le4el "for nor!al 2TS% at reference perfor!ance for GMSB !odulated sinals

GSM $&& and GSM *'&



TC'&"ideal 8>%

RA+'&"no 8>%

>T#&&"no 8>%

P:T*E*S-1 d>m -10

(x)

-10 -10

(x)

-10

(x)

-103P:T*E*S-2 d>m -10(x) -100 -101 -101 -//

P:T*E*S-3 d>m -10(x) -/8 -// -/8 -/6

P:T*E*S- d>m -101 -/0 -/0 9 9

JS*S-1 d>m -10(x) -101 -103 -103 -101

JS*S-2 o d>m -10(x) -103 -10(x) -10(x) -10

PR%*E11 'is1) d>m -10(x) -10 -10 -103 -103

PR%*E8 'is1) d>m -10(x) -10 -10 -103 -103

GSM $&&@ GSM *'& and M7M *'&


1hannel static TC'&"no 8>%

TC'&"ideal 8>%

RA+'&"no 8>%

>T#&&"no 8>%

P:T*EM*S-1 d>m -10(x) -102.5 -103 -103 -102

P:T*EM*S-2 d>m -10(x) -100,5 -101 -100,5 -100

P:T*EM*S-3 d>m -10(x) -/6,5 -/6,5 -/2,5 -/5,5

P:T*EM*S- d>m -101,5 -/1 -/1 9 9

JSM*S-1 o d>m -10(x) -102.5 -10 -10(x) -102,5

PR%*E11 'is2), 3) d>m -10(x) -10 -10 -103 -103

PR%*E8 'is1) d>m -10(x) -10 -10 -103 -103

D1S # *&& 0 P1S # $&&

T:pe of Propaation conditionschannel static TC'&

"no 8>%TC'&

"ideal 8>%RA#3&"no 8>%

>T#&&"no 8>%

P:T*E*S-1 d>m -10(x) -10 -10 -10(x) -103

P:T*E*S-2 d>m -10(x) -100 -100 -101 -//

P:T*E*S-3 d>m -10(x)

-/8 -/8 -/8 -/P:T*E*S- d>m -101 -88 -88 9 9

C"4A1";, d>m -10(x) -103 -103 -103 -101

JS*S-2 o d>m -10(x) -10(x) -10(x) -10(x) -103

PR%*E11 'is1) d>m -10(x) -10 -10 -103 -103

PR%*E8 'is1) d>m -10(x) -10 -10 -103 -103

D1S #*&&@ P1S #$&& and M7M #$&&



TC'&"ideal 8>%

RA#3&"no 8>%

>T#&&"no 8>%

P:T*EM*S-1 d>m -10(x) -102,5 -103 -103 -101,5

P:T*EM*S-2 d>m -10(x) -100,5 -101 -100,5 -//,5

P:T*EM*S-3 d>m -10(x) -/6,5 -/6,5 -/2,5 -/,5

P:T*EM*S- d>m -101.5 -/0,5 -/0,5 9 9

JSM*S-1 o d>m -10(x) -10 -10 -10(x) -102,5

PR%*E11 'is d>m -10(x) -10 -10 -103 -103

PR%*E8 'is d>m -10(x) -10 -10 -103 -103

**E, P%G*E, PP*E, PT**E:, P*E.

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Ta=le #=< nput sinal le4el "for nor!al 2TS% at reference perfor!ance for *,PSB !odulated sinals

GSM $&&@ GSM *'& and M7M *'&



TC'&"ideal 8>%

RA+'&"no 8>%

>T#&&"no 8>%

P:T*EM*S-5 d>m -101 -/6,5 -/ -/6 -/5

P:T*EM*S-6 d>m -//,5 -/ -/.5 -/1 -/1

P:T*EM*S- d>m -/6 -8/ -88.5 L899 L8699

P:T*EM*S-8 d>m -/3 -8 -8 9 -81,599

P:T*EM*S-/ d>m -/1,5 -80 -80 9 9

D1S # *&&@ P1S #$&& and M7M #$&&



TC'&"ideal 8>%

RA#3&"no 8>%

>T#&&"no 8>%

P:T*EM*S-5 d>m -101 -/5,5 -/ -/6 -/3

P:T*EM*S-6 d>m -//,5 -/ -/ -/1 L85,5

P:T*EM*S- d>m -/6 -8 -86,5 -899 9

P:T*EM*S-8 d>m -/3 L86,599 L86,599 9 9

P:T*EM*S-/ d>m -/1,5 -8399 -8399 9 9Per4orma&ce is s#eci4ied a 30I >!+R 4or $ose cases ide&i4ied i$ marD 99.

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Ta=le #e< nput sinal le4el "for MS% at reference perfor!ance for E1SD"GMSB and *,PSB !odulated sinals%

GSM *'& and GSM $&&


1hannel Static TC'&

"no 8>%

TC'&

"ideal 8>%

RA+'&

"no 8>%

>T#&&

"no 8>%+-%**E d>m -102(x) -// -100 -100 -/6

+-T*E28.8 T d>m -/.5 -/1.5 -/3 -/1.5 -/0

+-T*E 32 T d>m -/ -/1 -/2.5 -/1 -88.5

+-T*E28.8 T d>m -/8 -/3.5 -/.5 -/.5 -/2.5

+-T*E3.2 T d>m -/5 -8/ -/0 -8 -8.5

D1S # *&& 0 P1S #$&&



TC'&"ideal 8>%

RA#3&"no 8>%

>T#&&"no 8>%

+-%**E d>m -102(x) -100 -100 -100 -/6

+-T*E28.8 T d>m -/.5 -/2.5 -/3 -/0 -8.5

+-T*E 32 T d>m -/ -/2 -/2 -8/ -85

+-T*E28.8 T d>m -/8 -/ -/.5 -/3.5 -/0.5

+-T*E3.2 T d>m -/5 -8/.5 -8/.5 -86.5 9

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Ta=le +< Reference interference perfor!ance

GSM *'& and GSM $&&


channel TC3"no 8>%

TC3"ideal 8>%

TC'&"no 8>%

TC'&"ideal 8>%

RA+'&"no 8>%

%**EE (+R) 22 I 6, I 6, I 6, I 5, I%**E (+R) 22 I 3, I /,5 I 3, I 3,5 I

S:**E (+R) 22 I / I 13 I / I 8 I

R%*E (+R) 15 I 15 I 16 I 16 I 13 I

S*E (+R) 1 I 1 I 1 I 1 I 18 I

T*E1, (>+R) 10 I 3 I ,5 I 3 I 3 I

T*E/,6 K E,8 (>+R) 8 I 0,3 I 0,8 I 0,3 I 0,2 I

T*E,8 (>+R) 3 I 10- 10- 10- 10-

T*E2, (>+R) 3 I 10-5 10-

10-5 10-5

T*EE2, (>+R) I 10- 2 10- 10- 10-

T*ES (+R) 21I 3I 6I 3I 3Ic"ass ;' (R>+R) 2I 0,2I 0,I 0,2I 0,2Ic"ass ;; (R>+R) I 8 I 8 I 8 I 8 I

T*E+S (+R) 23 I 3 I / I 3 I I

(R>+R ;') 0,20 I 0,10 I 0,20 I 0,10 I 0,13 I

(R>+R ;;) 3 I 8 I I 8 I 8 I

T*EES (+R) 1/,1 I 5,0 I 5,0 I 5,0 I , I

c"ass ;' (R>+R, >;0) 0,52 I 0,2 I 0,2/ I 0,2/ I 0,21 I

c"ass ;; (R>+R, >;0) 2,8 I ,1 I ,1 I ,1 I ,0 I

(JR) 20, I 6,2 I 6,1 I 6,1 I 5,6 I

c"ass ;' (R>+R,(>; or J;)0) 0,2/ I 0,20 I 0,21 I 0,21 I 0,1 I

(+VS;:R) 21,/ I ,1 I ,0 I ,0 I 6,3 I

(R>+R, S;:2 a&d (>; or J;)0) 0,02 I 0,01 I 0,01 I 0,01 I 0,01 I

(+S;:R) 1,1 I 3,6 I 3,6 I 3,6 I 3, I

(R>+R, S;:1 or S;:2) 0,5 I 0,2 I 0,26 I 0,26 I 0,20 I

T*E%S12.2 (+R) 22 I 3,5 I 6 I 3,5 I 2,5 I

*"ass ;' (R>+R) 0,/ I 1, I 1, I 1, I 1,5 I

T*E%S10.2 (+R) 18 I 1, I 2, I 1, I 0,/2 I

*"ass ;' (R>+R) 0,53 I 0,22 I 0,3 I 0,21 I 0,16 I

T*E%S./5 (+R) 13 I 0,13 I 0,51 I 0,12 I 0,03 I

*"ass ;' (R>+R) 0,66 I 0,01 I 0,15 I 0,065 I 0,0 I

(+RQ-3d>) 26 I 2, I 5,3 I 2, I 1,8 I

*"ass ;'(R>+RQ-3d>)

1,2 I 0,/ I 1 I 0,8 I 0,6 I

T*E%S. (+R) 1 I 0,16 I 0,56 I 0,16 I 0,0/ I

*"ass ;' (R>+R) 0,3 I 0,032 I 0,02 I 0,032 I 0,018 I

(+RQ-3d>) 26 I 3 I 5, I 3,1 I 2 I

*"ass ;'(R>+RQ-3d>)

0,/ I 0,38 I 0,52 I 0,38 I 0,28 I

T*E%S6. (+R) 11 I 0,05 I 0,21 I 0,01 I 0,021 I

*"ass ;' (R>+R) 0,5 I 0,0 I 0,11 I 0,02 I 0,028 I

(+RQ-3d>) 23 I 1,2 I 2,/ I 1,2 I 0,5 I

*"ass ;'(R>+RQ-3d>)

1, I 0,6 I 0,86 I 0,6 I 0, I

T*E%S5./ (+R) 10 I 0,018 I 0,12 I 0,018 I @ 0,01 I"%

*"ass ;' (R>+R) 0,38 I 0,005 I 0,022 I 0,005 I 0,003 I

(+RQ-3d>) 21 I 0,1 I 2 I 0, I 0, I

*"ass ;'

(R>+RQ-3d>)

0, I 0,11 I 0,23 I 0,12 I 0,0/ I

(co&i&ued)

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%-$

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Ta=le + "continued%< Reference interference perfor!ance

GSM *'& and GSM $&&


1hannel TC3"no 8>%

TC3"ideal 8>%

TC'&"no 8>%

TC'&"ideal 8>%

RA+'&"no 8>%

T*E%S5.15 (+R) /,2 I 0,011 I 0,081 I 0,011 I @ 0,01 I"%

*"ass ;' (R>+R) 0, I 0,00 I 0,01/ I 0,003 I 0,002 I

(+RQ-3d>) 1/ I 0,5 I 1, I 0, I 0,25 I

*"ass ;'(R>+RQ-3d>)

0,85 I 0,1 I 0,22 I 0,11 I 0,06/ I

T*E%S.5 (+R) ,/ I @ 0,01 I"% 0,036 I @ 0,01 I"% @ 0,01 I"%

*"ass ;' (R>+R) 0,32 I 0,001 I 0,006 I 0,001 I @ 0,001 I

(+RQ-3d>) 1 I 0,21 I 0,82 I 0,23 I 0,11 I

*"ass ;'(R>+RQ-3d>)

0,62 I 0,036 I 0,11 I 0,033 I 0,01/ I

T*E%S-;> (+R) 1,5 I 0,01/ I 0,025 I 0,018 I 0,00/ I

(+RQ-3d>) 3,5 I 0,15 I 0,22 I 0,16 I 0,1 I

T*E%S (+VS;:JR) 11 I 0,3 I 1, I 0,3/ I 0,6 I

(+VS;:JRQ-3d>) 21 I 3, I 6,3 I 3, I 3,1 IT*E%S (+VRR) 10 I 0.026 I 0.15 I 0.02 I 0.01 I

(+VRR Q -3d>) 21 I 0. I 2.08 I 0. I 0.8 I

T*E%ES./5 (+R) 2 I 23 I 22 I 22 I 21 I

*"ass ;' (R>+R) 0,8 I 2,2 I 2,3 I 2,3 I 2,1 I

*"ass ;; (R>+R) 1, I 5,1 I 5,3 I 5,3 I 5 I

(+RQ3d>) 1 I I 6, I 6. I I

*"ass ;'(R>+RQ3d>)

0,8 I 1 I 1 I 1 I 1 I

*"ass ;;(R>+RQ3d>)

1 I 3,2 I 3,2 I 3,2 I 3,2 I

T*E%ES. (+R) 25 I 1/ I 18 I 18 I 1 I

*"ass ;' (R>+R) 0,68 I 1, I 1, I 1, I 1,3 I

*"ass ;; (R>+R) 1,/ I 5, I 5,6 I 5,6 I 5, I

(+RQ3d>) 13 I 5,2 I ,8 I ,8 I 5,3 I

*"ass ;'(R>+RQ3d>)

0,38 I 0,52 I 0,51 I 0,51 I 0,5 I

*"ass ;;(R>+RQ3d>)

1,2 I 3,3 I 3,3 I 3,3 I 3, I

T*E%ES6. (+R) 23 I 12 I 11 I 11 I 11 I

*"ass ;' (R>+R) 0,1 I 1,2 I 1,2 I 1,2 I 1,1 I

*"ass ;; (R>+R) 2,3 I 6 I 6,2 I 6,2 I 6 I

(+RQ3d>) 11 I 2,6 I 2,3 I 2,3 I 2,/ I

*"ass ;'(R>+RQ3d>)

0,3/ I 0,3/ I 0,3/ I 0,3/ I 0, I

*"ass ;;

(R>+RQ3d>)

1, I 3,5 I 3,6 I 3,6 I 3,6 I

T*E%ES5./ (+R) 21 I ,/ I ,1 I ,1 I I

*"ass ;' (R>+R) 0,55 I 0,58 I 0,5 I 0,5 I 0,51 I

*"ass ;; (R>+R) 2,6 I 6, I 6,5 I 6,5 I 6,3 I

T*E%ES5.15 (+R) 1 I 3,/ I 3,3 I 3,3 I 3,5 I

*"ass ;' (R>+R) 0,8 I 0,65 I 0,6 I 0,6 I 0,5 I

*"ass ;; (R>+R) 3,1 I 6,8 I 6,/ I 6,/ I 6, I

T*E%ES.5 (+R) 15 I 2,2 I 1,8 I 1,8 I 2,1 I

*"ass ;' (R>+R) 0,6 I 0,25 I 0,22 I 0,22 I 0,22 I

*"ass ;; (R>+R) 3,6 I 6,/ I I I 6,/ I

T*E%ES-;> (+R) 2, I 0,6 I 0, I 0, I 0,63 I

(+RQ-3d>) 6 I 2,2 I 2,2 I 2,2 I 2 I

T*E%ES (+VS;:JR) 15 I 3,2 I 2,5 I 2,5 I 3,8 I(+VS;:JRQ-3d>) 28 I 15 I 15 I 15 I 15 I

(co&i&ued)

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%'&

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D1S # *&& 0 P1S # $&&


channel TC#@'"no 8>%

TC#@'"ideal 8>%

TC'&"no 8>%

TC'&"ideal 8>%

RA#3&"no 8>%

%**EE (+R) 22 I 6, I 6,/ I 6,/ I 5, I%**E (+R) 22 I 3, I 3, I 3, I 3,5 I

S:**E (+R) 22 I / I / I / I 8 I

R%*E (+R) 15 I 15 I 16 I 16 I 13 I

S*E (+R) 1 I 1 I 1/ I 1/ I 18 I

T*E1, (>+R) 10 I 3 I I 3,1 I 3 I

T*E/,6 K E,8 (>+R) 8 I 0,3 I 0,8 I 0,3 I 0,2 I

T*E,8 (>+R) 3 I 10- 10- 10- 10-

T*E2, (>+R) 3 I 10-5 10-5 10-5 10-5

T*EE2, (>+R) I 10- 10- 10- 10-

T*ES (+R) 21I 3I 3I 3I 3Ic"ass ;' (R>+R)

2I 0,2I 0,25I 0,25I 0,2Ic"ass ;; (R>+R) I 8 I 8,1 I 8,1 I 8 IT*E+S (+R) 23 I 3 I 3 I 3 I I

(R>+R ;') 0,20 I 0,10 I 0,10 I 0,10 I 0,13 I

(R>+R ;;) 3 I 8 I 8 I 8 I 8 I

T*EES (+R) 1/,1 I 5,0 I 5,0 I 5,0 I , I

c"ass ;' (R>+R, >;0) 0,52 I 0,2 I 0,2/ I 0,2/ I 0,21 I

c"ass ;; (R>+R, >;0) 2,8 I ,1 I ,2 I ,2 I ,0 I

(JR) 20, I 6,2 I 6,1 I 6,1 I 5,6 I

c"ass ;' (R>+R, (>; or J;)0) 0,2/ I 0,20 I 0,21 I 0,21 I 0,1 I

(+VS;:R) 21,/ I ,1 I ,0 I ,0 I 6,3 I

(R>+R, S;:2 a&d (>; or J;)0) 0,02 I 0,01 I 0,01 I 0,01 I 0,01 I

(+S;:R) 1,1 I 3,6 I 3,6 I 3,6 I 3, I(R>+R, S;:1 or S;:2) 0,5 I 0,2 I 0,26 I 0,26 I 0,20 I

T*E%S12.2 (+R) 22 I 3,5 I 2, I 2, I 1,8 I*"ass ;' (R>+R) 0,/2 I 1, I 1,6 I 1,6 I 1, I

T*E%S10.2 (+R) 18 I 1, I 0,/8 I 0,/8 I 0,56 I*"ass ;' (R>+R) 0,5 I 0,21 I 0,1 I 0,1 I 0,12 I

T*E%S./5 (+R) 13 I 0,13 I 0,0 I 0,0 I 0,02/ I*"ass ;' (R>+R) 0,6 I 0,068 I 0,02 I 0,02 I 0,03 I

(+RQ-3d>) 25 I 2, I 2 I 2 I 1,2 I*"ass ;'

(R>+RQ-3d>)1,2 I 0,8 I 0,68 I 0,68 I 0,8 I

T*E%S. (+R) 1 I 0,1 I 0,083 I 0,083 I 0,0 I*"ass ;' (R>+R) 0,3 I 0,032 I 0,02 I 0,02 I 0,012 I

(+RQ-3d>) 26 I 3 I 2,3 I 2,3 I 1, I

*"ass ;'(R>+RQ-3d>) 0,8 I 0,38 I 0,32 I 0,32 I 0,22 I

T*E%S6. (+R) 11 I 0,051 I 0,025 I 0,025 I @ 0,01 I"%*"ass ;' (R>+R) 0,6 I 0,0 I 0,028 I 0,028 I 0,016 I

(+RQ-3d>) 22 I 1,2 I 0,82 I 0,82 I 0,1 I*"ass ;'

(R>+RQ-3d>)1, I 0,61 I 0,51 I 0,51 I 0,3 I

T*E%S5./ (+R) 10 I 0,018 I @ 0,01 I"% @ 0,01 I"% @ 0,01 I"%*"ass ;' (R>+R) 0,38 I 0,005 I 0,002 I 0,002 I 0,001 I

(+RQ-3d>) 21 I 0,68 I 0,1 I 0,1 I 0,2 I*"ass ;'

(R>+RQ-3d>)0,2 I 0,12 I 0,0/ I 0,0/ I 0,06 I

(co&i&ued)

3GPP

Release #$$$ 3GPP TS &'(&' )*(##(& "+&,&*%'#

8/11/2019 0505-8b0 (1)

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D1S # *&& 0 P1S # $&&


channel TC#@'"no 8>%

TC#@'"ideal 8>%

TC'&"no 8>%

TC'&"ideal 8>%

RA#3&"no 8>%

T*E%S5.15 (+R) /,2 I 0,013 I @ 0,01 I"%

@ 0,01 I"%

@ 0,01 I"%

*"ass ;' (R>+R) 0,5 I 0,00 I 0,001 I 0,001 I @ 0,001 I(+RQ-3d>) 1/ I 0,5 I 0,26 I 0,26 I 0,13 I

*"ass ;'(R>+RQ-3d>)

0,8 I 0,11 I 0,02 I 0,02 I 0,038 I

T*E%S.5 (+R) ,/ I @ 0,01 I"% @ 0,01 I"% @ 0,01 I"% -*"ass ;' (R>+R) 0,31 I @ 0,001 I @ 0,001 I @ 0,001 I @ 0,001 I

(+RQ-3d>) 1 I 0,2 I 0,1 I 0,1 I 0,051 I*"ass ;'

(R>+RQ-3d>)0,61 I 0,033 I 0,021 I 0,021 I 0,00/ I

T*E%S-;> (+R) 1,5 I 0,016 I 0,013 I 0,013 I 0,008 I(+RQ-3d>) 3,5 I 0,16 I 0,12 I 0,12 I 0,1 I

T*E%S (+VS;:JR) 11 I 0,1 I 0,3 I 0,3 I 0,36 I(+VS;:JRQ-3d>) 21 I 3,5 I 2,8 I 2,8 I 2,8 I

T*E%S (+VRR) 10 I 0.028 I 0.022 I 0.022 I 0.005 I(+VRR Q -3d>) 21 0.3 I 0.8 I 0.8 I 0.28 I

T*E%ES./5 (+R) 2 I 23 I 23 I 23 I 20 I*"ass ;' (R>+R) 0,85 I 2,2 I 2,3 I 2,3 I 2,1 I*"ass ;; (R>+R) 1, I 5,1 I 5,1 I 5,1 I 5,1 I

(+RQ3d>) 1 I I 6, I 6, I 6,5 I*"ass ;'

(R>+RQ3d>)0,/ I 1 I 1 I 1 I 0,/8 I

*"ass ;;(R>+RQ3d>)

1 I 3,1 I 3,1 I 3,1 I 3,1 I

T*E%ES. (+R) 26 I 18 I 18 I 18 I 16 I*"ass ;' (R>+R) 0,6/ I 1, I 1, I 1, I 1,3 I*"ass ;; (R>+R) 1,/ I 5, I 5,5 I 5,5 I 5, I

(+RQ3d>) 13 I 5,2 I ,/ I ,/ I ,8 I*"ass ;'

(R>+RQ3d>)

0,3/ I 0,51 I 0,51 I 0,51 I 0, I

*"ass ;;(R>+RQ3d>)

1,2 I 3,3 I 3,3 I 3,3 I 3,3 I

T*E%ES6. (+R) 23 I 12 I 12 I 12 I /,/ I*"ass ;' (R>+R) 0,1 I 1,2 I 1,2 I 1,2 I 1 I*"ass ;; (R>+R) 2,3 I 6 I 6 I 6 I 6 I

(+RQ3d>) 11 I 2, I 2,5 I 2,5 I 2,5 I*"ass ;'

(R>+RQ3d>)0,3/ I 0,3/ I 0,38 I 0,38 I 0,3 I

*"ass ;;(R>+RQ3d>)

1, I 3,5 I 3,5 I 3,5 I 3,5 I

T*E%ES5./ (+R) 21 I ,8 I , I , I 6, I*"ass ;' (R>+R) 0,55 I 0,5/ I 0,6 I 0,6 I 0,8 I*"ass ;; (R>+R) 2,6 I 6,3 I 6, I 6, I 6,3 I

T*E%ES5.15 (+R) 1 I 3,8 I 3,8 I 3,8 I 3,1 I*"ass ;' (R>+R) 0,

0505-8b0 (1)

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