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3GPP TS 25.101 V4.10.0 (2003-12)Technical Specification

3rd Generation Partnership Project;Technical Specification Group Radio Access Networks;

User Equipent !UE" radio transission and reception !#$$"!Release %"

The present document has been developed within the 3rd Generation Partnership Project (3GPP TM) 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 3GPP only. The Orani!ational Partners accept no liability for any use of this"pecification."pecifications and reports for implementation of the 3GPP TM system should be obtained via the 3GPP Orani!ational Partners$ Publications Offices.

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%eywordsUMTS, radio

3GPP

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3GPP support office address650 Route des Luio!es - So"#ia $%ti"o!is

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&nternet#tt"+.3"".or

Copyright Notification

'o part may be reproduced ecept as authori!ed by written permission.The copyriht and the foreoin restriction etend to reproduction in

all media.

*++,- 3GPP Orani!ational Partners (/&0- 11"- 2T"&- T- TT- TT1).ll rihts reserved.

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o%te%ts

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

"cope......................................................................................................................................................* /eferences..............................................................................................................................................

3 5efinitions- symbols and abbreviations..................................................................................................3. 5efinitions.................................................................................................................................................................3.* bbreviations............................................................................................................................................................

, General.................................................................................................................................................,. /elationship between Minimum /e6uirements and Test /e6uirements.................................................................,.* Power 1lasses..........................................................................................................................................................,.3 1ontrol and monitorin functions...........................................................................................................................,.3. Minimum re6uirement.......................................................................................................................................

7 4re6uency bands and channel arranement...........................................................................................7. General....................................................................................................................................................................7.* 4re6uency bands......................................................................................................................................................7.3 T89/8 fre6uency separation..................................................................................................................................7., 1hannel arranement...............................................................................................................................................7.,. 1hannel spacin.................................................................................................................................................7.,.* 1hannel raster....................................................................................................................................................7.,.3 1hannel number.................................................................................................................................................7.,., :/41'...........................................................................................................................................................

; Transmitter characteristics....................................................................................................................;. General....................................................................................................................................................................;.* Transmit power........................................................................................................................................................;.*. :2 maimum output power..............................................................................................................................;.3 4re6uency 2rror.......................................................................................................................................................;., Output power dynamics...........................................................................................................................................;.,. Open loop power control...................................................................................................................................;.,.. Minimum re6uirement.......................................................................................................................................;.,.* &nner loop power control in the uplin#..............................................................................................................;.,.*. Power control steps............................................................................................................................................;.,.*.. Minimum re6uirement.................................................................................................................................;.,.3 Minimum output power.....................................................................................................................................;.,.3. Minimum re6uirement.......................................................................................................................................;.,., Out

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;.;.3. Minimum re6uirement.......................................................................................................................................;.? Transmit intermodulation........................................................................................................................................;.?. Minimum re6uirement.......................................................................................................................................;.@ Transmit modulation...............................................................................................................................................;.@. Transmit pulse shape filter.................................................................................................................................;.@.* 2rror Aector Manitude.....................................................................................................................................

;.@.*. Minimum re6uirement.......................................................................................................................................;[email protected] Pea# code domain error.....................................................................................................................................;[email protected]. Minimum re6uirement.......................................................................................................................................

? /eceiver characteristics........................................................................................................................?. General....................................................................................................................................................................?.* 5iversity characteristics..........................................................................................................................................?.3 /eference sensitivity level.......................................................................................................................................?.3. Minimum re6uirement.......................................................................................................................................?., Maimum input level..............................................................................................................................................?.,. Minimum re6uirement.......................................................................................................................................?.7 djacent 1hannel "electivity (1").......................................................................................................................?.7. Minimum re6uirement.......................................................................................................................................?.; 0loc#in characteristics..........................................................................................................................................?.;. Minimum re6uirement.......................................................................................................................................?.? "purious response....................................................................................................................................................?.?. Minimum re6uirement.......................................................................................................................................?.@ &ntermodulation characteristics...............................................................................................................................?.@. Minimum re6uirement.......................................................................................................................................?.B "purious emissions..................................................................................................................................................?.B. Minimum re6uirement.......................................................................................................................................

@ Performance re6uirement......................................................................................................................@. General....................................................................................................................................................................@.* 5emodulation in static propaation conditions.......................................................................................................@.*. (void).................................................................................................................................................................@.*.* 5emodulation of 4orward ccess 1hannel (41C).........................................................................................

@.*.3 5emodulation of 5edicated 1hannel (51C)....................................................................................................@.*.3. Minimum re6uirement.......................................................................................................................................@.3 5emodulation of 51C in multi2/ taret......................................................................................@.@.. Minimum re6uirements.....................................................................................................................................@.@.* Power control in the downlin#- initial converence..........................................................................................@.@.*. Minimum re6uirements.....................................................................................................................................@[email protected] Power control in downlin#- wind up effects......................................................................................................

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@[email protected]. Minimum re6uirements.....................................................................................................................................@.B 5ownlin# compressed mode...................................................................................................................................@.B. "inle lin# performance.....................................................................................................................................@.B.. Minimum re6uirements.....................................................................................................................................@.+ 0lind transport format detection........................................................................................................................@.+. Minimum re6uirement.......................................................................................................................................

@. 5etection of 0roadcast channel (01C).............................................................................................................@.. Minimum re6uirement.......................................................................................................................................@.* 5emodulation of Pain 1hannel (P1C)..........................................................................................................@.*. Minimum re6uirement.......................................................................................................................................@.3 5etection of c6uisition &ndicator (&).............................................................................................................@.3. Minimum re6uirement.......................................................................................................................................

Annex A (normative): Measurement channels.................................................................................

. General.................................................................................................................................................

.* :> reference measurement channel.......................................................................................................*. :> reference measurement channel (*.* #bps)................................................................................................*.* :> reference measurement channel (;, #bps)..................................................................................................

.*.3 :> reference measurement channel (,, #bps).................................................................................................*., :> reference measurement channel (3@, #bps).................................................................................................*.7 :> reference measurement channel (?;@ #bps)................................................................................................

.3 5> reference measurement channel.......................................................................................................3. 5> reference measurement channel (*.* #bps)................................................................................................3.* 5> reference measurement channel (;, #bps)...................................................................................................3.3 5> reference measurement channel (,, #bps).................................................................................................3., 5> reference measurement channel (3@, #bps)................................................................................................

., 5> reference measurement channel for 0T45 performance re6uirements...........................................

.7 5> reference compressed mode parameters.........................................................................................

.; 5> reference parameters for P1C tests.................................................................................................Annex B (normative): Propagation conditions.................................................................................

0. General.................................................................................................................................................

0.* Propaation 1onditions........................................................................................................................0.*. "tatic propaation condition..............................................................................................................................0.*.* Multi

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5.*.3 Aibration............................................................................................................................................................

Annex ! (in"ormative): #! capa$ilities (%DD)...................................................................................

Annex % (in"ormative): Change histor..............................................................................................

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'oreordThis Technical "pecification (T") has been produced by the 3 rd Generation Partnership Project (3GPP).

The contents of the present document are subject to continuin wor# within the T"G and may chane followin formalT"G approval. "hould the T"G modify the contents of the present document- it will be re

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1 So"eThe present document establishes the minimum /4 characteristics of the 455 mode of :T/ for the :ser 26uipment(:2).

2 Reere%esThe followin documents contain provisions which- throuh reference in this tet- constitute provisions of the presentdocument.

• /eferences are either specific (identified by date of publication- edition number- version number- etc.) ornon

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ominal Maximum 'utput Power: This is the nominal power defined by the :2 power class.

C "iltered mean power: The mean power as measured throuh a root raised cosine filter with rollea#ae power /atio1" djacent 1hannel "electivity&1C c6uisition &ndication 1hannel02/ 0it 2rror /atio0>2/ 0loc# 2rror /atio

1D 1ontinuous Dave (un 5own >in# (forward lin#)5T8 5iscontinuous Transmission5P11C 5edicated Physical 1ontrol 1hannel5P1C 5edicated Physical 1hannel

c2 J 5P1C verae enery per P' chip for 5P1C.

or

c

&

2 J 5P1CThe ratio of the transmit enery per P' chip of the 5P1C to the total transmit power spectral

density at the 'ode 0 antenna connector.5P51C 5edicated Physical 5ata 1hannel2&/P 2ffective &sotropic /adiated Power

c2 verae enery per P' chip.

or

c

&

2The ratio of the averae transmit enery per P' chip for different fields or physical channels to the

total transmit power spectral density.41C 4orward ccess 1hannel455 4re6uency 5ivision 5uple45/ 4alse transmit format 5etection /atio. false Transport 4ormat detection occurs when the

receiver detects a different T4 to that which was transmitted- and the decoded transport bloc#(s)for this incorrect T4 passes the 1/1 chec#(s).

4uw 4re6uency of unwanted sinal. This is specified in brac#et in terms of an absolute fre6uency(s) ora fre6uency offset from the assined channel fre6uency.

&nformation 5ata /ate

/ate of the user information- which must be transmitted over the ir &nterface. 4or eample-output rate of the voice codec.

o& The total received power spectral density- includin sinal and interference- as measured at the :2antenna connector.

oc& The power spectral density (interated in a noise bandwidth e6ual to the chip rate and normali!edto the chip rate)of a band limited white noise source (simulatin interference from cells- which arenot defined in a test procedure) as measured at the :2 antenna connector.

or & The total transmit power spectral density (interated in a bandwidth of (N) times the chip rateand normali!ed to the chip rate) of the downlin# sinal at the 'ode 0 antenna connector.

or & The received power spectral density (interated in a bandwidth of (N) times the chip rate and

normali!ed to the chip rate) of the downlin# sinal as measured at the :2 antenna connector.M2/ Messae 2rror /atio 'ode 0 loical node responsible for radio transmission = reception in one or more cells to=from the :ser

26uipment. Terminates the &ub interface towards the /'1

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O1'" Orthoonal 1hannel 'oise "imulator- a mechanism used to simulate the users or control sinals onthe other orthoonal channels of a downlin# lin#.

c2 J O1'" verae enery per P' chip for the O1'".

or

c

&

2 J O1'"The ratio of the averae transmit enery per P' chip for the O1'" to the total transmit power

spectral density.

P

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4.3.1 Mi%iu re8uiree%t

The power of the :2- as measured with a thermal detector- shall not eceed

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5.4.3 #a%%e! %u&er

The carrier fre6uency is desinated by the :T/ bsolute /adio 4re6uency 1hannel 'umber (:/41'). The valuesare defined as followsE

Ta1le '()2 UAR#6N definition

U"!i%> u ? 5 @ 'u"!i%> 0.0 M;< ≤ 'u"!i%> ≤ 32/6.6 M;<#ere 'u"!i%> is t#e u"!i%> re8ue% i% M;<

o%!i%> d ? 5 @ 'do%!i%> 0.0 M;< ≤ 'do%!i%> ≤ 32/6.6 M;<#ere 'do%!i%> is t#e do%!i%> re8ue% i% M;<

Ta1le '()12 UAR#6N definition !5and 17 re8ion &7 Additional 6hannels"

U"!i%> u ? 5 @ (('u"!i%> − 100># d ? 5 @ (('do%!i%> − 100>#

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6.2 Tra%sit "oer

6.2.1 U* aiu out"ut "oer

The followin Power 1lasses define the nominal maimum output power. The nominal power defined is the transmit

power of the :2- i.e. the power in a bandwidth of at least (N) times the chip rate of the radio access mode. The periodof measurement shall be at least one timeslot..

Ta1le -()2 UE Power 6lasses

Power 6lass Noinal a:iuoutput power

Tolerance

1 33 dA 1-3 dA2 2/ dA 1-3 dA3 24 dA 1-3 dA4 21 dA B 2 dA

'OT2E The tolerance allowed for the nominal maimum output power applies even for the multi

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6.4.2 D%%er !oo" "oer o%tro! i% t#e u"!i%>

&nner loop power control in the :plin# is the ability of the :2 transmitter to adjust its output power in accordance withone or more TP1 commands received in the downlin#.

6.4.2.1 Poer o%tro! ste"s

The power control step is the chane in the :2 transmitter output power in response to a sinle TP1 command-TP1Jcmd- derived at the :2.

6.4.2.1.1 Mi%iu re8uiree%t

The :2 transmitter shall have the capability of chanin the output power with a step si!e of - * and 3 d0 accordin tothe value of ∆TP1 or ∆/Power Upper >ower Upper >ower Upper

1 0.5 dA 1.5 dA 1 dA 3 dA 1.5 dA 4.5 dA0 -0.5 dA 0.5 dA -0.5 dA 0.5 dA -0.5 dA 0.5 dA

-1 -0.5 dA -1.5 dA -1 dA -3 dA -1.5 dA -4.5 dA

Ta1le -('2 Transitter a88re8ate power control ran8e

TP6< cd8roup

Transitter power control ran8e after )* equalTP6< cd 8roups

Transitter powercontrol ran8e after .equal TP6< cd 8roups

) d5 step si=e & d5 step si=e 3 d5 step si=e

>ower Upper >ower Upper >ower Upper

1 = dA 12 dA 16 dA 24 dA 16 dA 26 dA0 -1 dA 1 dA -1 dA 1 dA -1 dA 1 dA-1 -= dA -12 dA -16 dA -24 dA -16 dA -26 dA

0,0,0,0,1 6 dA 14 dA $ $ $ $0,0,0,0,-1 -6 dA -14 dA $ $ $ $

The :2 shall meet the above re6uirements for inner loop power control over the power rane bounded by the Minimumoutput power as defined in subclause ;.,.3- and the Maimum output power supported by the :2 (i.e. the actual poweras would be measured assumin no measurement error). This power shall be in the rane specified for the power classof the :2 in subclause ;.*..

6.4.3 Mi%iu out"ut "oer

The minimum controlled output power of the :2 is when the power is set to a minimum value.

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6.4.3.1 Mi%iu re8uiree%t

The minimum output power is defined as the mean power in one time slot. The minimum output power shall be lessthan 97+ d0m.

6.4.4 Cut-o-s%#ro%iayer - as specified in T" *7.*,.The thresholds Rout and Rin specify at what 5P11C 6uality levels the :2 shall shut its power off and when it shall turnits power on respectively. The thresholds are not defined eplicitly- but are defined by the conditions under which the:2 shall shut its transmitter off and turn it on- as stated in this subclause.

The 5P11C 6uality shall be monitored in the :2 and compared to the thresholds Rout and Rin for the purpose ofmonitorin synchroni!ation. The threshold Rout should correspond to a level of 5P11C 6uality where no reliabledetection of the TP1 commands transmitted on the downlin# 5P11C can be made. This can be at a TP1 commanderror ratio level of e.. 3+S. The threshold R in should correspond to a level of 5P11C 6uality where detection of theTP1 commands transmitted on the downlin# 5P11C is sinificantly more reliable than at Rout. This can be at a TP1command error ratio level of e.. *+S.


Dhen the :2 estimates the 5P11C 6uality over the last ;+ ms period to be worse than a threshold R out- the :2 shallshut its transmitter off within ,+ ms. The :2 shall not turn its transmitter on aain until the 5P11C 6uality eceeds anacceptable level Rin. Dhen the :2 estimates the 5P11C 6uality over the last ;+ ms period to be better than athreshold Rin- the :2 shall aain turn its transmitter on within ,+ ms.

The :2 transmitter shall be considered offU if the transmitted power is below the level defined in subclause ;.7.(Transmit off power). Otherwise the transmitter shall be considered as onU.

6.4.4.2 Test ase

This subclause specifies a test case- which provides additional information for how the minimum re6uirement should beinterpreted for the purpose of conformance testin.

The 6uality levels at the thresholds Rout and Rin correspond to different sinal levels dependin on the downlin#conditions 51C parameters. 4or the conditions in Table ;.;- a sinal with the 6uality at the level Rout can be enerated

by a 5P11CJ2c=&or ratio of 9*7 d0- and a sinal with Rin by a 5P11CJ2c=&or ratio of 9* d0. The 5> referencemeasurement channel (*.*) #bps specified in subclause .3. and with static propaation conditions. The downlin#

physical channels- other than those specified in Table ;.;- are as specified in Table 1.3 of nne 1.

4iure ;. shows an eample scenario where the 5P11CJ2c=&or ratio varies from a level where the 5P1C isdemodulated under normal conditions- down to a level below Rout where the :2 shall shut its power off and then bac#up to a level above Rin where the :2 shall turn the power bac# on.

Ta1le -(-2 $6? paraeters for the ut,of,s4nch handlin8 test case

Paraeter Unit +alue

ocor I I dA -1

oc I dA3.=4 M;< -60

or

c

I

E DPDCH J dA

See iure 6.1+ Aeore "oi%t $ -16.6 $ter "oi%t $ ot dei%ed

or

c

I

E DPCCH J dA See iure 6.1

D%oratio% ata Rate >&"s 12.2

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DPCCH_Ec/Ior Gd0H

A B C D ! %

Time GsH

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The specification depends on each possible case.

< 4irst preamble of /1C=1P1CE Open loop accuracy (Table ;.3).

< 5urin preamble rampin of the /1C=1P1C- and between final /1C=1P1C preamble and /1C=1P1Cmessae partE ccuracy dependin on si!e of the re6uired power difference.(Table ;.?). The step in totaltransmitted power between final /1C=1P1C preamble and /1C=1P1C messae (control part data part)shall be rounded to the closest inteer d0 value. power step eactly half

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Ta1le -(.2 Transitter power difference tolerance for RA6?@6P6? prea1le rapin87 and 1etweenfinal RA6?@6P6? prea1le and RA6?@6P6? essa8e part

Power step si=e !Up or down"BP Cd5D

Transitter power differencetolerance Cd5D

0 - 11 - 1

2 - 1.53E - 2

4 ≤ F E P ≤10 - 2.511 ≤ F E P ≤15 - 3.516 ≤ F E P ≤20 - 4.5

21 ≤ F E P - 6.5

'OT2E Power step si!e for /1C=1P1C preamble rampin is from to @ d0 with d0 steps.

6.5.3 #a%e o T'

chane of T41 (Transport 4ormat 1ombination) in uplin# means that the power in the uplin# varies accordin to thechane in data rate. 5T8- where the 5P1C is turned off- is a special case of variable data- which is used to minimisethe interference between :2(s) by reducin the :2 transmit power when voice- user or control information is not

present.


chane of output power is re6uired when the T41- and thereby the data rate- is chaned. The ratio of the amplitude between the 5P51C codes and the 5P11C code will vary. The power step due to a chane in T41 shall be calculatedin the :2 so that the power transmitted on the 5P11C shall follow the inner loop power control. The step in totaltransmitted power (5P11C 5P51C) shall then be rounded to the closest inteer d0 value. power step eactly half<way between two inteer values shall be rounded to the closest inteer of reater manitude. The accuracy of the powerstep- iven the step si!e- is specified in Table ;.@. The power chane due to a chane in T41 is defined as the relative

power difference between the mean power of the oriinal (reference) timeslot and the mean power of the taret timeslot-not includin the transient duration. The transient duration is from *7µs before the slot boundary to *7µs after the slot

boundary.

Ta1le -(/2 Transitter power step tolerance

Power step si=e !Up or down"BP Cd5D

Transitter power steptolerance Cd5D

0 - 0.51 - 0.52 - 1.0

3E - 1.54 ≤ F E P ≤10 - 2.011 ≤ F E P ≤15 - 3.016 ≤ F E P ≤20 - 4.0

21 ≤ F E P - 6.0

The transmit power levels versus time shall meet the mas# specified in 4iure ;.,.

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S!ot &ou%daries

*7 Ws*7 Ws *7 Ws

*7 Ws

Up-Link

DPDCH

Up-Link

DPCCH

Average Power

Minimum Power

Average PowerAverage Power

#i8ure -(%2 Transit teplate durin8 T#6 chan8e

6.5.4 Poer setti% i% u"!i%> o"ressed ode

1ompressed mode in uplin# means that the power in uplin# is chaned.


chane of output power is re6uired durin uplin# compressed frames since the transmission of data is performed in ashorter interval. The ratio of the amplitude between the 5P51C codes and the 5P11C code will also vary. The power

step due to compressed mode shall be calculated in the :2 so that the enery transmitted on the pilot bits durin eachtransmitted slot shall follow the inner loop power control.

Thereby- the power durin compressed mode- and immediately afterwards- shall be such that the mean power of the5P11C follows the steps due to inner loop power control combined with additional steps of +>o+(' pilot.prev = ' pilot.curr )d0 where ' pilot.prev is the number of pilot bits in the previously transmitted slot- and ' pilot.curr is the current number of pilot

bits per slot.

The resultin step in total transmitted power (5P11C 5P51C) shall then be rounded to the closest inteer d0 value. power step eactly half

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Ta1le -(02 Transitter power difference tolerance after a transission 8ap of up to )% slots

Power difference !Up or down"BP Cd5D

Transitter power steptolerance after a transission

8ap Cd5D

E P ≤ 2 - 33 - 3

4 ≤ F E P ≤10 - 3.511 ≤ F E P ≤15 - 416 ≤ F E P ≤20 - 4.5

21 ≤ F E P - 6.5

The power difference is defined as the difference between the mean power of the oriinal (reference) timeslot before thetransmission ap and the mean power of the taret timeslot after the transmission ap- not includin the transientdurations. The transient durations at the start and end of the transmission aps are each from *7µs before the slot

boundary to *7µs after the slot boundary.

The transmit power levels versus time shall meet the mas# specified in fiure ;.7.

*7 Ws

Up-Link

DPDCH

Up-Link

DPCCH

Average Power

Minimum

Power

Average Power

*7 Ws

*7 Ws

verage Power

S!ot &ou%daries

#i8ure -('2 Transit teplate durin8 6opressed ode

6.6 Cut"ut R' s"etru eissio%s

6.6.1 Cu"ied &a%didt#

Occupied bandwidth is a measure of the bandwidth containin BB S of the total interated power of the transmittedspectrum- centered on the assined channel fre6uency. The occupied channel bandwidth shall be less than 7 MC! basedon a chip rate of 3.@, Mcps.

6.6.2 Cut o &a%d eissio%

Out of band emissions are unwanted emissions immediately outside the nominal channel resultin from the modulation process and nonea#ae power /atio.

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6.6.2.1 S"etru eissio% as>

The spectrum emission mas# of the :2 applies to fre6uencies- which are between *.7 MC! and *.7 MC! away fromthe :2 centre carrier fre6uency. The out of channel emission is specified relative to the //1 filtered mean power of the:2 carrier.


The power of any :2 emission shall not eceed the levels specified in Table ;.+

Ta1le -()*2 Spectru Eission ask Requireent

Bf in ?= iniu requireent Additional iniurequireent for

operation in 5and 1

easureent1andwidth

2.5 - 3.5dBc

MHz

f

−

∆⋅−− 7.*737 -15 dA

30 >;< @@

3.5 - /.5

dBc MHz

f

−∆

⋅−− 7.337 -13 dA

1 M;< @@@

/.5 - =.5dBc

MHz

f

−

∆⋅−− 7.?+3B -13 dA

1 M;< @@@

=.5 - 12.5 M;< -4 dA -13 dA 1 M;< @@@@ ∆ is t#e se"aratio% &etee% t#e arrier re8ue% a%d t#e e%tre o t#e easuri% i!ter.@@ T#e irst a%d !ast easuree%t "ositio% it# a 30 >;< i!ter is at ∆ e8ua!s to 2.515 M;< a%d 3.4=5

M;ea#ae power /atio (1>/) is the ratio of the //1 filtered mean power centered on the assinedchannel fre6uency to the //1 filtered mean power centered on an adjacent channel fre6uency.


&f the adjacent channel power is reater than 97+d0m then the 1>/ shall be hiher than the value specified inTable ;..

Ta1le -())2 UE A6>R

Power 6lass Adjacent channel frequenc4 relati9eto assi8ned channel frequenc4

A6>R liit

3 5 M;< or : 5 M;< 33 dA3 10 M;< or : 10 M;< 43 dA4 5 M;< or : 5 M;< 33 dA4 10 M;< or :10 M;< 43 dA

'OT2 E The re6uirement shall still be met in the presence of switchin transients. 'OT2 *E The 1>/ re6uirements reflect what can be achieved with present state of the art technoloy.

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'OT2 3E /e6uirement on the :2 shall be reconsidered when the state of the art technoloy proresses.

6.6.3 S"urious eissio%s

"purious emissions are emissions which are caused by unwanted transmitter effects such as harmonics emission- parasitic emission- intermodulation products and fre6uency conversion products- but eclude out of band emissions.

The fre6uency boundary and the detailed transitions of the limits between the re6uirement for out band emissions andspectrum emissions are based on &T:;< -41 dA

25 M;< ≤ ≤ 35 M;< 100 >;< -6/ dA @

35 M;< I ≤ 60 M;< 100 >;< -/ dA @1=05 M;< ≤ ≤ 1==0 M;< 100 >;< -/1 dA @

@+ T#e easuree%ts are ade o% re8ue%ies #i# are i%teer u!ti"!es o 200 >;

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6.= Tra%sit odu!atio%

6.=.1 Tra%sit "u!se s#a"e i!ter

The transmit pulse shapin filter is a root

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/ Reei7er #arateristis

/.1 Ge%era!

:nless otherwise stated the receiver characteristics are specified at the antenna connector of the :2. 4or :2(s) with aninteral antenna only- a reference antenna with a ain of + d0i is assumed. :2 with an interal antenna may be ta#eninto account by convertin these power levels into field strenth re6uirements- assumin a + d0i ain antenna. /eceiver characteristics for :2(s) with multiple antennas=antenna connectors are 44".

The :2 antenna performance has a sinificant impact on system performance- and minimum re6uirements on theantenna efficiency are therefore intended to be included in future versions of the present document. &t is reconised thatdifferent re6uirements and test methods are li#ely to be re6uired for the different types of :2.

ll the parameters in clause ? are defined usin the 5> reference measurement channel (*.* #bps) specified insubclause .3. and unless stated are with 5> power control O44.

/.2 i7ersit #arateristis suitable receiver structure usin coherent reception in both channel impulse response estimation and code trac#in

procedures is assumed. Three forms of diversity are considered to be available in :T/=455.

Ta1le .()2 $i9ersit4 characteristics for UTRA@#$$

Tie di7ersit #a%%e! odi% a%d i%ter!ea7i% i% &ot# u" !i%> a%d do% !i%>

Mu!ti-"at#di7ersit

Ra>e reei7er or ot#er suita&!e reei7er struture it# aiuo&i%i%. $dditio%a! "roessi% e!ee%ts a% i%rease t#e de!a-s"read "erora%e due to i%reased a"ture o si%a! e%er.

$%te%%a di7ersit $%te%%a di7ersit it# aiu ratio o&i% i% t#e ode A a%do"tio%a!! i% t#e U*. Possi&i!it or do%!i%> tra%sit di7ersit i% t#eode A.

/.3 Reere%e se%siti7it !e7e!The reference sensitivity level is the minimum mean power received at the :2 antenna port at which the 0it 2rror /atio(02/) shall not eceed a specific value.

/.3.1 Mi%iu re8uiree%t

The 02/ shall not eceed +.++ for the parameters specified in Table ?.*.

Ta1le .(&2 Test paraeters for reference sensiti9it4

Paraeter Unit >e9el

P;J* dA3.=4 M;< -11/

K or dA3.=4 M;< -106./1. 'or Poer !ass 3 t#is s#a!! &e at t#e aiu out"ut "oer 2. 'or Poer !ass 4 t#is s#a!! &e at t#e aiu out"ut "oer

/.4 Maiu i%"ut !e7e!This is defined as the maimum mean power received at the :2 antenna port- which does not derade the specified

02/ performance.

3GPP

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

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The 02/ shall not eceed +.++ for the parameters specified in Table ?.3.

Ta1le .(32 a:iu input le9el

Paraeter Unit >e9el

or I

Ec DPCH J dA -1

K or dA3.=4 M;< -25

U* tra%sitted ea%"oer

dA20 (or Poer !ass 3)1= (or Poer !ass 4)

'OT2E "ince the spreadin factor is lare (+lo("4)V*d0)- the majority of the total input sinal consists of theO1'" interference. The structure of O1'" sinal is defined in nne 1.3.*.

/.5 $dHae%t #a%%e! Se!eti7it ($S)djacent 1hannel "electivity (1") is a measure of a receiverZs ability to receive a D

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The 02/ shall not eceed +.++ for the parameters specified in Table ?.; and Table ?.?. 4or Table ?.? up to *,eceptions are allowed for spurious response fre6uencies in each assined fre6uency channel when measured usin a MC! step si!e.

Ta1le .(-2 Fn,1and 1lockin8

Paraeter Unit >e9el

P;J* dA3.=4 M;< -114

K or dA3.=4 M;< -103./

D&!o>i% ea% "oer(odu!ated)

dA-56

(or 'u oset B10 M;i% () dA -44 -30 -15'u'or o"eratio% i%re8ue% &a%dsas dei%ed i%su&!ause 5.2(a)

M;<2050I I20521=5I I2230

2025 I I20502230 I I2255

1I I20252255II12/50

'u

'or o"eratio% i%re8ue% &a%dsas dei%ed i%su&!ause 5.2(&)

M;< 1=/0I I1152005I I2050 1=45 I I1=/02050 I I20/5 1I I1=4520/5II12/50

U* tra%sittedea% "oer

dA20 (or Poer !ass 3)1= (or Poer !ass 4)

'or o"eratio% i% &a%ds reere%ed i% 5.2(a), ro 205II2110 M;< a%d 21/0II21=5M;

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/./ S"urious res"o%se"purious response is a measure of the receiverZs ability to receive a wanted sinal on its assined channel fre6uencywithout eceedin a iven deradation due to the presence of an unwanted 1D interferin sinal at any other fre6uencyat which a response is obtained i.e. for which the bloc#in limit is not met.

/./.1 Mi%iu re8uiree%t

The 02/ shall not eceed +.++ for the parameters specified in Table ?.@.

Ta1le .(/2 Spurious Response

Paraeter Unit >e9el

P;J* dA3.=4 M;< -114

K or dA3.=4 M;< -103./

D&!o>i% () dA -44

'u M;< S"urious res"o%se re8ue%iesU* tra%sitted ea%

"oer dA

20 (or Poer !ass 3)

1= (or Poer !ass 4)

/.= D%terodu!atio% #arateristisThird and hiher order miin of the two interferin /4 sinals can produce an interferin sinal in the band of thedesired channel. &ntermodulation response rejection is a measure of the capability of the receiver to receiver a wantedsinal on its assined channel fre6uency in the presence of two or more interferin sinals which have a specificfre6uency relationship to the wanted sinal.

/.=.1 Mi%iu re8uiree%t

The 02/ shall not eceed +.++ for the parameters specified in Table ?.B.

Ta1le .(02 Recei9e interodulation characteristics

Paraeter Unit >e9el

P;J* dA3.=4 M;< -114

K or dA3.=4 M;< -103./Dou1 () dA -46Dou2 ea% "oer(odu!ated)

dA -46

'u1 (oset) M;< 10 -10'u2 (oset) M;< 20 -20U* tra%sitted ea%"oer dA

20 (or Poer !ass 3)1= (or Poer !ass 4)

'OT2E &ouw* (modulated) consists of the common channels needed for tests as specified in Table 1.? and ;dedicated data channels as specified in Table 1.;.

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3GPP TS &'()*) +%()*(* !&**3,)&"&.Release %

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/. S"urious eissio%sThe spurious emissions power is the power of emissions enerated or amplified in a receiver that appear at the :2antenna connector.

/..1 Mi%iu re8uiree%tThe power of any narrow band 1D spurious emission shall not eceed the maimum level specified in Table ?.+ andTable ?.

Ta1le .()*2 General recei9er spurious eission requireents

#requenc4 5and easureent5andwidth

a:iule9el

Note

30M;< ≤ I 1G;< 100 >;< -5/ dA1G;< ≤ ≤ 12./5 G;< 1 M;< -4/ dA

Ta1le .())2 Additional recei9er spurious eission requireents#requenc4 5and easureent

5andwidtha:iu

le9elNote

'or o"eratio% i%re8ue% &a%ds asdei%ed i% su&!ause5.2(a)

120 M;< ≤ ≤ 1=0M;<

3.=4 M;< -60 dA Mo&i!e tra%sit &a%d i%UR$JP;, e!!JP;a%d id!e state

2110 M;< ≤ ≤ 21/0M;<

3.=4 M;< -60 dA Mo&i!e reei7e &a%d

= Perora%e re8uiree%t

=.1 Ge%era!The performance re6uirements for the :2 in this subclause are specified for the measurement channels specified innne - the propaation conditions specified in nne 0 and the 5own lin# Physical channels specified in nne 1.:nless stated 5> power control is O44.

=.2 eodu!atio% i% stati "ro"aatio% o%ditio%s

=.2.1 (7oid)

=.2.2 eodu!atio% o 'orard $ess #a%%e! ('$;)

Aoid

=.2.3 eodu!atio% o ediated #a%%e! (;)

The receive characteristic of the 5edicated 1hannel (51C) in the static environment is determined by the 0loc# 2rror/atio (0>2/). 0>2/ is specified for each individual data rate of the 51C. 51C is mapped into the 5edicated Physical1hannel (5P1C).

3GPP

3GPP TS &'()*) +%()*(* !&**3,)&"&/Release %

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=.2.3.1 Mi%iu re8uiree%t

4or the parameters specified in Table @.7 the averae downlin#or

c

I

E DPCH J power ratio shall be below the specified

value for the 0>2/ shown in Table @.;. These re6uirements are applicable for T41" si!e ;.

Ta1le /('2 $6? paraeters in static propa8ation conditions

Paraeter Unit Test ) Test & Test 3 Test %

P#ase reere%e P-PD;

ocor I I dA -1

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2 64 144 3=4

Ta1le /(-2 $6? requireents in static propa8ation conditions

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -16.6 dA 10-2

2-13.1 dA 10-1

-12.= dA 10-2

3-. dA 10-1

-.= dA 10-2

4-5.6 dA 10-1

-5.5 dA 10-2

=.3 eodu!atio% o ; i% u!ti-"at# adi% "ro"aatio%o%ditio%s

=.3.1 Si%!e Li%> Perora%e

The receive characteristics of the 5edicated 1hannel (51C) in different multi2/) values. 0>2/ is measured for the each of the individual data rate specified for the5P1C. 51C is mapped into in 5edicated Physical 1hannel (5P1C).


4or the parameters specified in Table @.?- @.B - @.- @.3 and @., the averae downlin#or

c

I

E DPCH J power ratio shall

be below the specified value for the 0>2/ shown in Table @.@- @.+- @.*- @., and @.,0. These re6uirements areapplicable for T41" si!e ;.

Ta1le /(.2 Test Paraeters for $6? in ulti,path fadin8 propa8ation conditions !6ase )"


P#ase reere%e P-PD;

ocor I I dA

oc I dA3.=4 M;< -60


3GPP

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Ta1le /(/2 Test requireents for $6? in ulti,path fadin8 propa8ation conditions !6ase )"

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -15.0 dA 10-2

2-13. dA 10-1

-10.0 dA 10-2

3-10.6 dA 10-1

-6.= dA 10-2

4-6.3 dA 10-1

-2.2 dA 10-2

Ta1le /(02 $6? paraeters in ulti,path fadin8 propa8ation conditions !6ase &"

Paraeter Unit Test ' Test - Test . Test /

P#ase reere%e P-PD;

ocor I I dA -3 -3 3 6

oc I dA3.=4 M;< -60


Ta1le /()*2 $6? requireents in ulti,path fadin8 propa8ation !6ase &"

Test Nu1er or

c

I

E DPCH _ 5>ER

5 -/./ dA 10-2

6-6.4 dA 10-1

-2./ dA 10-2

/-=.1 dA 10-1

-5.1 dA 10-2

= -5.5 dA 10- 1

-3.2 dA 10-2

Ta1le /())2 $6? paraeters in ulti,path fadin8 propa8ation conditions !6ase 3"

Paraeter Unit Test 0 Test )* Test )) Test )&

P#ase reere%e P-PD;

ocor I I dA -3 -3 3 6

oc I dA3.=4 M;< -60


Ta1le /()&2 $6? requireents in ulti,path fadin8 propa8ation conditions !6ase 3"

Test Nu1er or

c

I

E DPCH _ 5>ER

-11.= dA 10-2

10-=.1 dA 10-1

-/.4 dA 10-2

-6.= dA 10-3

11-.0 dA 10-1

-=.5 dA 10-2

-=.0 dA 10-3

12-5. dA 10-1

-5.1 dA 10-2

-4.4 dA 10-3

3GPP

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

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Ta1le /()32 $6? paraeters in ulti,path fadin8 propa8ation conditions !6ase )" with S,6PF6?

Paraeter Unit Test )3 Test )% Test )' Test )-

P#ase reere%e S-PD;

ocor I I dA

oc I dA3.=4 M;< -60


Ta1le /()%2 $6? requireents in ulti,path fadin8 propa8ation conditions !6ase )" with S,6PF6?

Test Nu1er or

c

I

E DPCH _ 5>ER

13 -15.0 dA 10-2

14-13. dA 10-1

-10.0 dA 10-2

15-10.6 dA 10-1

-6.= dA 10-2

16

-6.3 dA 10-1

-2.2 dA 10-2

Ta1le /()%A2 $6? paraeters in ulti,path fadin8 propa8ation conditions !6ase -"

Paraeter Unit Test ). Test )/ Test )0 Test &*

P#ase reere%e P-PD;

ocor I I dA -3 -3 3 6

oc I dA3.=4 M;< -60


Ta1le /()%52 $6? requireents in ulti,path fadin8 propa8ation conditions !6ase -"

Test Nu1er or

c

I

E DPCH _ 5>ER

1/ -=.= dA 10-2

1=-5.1 dA 10-1

-4.4 dA 10-2

-3.= dA 10-3

1-6.0 dA 10-1

-5.5 dA 10-2

-5.0 dA 10-3

20-2. dA 10-1

-2.1 dA 10-2

-1.4 dA 10-3

=.4 eodu!atio% o ; i% o7i% "ro"aatio% o%ditio%s

=.4.1 Si%!e !i%> "erora%e

The receive sinle lin# performance of the 5edicated 1hannel (51C) in dynamic movin propaation conditions aredetermined by the 0loc# 2rror /atio (0>2/) values. 0>2/ is measured for the each of the individual data ratespecified for the 5P1C. 51C is mapped into 5edicated Physical 1hannel (5P1C).

3GPP

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

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4or the parameters specified in Table @.7 the averae downlin#or

c

I


value for the 0>2/ shown in Table @.;.

Ta1le /()'2 $6? paraeters in o9in8 propa8ation conditions

Paraeter Unit Test ) Test &

P#ase reere%e P-PD;

ocor I I dA -1

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2 64

Ta1le /()-2 $6? requireents in o9in8 propa8ation conditions

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -14.5 dA 10-2

2 -10. dA 10-2

=.5 eodu!atio% o ; i% &irt#-deat# "ro"aatio% o%ditio%s

=.5.1 Si%!e !i%> "erora%e

The receive sinle lin# performance of the 5edicated 1hannel (51C) in dynamic birth2/) values. 02/ is measured for the each of the individual data rate specifiedfor the 5P1C. 51C is mapped into 5edicated Physical 1hannel (5P1C).


4or the parameters specified in Table @.? the averae downlin#or

c

I


value for the 0>2/ shown in Table @.@.

Ta1le /().2 $6? paraeters in 1irth,death propa8ation conditions


P#ase reere%e P-PD;

ocor I I dA -1

oc I dA3.=4 M;< -60D%oratio% ata Rate >&"s 12.2 64

Ta1le /()/2 $6? requireents in 1irth,death propa8ation conditions

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -12.6 dA 10-2

2 -=./ dA 10-2

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=.6 eodu!atio% o ; i% do%!i%> Tra%sit di7ersit odes

=.6.1 eodu!atio% o ; i% o"e%-!oo" tra%sit di7ersit ode

The receive characteristic of the 5edicated 1hannel (51C) in open loop transmit diversity mode is determined by the

0loc# 2rror /atio (0>2/). 51C is mapped into in 5edicated Physical 1hannel (5P1C).


4or the parameters specified in Table @.B the averae downlin#or

c

I


value for the 0>2/ shown in Table @.*+.

Ta1le /()02 Test paraeters for $6? reception in an open loop transit di9ersit4 schee!Propa8ation condition2 6ase )"

Paraeter Unit Test )

P#ase reere%e P-PD;

ocor I I dA

oc I dA3.=4 M;< -60

D%oratio% data rate >&"s 12.2

Ta1le /(&*2 Test requireents for $6? reception in open loop transit di9ersit4 schee

Test Nu1er or

c

I

E DPCH _

!antenna )@&"

5>ER

1 -16.= dA 10-2

=.6.2 eodu!atio% o ; i% !osed !oo" tra%sit di7ersit ode

The receive characteristic of the dedicated channel (51C) in closed loop transmit diversity mode is determined by the0loc# 2rror /atio (0>2/). 51C is mapped into in 5edicated Physical 1hannel (5P1C).


4or the parameters specified in Table @.* the averae downlin#or

c

I


value for the 0>2/ shown in Table @.**.

Ta1le /(&)2 Test Paraeters for $6? Reception in closed loop transit di9ersit4 ode!Propa8ation condition2 6ase )"

Paraeter UnitTest )

!ode )"Test &

!ode &"

ocor I I dA

oc I dA3.=4 M;< -60 -60

D%oratio% data rate >&"s 12.2 12.2'eed&a> error rate 4 4!osed !oo" tii% adHuste%tode

- 1 1

3GPP

3GPP TS &'()*) +%()*(* !&**3,)&"33Release %

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Ta1le /(&&2 Test requireents for $6? reception in closed loop transit di9ersit4 ode

Test Nu1er or

c

I

E DPCH _ !see note" 5>ER

1 -1=.0 dA 10-2

2 -1=.3 dA 10-2

CT*+ T#is is t#e tota! "oer ro &ot# a%te%%as. Poers#ari% &etee% a%te%%as are eed&a> odede"e%de%t as s"eiied i% TS25.214.

=.6.3 eodu!atio% o ; i% Site Se!etio% i7ersit Tra%sissio% Poero%tro! ode

The bit error characteristics of :2 receiver is determined in "ite "election 5iversity Transmission power control(""5T) mode. Two 'ode 0 emulators are re6uired for this performance test. The delay profiles of sinals received fromdifferent 'ode 0s are assumed to be the same but time shifted by + chip periods (*;+, ns).

=.6.3.1 Mi%iu re8uiree%tsThe downlin# physical channels and their relative power to &or are the same as those specified in clause 1.3.*irrespective of 'ode 0s and the test cases. 5P1CJ2c=&or value applies whenever 5P51C in the cell is transmitted. &nTest and Test 3- the received powers at :2 from two 'ode 0s are the same- while 3d0 offset is iven to one thatcomes from one of 'ode 0s for Test * and Test , as specified in Table @.*3.

4or the parameters specified in Table @.*3 the averae downlin#or

c

I


value for the 0>2/ shown in Table @.*,.

Ta1le /(&32 $6? paraeters in ulti,path propa8ation conditions durin8 SS$T ode!Propa8ation condition2 6ase )"


P#ase reere%e P-PD;

ocor I I 3 dA 0 -3 0 0

ocor I I * dA 0 0 0 -3

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2 12.2 12.2 12.2e!! D ode ord error ratio i% u"!i%>

1 1 1 1

u&er o 'AD &itsassi%ed to S 'ie!d

1 1 2 2

ode ord Set Lo% Lo% S#ort S#ortUL P; s!ot

'orat N2 N5

'OT2E The code word errors are introduced independently in both uplin# channels.

Ta1le /(&%2 $6? requireents in ulti,path propa8ation conditions durin8 SS$T ode

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -6.0 dA 10-2

2 -5.0 dA 10-2

3 -10.5 dA 10-2

4 -.2 dA 10-2

3GPP

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

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=./ eodu!atio% i% ;a%do7er o%ditio%s

=./.1 eodu!atio% o ; i% D%ter-e!! Sot ;a%do7er

The bit error rate characteristics of :2 is determined durin an inter2/ shown in Table @.*;.

Ta1le /(&'2 $6? paraeters in ulti,path propa8ation conditions durin8 Soft ?andoff !6ase 3"


P#ase reere%e P-PD;

ocor I I 3 a%d ocor I I * dA 0 0 3 6

oc I dA3.=4 M;< -60

D%oratio% data Rate >&"s 12.2 64 144 3=4

Ta1le /(&-2 $6? requireents in ulti,path propa8ation conditions durin8 Soft ?andoff !6ase 3"

Test Nu1er or

c

I

E DPCH _ 5>ER

1 -15.2 dA 10-2

2-11.= dA 10-1

-11.3 dA 10-2

3-.6 dA 10-1

-.2 dA 10-2

4-6.0 dA 10-1

-5.5 dA 10-2

=./.2 o&i%i% o TP oa%ds ro radio !i%>s o diere%t radio !i%>sets

=./.2.1 Mi%iu re8uiree%t

Test parameters are specified in Table @.*?. The delay profiles of the sinals received from the different cells are thesame but time

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Ta1le /(&.2 Paraeters for TP6 coand co1inin8


P#ase reere%e - P-PD;P;J*Dor dA -12

3or I a%d *

or I dA3.=4 M;< -60

oc I dA3.=4 M;< - -60Poer-o%tro!-$!orit# - $!orit# 1e!! 1 TP oa%ds

o7er 4 s!ots- O0,0,1,1

e!! 2 TP oa%dso7er 4 s!ots

- O0,1,0,1

D%oratio% data Rate >&"s 12.2

Pro"aatio% o%ditio% -

Stati it#out $G

soure oc I

Mu!ti-"at#adi% ase 3

Ta1le /(&/2 Test requireents for Test )

Test Nu1er Required power chan8es o9er

the % consecuti9e slots

1 o%, o%, o%, U"

Ta1le /(&/A2 Requireents for Test &

Test Nu1er Ratio

!Transitted power UP" @!Total nu1er of slots"

Ratio!Transitted power $N" @

!Total nu1er of slots"

2 ≥0.25 ≥0.5

=.= Poer o%tro! i% do%!i%>Power control in the downlin# is the ability of the :2 receiver to convere to re6uired lin# 6uality set by the networ#while usin as low power as possible in downlin# . &f a 0>2/ taret has been assined to a 511C ("ee nne .3)-then it has to be such that outer loop is based on 5T1C and not on 511C.

=.=.1 Poer o%tro! i% t#e do%!i%>, o%sta%t AL*R taret

=.=.1.1 Mi%iu re8uiree%ts

4or the parameters specified in Table @.*B the downlin# or c

I

E DPCH J

power ratio measured values- which areaveraed over one slot- shall be below the specified value in Table @.3+ more than B+S of the time. 0>2/ shall beas shown in Table @.3+. Power control in downlin# is O' durin the test.

3GPP

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

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Ta1le /(&02 Test paraeter for downlink power control


ocor I I dA -1

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2

Taret 8ua!it 7a!ue o% T; AL*R 0.01Pro"aatio% o%ditio% ase 4MaiuJLJPoer @ dA /Mi%iuJLJPoer @ dA -1=L Poer o%tro! ste" si&"s 12.2 12.2 64 64

ocor I I dA -1

oc I dA3.=4

M;<-60

Pro"aatio% o%ditio% StatiMaiuJLJPoer dA /Mi%iuJLJPoer dA -1=L Poer o%tro!ste" si

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Ta1le /(3&2 Requireents in downlink power control

Paraeter Unit Test ) and Test & Test 3 and Test %

or

c

I

E DPCH J duri% T1 dA -1=. ≤ P;J*Dor ≤ -11. -15.1 ≤ P;J*Dor ≤ -=.1

or

c

I

E DPCH J duri% T2 dA -1=. ≤ P;J*Dor ≤ -14. -15.1 ≤ P;J*Dor ≤ -11.1

=.=.3 Poer o%tro! i% do%!i%>, i%d u" eets

=.=.3.1 Mi%iu re8uiree%ts

This test is run in three staes where stae is for converence of the power control loop- in stae two the maimumdownlin# power for the dedicated channel is limited not to be hiher than the parameter specified in Table @.33. ll

parameters used in the three staes are specified in Table @.33. The downlin# or

c

I

E DPCH J power ratio measured values-

which are averaed over one slot- durin stae 3 shall be lower than the value specified in Table @.3, more than B+S of

the time.

Power control of the :2 is O' durin the test.

Ta1le /(332 Test paraeter for downlink power control7 wind,up effects

Paraeter UnitTest )

Sta8e ) Sta8e & Sta8e 3

Tie i% ea# stae s Q15 5 0.5

ocor I I dA 5

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2ua!it taret o%T; AL*R 0.01Pro"aatio% o%ditio% ase 4MaiuJLJPoer dA / -6.2 /Mi%iuJLJPoer dA -1=L Poer o%tro! ste"si o"ressed ode5ownlin# compressed mode is used to create aps in the downlin# transmission- to allow the :2 to ma#emeasurements on other fre6uencies.

=..1 Si%!e !i%> "erora%e

The receiver sinle lin# performance of the 5edicated Traffic 1hannel (51C) in compressed mode is determined by the0loc# 2rror /atio (0>2/) and transmitted 5P1CJ2c=&or power ratio in the downlin#.

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The compressed mode parameters are iven in clause .7. Tests and * are usin "et compressed mode pattern parameters from Table .* in clause .7 while tests 3 and , are usin "et * compressed mode patterns from the sametable.

=..1.1 Mi%iu re8uiree%ts

4or the parameters specified in Table @.37 the downlin#or

c

I

E DPCH J power ratio measured values- which are averaed

over one slot- shall be below the specified value in Table @.3; more than B+S of the time. The measured 6uality on5T1C shall be as re6uired in Table @.3;.

5ownlin# power control is O' durin the test. :plin# TP1 commands shall be error free.

Ta1le /(3'2 Test paraeter for downlink copressed ode


e!ta SDR1 dA 0 3 0 3e!ta SDR ater1 dA 0 3 0 3e!ta SDR2 dA 0 0 0 0e!ta SDR ater2 dA 0 0 0 0

ocor I I dA

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2Pro"aatio% o%ditio% ase 2Taret 8ua!it 7a!ueo% T;

AL*R 0.01

MaiuJLJPoer dA /Mi%iuJLJPoer dA -1=L Poer o%tro!ste" si2/) values and by themeasured averae transmitted 5P1CJ2c=&or value.

=.10.1 Mi%iu re8uiree%t

4or the parameters specified in Table @.3? the averae downlin#or

c

I


value for the 0>2/ shown in Table @.3@.

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Ta1le /(3.2 Test paraeters for 5lind transport forat detection

Paraeter Unit Test ) Test & Test 3 Test % Test ' Test -

ocor I I dA -1 -3

oc I dA3.=4 M;< -60

D%oratio% ata Rate >&"s 12.2(rate 1) /.5(rate 2) 1.5(rate 3) 12.2(rate 1) /.5(rate 2) 1.5(rate 3)

"ro"aatio% o%ditio% - stati u!ti-"at# adi% ase 3

T'D - o

Ta1le /(3/2 The Requireents for $6? reception in 5lind transport forat detection

Test Nu1er or

c

I

E DPCH _ 5>ER #$R

1 -1/./ dA 10-2 10-4

2 -1/.= dA 10-2 10-4

3 -1=.4 dA 10-2 10-4

4 -13.0 dA 10-2

10-4

5 -13.2 dA 10-2 10-4

6 -13.= dA 10-2 10-4

The value of 5P1CJ2c=&or- &oc- and &or=&oc are defined in case of 5P1C is transmitted

'OT2E &n this test- B different Transport 4ormat 1ombinations (Table @.3B) are sent durin the call set up procedure- so that the :2 has to detect the correct transport format from these B candidates.

Ta1le /(302 Transport forat co1inations infored durin8 the call set up procedure in the test

1 2 3 4 5 6 / = T; 12.2> 10.2> /.5> /.4> 6./> 5.> 5.15> 4./5> 1.5>

; 2.4>

=.11 etetio% o Aroadast #a%%e! (A;)The receiver characteristics of 0roadcast 1hannel (01C) are determined by the 0loc# 2rror /atio (0>2/) values. 01Cis mapped into the primary common control physical channel (P

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Ta1le /(%)2 Test requireents for 56? detection

Test Nu1er P,66P6?ER

1 -1=.5 dA 0.012 -12.= dA 0.01

=.12 eodu!atio% o Pai% #a%%e! (P;)The receiver characteristics of pain channel are determined by the probability of missed pain messae (Pm

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Ta1le /(%%2 Paraeters for AF detection

Paraeter Unit Test )

P#ase reere%e - P-PD;

oc I dA3.=4 M;< -60

u&er o ot#er

tra%sitted $Dsi%atures o% $D; - 0

ocor I I dA -1

$D;J*Dor dA -22.0 $D; Poer Cset dA -12.0

Pro"aatio%o%ditio%

- Stati

'ote that &1CJ2c=&or can not be set. &ts value is calculated from other parameters and it is iven for information only.(&1CJ2c=&or V &1C Power Offset 1P&1CJ2c=&or)

Ta1le /(%'2 Test requireents for AF detection

Test Nu1er Pfa ),Pd

1 0.01 0.01

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$%%e $ (%orati7e)+Measuree%t #a%%e!s

$.1 Ge%era!The measurement channels in this anne are defined to derive the re6uirements in clauses ;- ? and @. The measurementchannels represent eample confiuration of radio access bearers for different data rates.

The measurement channel for *.* #bps shall be supported by any :2 both in up< and downlin#. "upport for othermeasurement channels is dependin on the :2 /adio ccess capabilities.

$.2 UL reere%e easuree%t #a%%e!

$.2.1 UL reere%e easuree%t #a%%e! (12.2 >&"s)The parameters for the *.* #bps :> reference measurement channel are specified in Table . and Table .*. Thechannel codin for information is shown in fiure ..

Ta1le A()2 U> reference easureent channel ph4sical paraeters !)&(& k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 12.2

P; >&"s 60P; >&"s 15P; S!ot 'orat Ni - 0

P;P; "oer ratio dA -5.46T'D - C%Re"etitio% 23CT*+ S!ot 'orat N2 is used or !osed !oo" tests i% su&!ause =.6.2.S!ot 'orat N2 a%d N5 are used or site se!etio% di7ersit tra%sissio% tests i%

su&!ause =.6.3

Ta1le A(&2 U> reference easureent channel7 transport channel paraeters !)&(& k1ps"

Paraeters $T6? $66?

Tra%s"ort #a%%e! u&er 1 2Tra%s"ort A!o> Si

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#$kbps DPDCH

Conv% Coing R&'/(

Raio )rame FN&*N+' Raio )ram e FN&*N+, Raio )rame FN&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC a!!a".men!

ail bi! a!!a".men!

Ra!e ma!".ing

,n in!erleaving

#$$

*0$ ''$ *0$ ''$ *0$ ''$ *0$

1MU2' *0$ 1MU2, *0$ 1MU2' ''$

1MU2, ''$

1MU2(''$

1MU2* ''$

#$$ #$$ #$$

*$,

3$*

,#$

ail3

CRC'#

,**

,**

''$

(#$

(#$

'',

ail3'$$

CRC',

's! in!erleaving

Raio Frame 1egmen!a!ion

CRC a!!a".men!

n)orma!ion a!a

ail bi! a!!a".men!

Conv% Coing R&'/(

Ra!e ma!".ing

's! in!erleaving

T; ;

3$*

*$,

1MU2' *0$ 1MU2, *0$

0$ 0$ 0$ 0$

'4kbps DPCCH

'$$

#i8ure A() !Fnforati9e"2 6hannel codin8 of U> reference easureent channel !)&(& k1ps"

$.2.2 UL reere%e easuree%t #a%%e! (64 >&"s)The parameters for the ;, #bps :> reference measurement channel are specified in Table .3 and Table .,. Thechannel codin for information is shown in fiure .*. This measurement channel is not currently used in T" *7.+ butcan be used for future re6uirements.

Ta1le A(32 U> reference easureent channel !-% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 64P; >&"s 240P; >&"s 15P; S!ot 'orat Ni - 0P;P; "oer ratio dA -.54T'D - C%Re"etitio% 1=

Ta1le A(%2 U> reference easureent channel7 transport channel paraeters !-% k1ps"

Paraeter $T6? $66?


8/19/2019 25101-4a0

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,*$kbps DPDCH

urbo Coing R&'/(

Raio ) rame FN&*N+' Raio ) rame FN&*N+, Raio ) rame FN&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC a!!a".men!

,n in!erleaving

,*$$

,,0* '$# ,,0* '$# ,,0* '$# ,,0*

1MU2' ,,0* 1MU2, ,,0* 1MU2' '$#

1MU2, '$#

1MU2('$#

1MU2* '$#

,*$$ ,*$$ ,*$$

'04$

(333

',0#ermina!ion ',

CRC'#

',3$

',3$

'$#

(#$

(#$

'',

ail3'$$

's! in!erleaving

CRC a!!a".men!

n)orma!ion a!a

ail bi! a!!a".men!

Conv% Coing R&'/(

Ra!e ma!".ing

's! in!erleaving

T; ;

(0$$

'04$

1MU2' ,,0* 1MU2, ,,0*

0$ 0$ 0$ 0$

'4kbps DPCCH

Ra!e ma!".ing


'$$CRC',

#i8ure A(& !Fnforati9e"2 6hannel codin8 of U> reference easureent channel !-% k1ps"

$.2.3 UL reere%e easuree%t #a%%e! (144 >&"s)The parameters for the ,, #bps :> reference measurement channel are specified in Table .7 and Table .;. Thechannel codin for information is shown in 4iure .3. This measurement channel is not currently used in the presentdocument but can be used for future re6uirements.

Ta1le A('2 U> reference easureent channel !)%% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 144P; >&"s 4=0P; >&"s 15P; S!ot 'orat Ni - 0P;P; "oer ratio dA -11.4=T'D - C%Re"etitio% =

Ta1le A(-2 U> reference easureent channel7 transport channel paraeters !)%%k1ps"

Paraeters $T6? $66?

Tra%s"ort #a%%e! u&er 1 2

Tra%s"ort A!o> Si

8/19/2019 25101-4a0

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*3$kbps DPDCH

urbo Coing R&'/(

Raio ) rame FN&*N+' Raio )rame FN&*N+, Raio )rame FN&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC a!!a".men!

,n in!erleaving

*3$$

*5$, 03 *5$, 03 *5$, 03 *5$,

1MU2' *5$, 1MU2, *5$, 1MU2' 03

1MU2, 03

1MU2(03

1MU2* 03

*3$$ *3$$ *3$$

*(4$

3#33

,30# ermina!ion ',

,33$

,33$

03

(#$

(#$

'',

ail3'$$

's! in!erleaving

CRC a!!a".men!

n)orma!ion a!a

ail bi! a!!a".men!

Conv% Coing R&'/(

Ra!e ma!".ing

's! in!erleaving

T; ;

35$$

*(4$

1MU2' *5$, 1MU2, *5$,

0$ 0$ 0$ 0$

'4kbps DPCCH

Ra!e ma!".ing


'$$CRC'# CRC',

#i8ure A(3 !Fnforati9e"2 6hannel codin8 of U> reference easureent channel !)%% k1ps"

$.2.4 UL reere%e easuree%t #a%%e! (3=4 >&"s)The parameters for the 3@, #bps :> reference measurement channel are specified in Table .? and Table .@. Thechannel codin for information is shown in 4iure .,. This measurement channel is not currently used in T" *7.+

but can be used for future re6uirements.

Ta1le A(.2 U> reference easureent channel !3/% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 3=4P; >&"s 60P; >&"s 15P; S!ot 'orat ND - 0P;P; "oer ratio dA -11.4=T'D - C%Pu%turi% 1=

Ta1le A(/2 U> reference easureent channel7 transport channel paraeters !3/% k1ps"

Paraeter $T6? $66?


8/19/2019 25101-4a0

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0#$kbps DPDCH

urbo Coing R&'/(

Raio )rame FN&*N+' Raio )rame F N&*N+, Raio )r ame F N&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC a!!a".men!

,n in!erleaving

0#$$

04,4 54 04,4 54 04,4 54 04,4

04,4 04,4 1MU2' 54

1MU2, 54

1MU2(54

1MU2* 54

0#$$ 0#$$ 0#$$

''43$

''4#3

(34#

54

(#$

(#$

'',

ail3'$$

's! in!erleaving

CRC a!!a".men!

n)orma!ion a!a

ail bi! a!!a".men!

Conv% Coing R&'/(

Ra!e ma!".ing

's! in!erleaving

T); ));

''43$

04,4 04,4

0$ 0$ 0$ 0$

'4kbps DPCCH

Ra!e ma!".ing


'$$(3*$

(3*$

CRC'#

ermina!ion ',

CRC',

#i8ure A(% !Fnforati9e"2 6hannel codin8 of U> reference easureent channel !3/% k1ps"

$.2.5 UL reere%e easuree%t #a%%e! (/6= >&"s)The parameters for the :> measurement channel for ?;@ #bps are specified in Table .B and Table .+.

Ta1le A(02 U> reference easureent channel7 ph4sical paraeters !.-/ k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 2@3=4P;1 >&"s 60P;2 >&"s 60P; >&"s 15

P; S!ot 'orat Ni - 0P;P; "oer ratio dA -11.4=T'D - C%Pu%turi% 1=

Ta1le A()*2 U> reference easureent channel7 transport channel paraeters !.-/ k1ps"

Paraeter $T6? $66?


8/19/2019 25101-4a0

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$.3 L reere%e easuree%t #a%%e!

$.3.1 L reere%e easuree%t #a%%e! (12.2 >&"s)

The parameters for the *.* %bps 5> reference measurement channel are specified in Table . and Table .*. Thechannel codin is shown for information in fiure .7.

Ta1le A())2 $> reference easureent channel ph4sical paraeters !)&(& k1ps"

Paraeter #nit >e9el

D%oratio% &it rate >&"s 12.2P; >s"s 30

S!ot 'orat Ni - 11T'D - C%Poer osets PC1, PC2 a%d PC3 dA 0Pu%turi% 14./

Ta1le A()&2 $> reference easureent channel7 transport channel paraeters !)&(& k1ps"

Paraeter $T6? $66?


8/19/2019 25101-4a0

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$.3.2 L reere%e easuree%t #a%%e! (64 >&"s)The parameters for the 5> reference measurement channel for ;, #bps are specified in Table .3 and Table .,. Thechannel codin is shown for information in 4iure .;.

Ta1le A()32 $> reference easureent channel ph4sical paraeters !-% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 64P; >s"s 120S!ot 'orat Ni - 13T'D - C%Poer osets PC1, PC2 a%d PC3 dA 0Re"etitio% 2.

Ta1le A()%2 $> reference easureent channel7 transport channel paraeters !-% k1ps"

Paraeter $T6? $66?

Tra%s"ort #a%%e! u&er 1 2Tra%s"ort A!o> Si reference easureent channel !-% k1ps"

3GPP

3GPP TS &'()*) +%()*(* !&**3,)&"%0Release %

8/19/2019 25101-4a0

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$.3.3 L reere%e easuree%t #a%%e! (144 >&"s)The parameters for the 5> measurement channel for ,, #bps are specified in Table .7 and Table .;. The channelcodin is shown for information in 4iure .?.

Ta1le A()'2 $> reference easureent channel ph4sical paraeters !)%% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 144P; >s"s 240S!ot 'orat Ni - 14T'D - C%Poer osets PC1, PC2 a%d PC3 dA 0Pu%turi% 2./

Ta1le A()-2 $> reference easureent channel7 transport channel paraeters !)%% k1ps"

Paraeter $T6? $66?

Tra%s"ort #a%%e! u&er 1 2Tra%s"ort A!o> Si reference easureent channel !)%% k1ps"

3GPP

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

8/19/2019 25101-4a0

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$.3.4 L reere%e easuree%t #a%%e! (3=4 >&"s)The parameters for the 5> measurement channel for 3@, #bps are specified in Table .? and Table .@. The channelcodin is shown for information in 4iure .@

Ta1le A().2 $> reference easureent channel7 ph4sical paraeters !3/% k1ps"

Paraeter Unit >e9el

D%oratio% &it rate >&"s 3=4P; >s"s 4=0S!ot 'orat N i - 15

T'D C%Poer osets PC1, PC2 a%d PC3 dA 0Pu%turi% 22

Ta1le A()/2 $> reference easureent channel7 transport channel paraeters !3/% k1ps"

Paraeter $T6? $66?

Tra%s"ort #a%%e! u&er 1 2Tra%s"ort A!o> Si reference easureent channel !3/% k1ps"

3GPP

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

8/19/2019 25101-4a0

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$.4 L reere%e easuree%t #a%%e! or AT'"erora%e re8uiree%ts

The parameters for 5> reference measurement channel for 0T45 are specified in Table .B and Table .*+. The

channel codin for information is shown in fiures .B- .+- and .Ta1le A()02 $> reference easureent channel ph4sical paraeters for 5T#$

Paraeter Unit Rate ) Rate & Rate 3

D%oratio% &it rate >&"s 12.2 /.5 1.5P; >s"s 30

S!ot 'orat N i - =

T'D - C Poer osets PC1,

PC2 a%d PC3dA 0

Re"etitio% 5

Ta1le A(&*2 $> reference easureent channel7 transport channel paraeters for 5T#$

Paraeter $T6?

$66?Rate ) Rate & Rate 3


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6i!erbi e"oing R&'/(

Raio )r ame F N&*N+' Raio )r ame FN&*N+, Raio )r ame F N&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC e!e"!ion

ail bi! is"ar

,n in!erleaving,3, 7+'((8 04 ,3' 7+'(*8 04 04

2' ,3, 7+'((8 2, ,3'7+'(*8 2' 04 2, 04 2( 04 2* 04

4#( 7+ D< ,#58

4(5

'5'

ail3

CRC',

'40

'40

04

(3$

(#$

'',

ail3'$$

CRC',

Ra!e ma!".ing

's! in!erleaving

CRC e!e"!ion

n)orma!ion a!a

ail bi! is"ar


T; ;

4#(

(3$

'$$

Raio Frame

1egmen!a!ion

slo! segmen!a!ion

($ksps DPCH 7NO in"luing FC

bi!s:,s;mbol pilo!8

Ra!e ma!".ing

's! in!erleaving

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

,3, 7+'((8 ,3' 7+'(*8

D< ,#5

2' ,3, 7+'((8 2, ,3'7+'(*8

(55 7+'((8 (5# 7+'(*8 (55 7+'((8 (5# 7+'(*8

#i8ure A()* !Fnforati9e"2 6hannel codin8 of $> reference easureent channel for 5T#$ !Rate &"


Raio )r ame FN&*N+' Raio )rame FN&*N+, Raio )r ame F N&*N+(Raio )rame FN&*N

n)orma!ion a!a

CRC e!e"!ion

ail bi! is"ar

,n in!erleaving04 04 04

2' 04 2, 04 2( 04 2* 04

'55

4'

ail3

CRC',

(0

(0

04

(3$

(#$

'',

ail3'$$

CRC',

Ra!e ma!".ing

's! in!erleaving

CRC e!e"!ion

n)orma!ion a!a

ail bi! is"ar


4T); 4));

'3#

(3$

'$$

Raio Frame1egmen!a!ion

slo! segmen!a!ion

($ksps DPCH 7NO in"luing FC

bi!s:,s;mbol pilo!8

Ra!e ma!".ing

's! in!erleaving

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

$ ' '*9 9 9 9

$ '

'*

D< #**

'3# 7+ D< #**8

2' 0( 7+(,,8 2, 0( 7+(,,8 2' 0( 7+(,,8 2, 0( 7+(,,8

0( 7+(,,8 0( 7+(,,8 0( 7+(,,8 0( 7+(,,8

'33 7+(,,8 '33 7+(,,8 '33 7+(,,8 '33 7+(,,8

#i8ure A()) !Fnforati9e"2 6hannel codin8 of $> reference easureent channel for 5T#$ !Rate 3"

3GPP

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

8/19/2019 25101-4a0

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$.5 L reere%e o"ressed ode "araetersParameters described in Table .* are used in some test specified in T" *7.+ while parameters described in Table.** are used in some tests specified in T" *7.33.

"et parameters in Table .* are applicable when compressed mode by spreadin factor reduction is used indownlin#. "et * parameters in Table .* are applicable when compressed mode by puncturin is used in downlin#.

Ta1le A(&)2 6opressed ode reference pattern ) paraeters

Paraeter Set ) Set & Note

TGS (Tra%sissio% Ga" Starti% S!ot u&er) 11 11TGL1 (Tra%sissio% Ga" Le%t# 1) / /TGL2 (Tra%sissio% Ga" Le%t# 2) - - C%! o%e a" i% use.TG (Tra%sissio% Ga" ista%e) 0 0 C%! o%e a" i% use.TGPL1 (Tra%sissio% Ga" Patter% Le%t#) 4 4TGPL2 (Tra%sissio% Ga" Patter% Le%t#) - - C%! o%e "atter% i% use.TGPR (Tra%sissio% Ga" Patter% Re"etitio%ou%t)

$ $ ei%ed & #i#er !aers

TG' (Tra%sissio% Ga" o%%etio% 'raeu&er)+

$ $ ei%ed & #i#er !aers

ULL o"ressed ode se!etio% L UL L UL 2 o%iuratio%s "ossi&!eL UL L

UL o"ressed ode et#od S'2 S'2L o"ressed ode et#od S'2 Pu%turi%o%!i%> rae t"e a%d S!ot orat 11A 11$Sra&!i% ode #a%e o oRPP ( Reo7er "eriod "oer o%tro! ode) 0 0DTP ( D%itia! tra%sissio% "oer o%tro! ode) 0 0

Ta1le A(&&2 6opressed ode reference pattern & paraeters

Paraeter Set ) Set & Set 3 Note

TGS (Tra%sissio% Ga" Starti% S!ot u&er) 4 4 10TGL1 (Tra%sissio% Ga" Le%t# 1) / / 10TGL2 (Tra%sissio% Ga" Le%t# 2) - - - C%! o%e a" i% use.TG (Tra%sissio% Ga" ista%e) 0 0 0TGPL1 (Tra%sissio% Ga" Patter% Le%t#) 3 12 11TGPL2 (Tra%sissio% Ga" Patter% Le%t#) - - - C%! o%e "atter% i% use.TGPR (Tra%sissio% Ga" Patter% Re"etitio%ou%t)

$ $ $ ei%ed & #i#er !aers

TG' (Tra%sissio% Ga" o%%etio% 'raeu&er)+

$ $ $ ei%ed & #i#er !aers

ULL o"ressed ode se!etio% L UL L UL L UL 2 o%iuratio%s "ossi&!e.

L UL LUL o"ressed ode et#od S'2 S'2 S'2L o"ressed ode et#od S'2 S'2 Pu%turi%o%!i%> rae t"e a%d S!ot orat 11A 11A 11$Sra&!i% ode #a%e o o oRPP (Reo7er "eriod "oer o%tro! ode) 0 0 0DTP (D%itia! tra%sissio% "oer o%tro! ode) 0 0 0

3GPP

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

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$.6 L reere%e "araeters or P; testsThe parameters for the P1C demodulation tests are specified in Table .*3 and Table .*,.

Ta1le A(&32 Ph4sical channel paraeters for S,66P6?

Paraeter Unit >e9el

#a%%e! &it rate >&"s 60#a%%e! s&o! rate >s"s 30S!ot 'orat Ni - 4T'D - C''Poer osets o T'D a%d Pi!otie!ds re!ati7e to data ie!d

dA 0

Ta1le A(&%2 Transport channel paraeters for S,66P6?

Paraeter P6?

Tra%s"ort #a%%e! u&er 1

Tra%s"ort A!o> Si

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$%%e A (%orati7e)+Pro"aatio% o%ditio%s

A.1 Ge%era!Aoid

A.2 Pro"aatio% o%ditio%s

A.2.1 Stati "ro"aatio% o%ditio%The propaation for the static performance measurement is an dditive Dhite Gaussian 'oise (DG') environment.

'o fadin and multi

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( ))sin(*

t !

B ⋅∆++=∆ ω τ (0.)

The parameters in the e6uation are shown in the followin table.

Ta1le 5(&

Paraeter +alue

$ 5 µsA 1 µs∆ω 40@10-3 s-1

A.2.4 Airt#-eat# "ro"aatio% o%ditio%sThe dynamic propaation conditions for the test of the base band performance is a non fadin propaation channel withtwo taps. The movin propaation condition has two taps- Path and Path* which alternate between $birth$ and $death$.The positions the paths appear are randomly selected with an e6ual probability rate and is shown in 4iure 0.*.

P

1 P 2 P 1

= us>

P 1 P 2

= us>

P 2 P 1

= us>

P 2

#i8ure 5(&2 5irth death propa8ation sequence

. Two paths- Path and Path* are randomly selected from the roup

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$%%e (%orati7e)+o%!i%> P#sia! #a%%e!s

.1 Ge%era!This anne specifies the downlin# physical channels that are needed for settin a connection and channels that areneeded durin a connection.

.2 o%%etio% Set-u"Table 1. describes the downlin# Physical 1hannels that are re6uired for connection set up.

Ta1le 6()2 $ownlink Ph4sical 6hannels required

for connection set,up

Ph4sical 6hannel

P-PD;P-P;S;S-P;PD; $D;P;

.3 uri% o%%etio%The followin clauses- describes the downlin# Physical 1hannels that are transmitted durin a connection i.e.- whenmeasurements are done. 4or these measurements the offset between 5P1C and "1C shall be !ero chips at 'ode 0meanin that "1C is overlappin with the first symbols in 5P1C in the beinnin of 5P1C slot structure.

.3.1 Measuree%t o R #arateristisTable 1.* is applicable for measurements on the /eceiver 1haracteristics (clause ?) with the eception of subclause ?.,(Maimum input level).

Ta1le 6(&2 $ownlink Ph4sical 6hannels transitted durin8 a connection

Ph4sical 6hannel Power ratio

P-PD; P-PD;J* P;J* ? / dAP-P; P-P;J* P;J* ? 5 dAS; S;J* P;J* ? 5 dAPD; PD;J* P;J* ? 2 dAP; Test de"e%de%t "oer

3GPP

3GPP TS &'()*) +%()*(* !&**3,)&"'/Release %

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.3.2 Measuree%t o Perora%e re8uiree%tsTable 1.3 is applicable for measurements on the Performance re6uirements (clause @)- includin subclause ?.,(Maimum input level) and subclause ;.,., (Out

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.3.3 o%%etio% it# o"e%-!oo" tra%sit di7ersit odeTable 1., is applicable for measurements for subclause @.;. (5emodulation of 51C in open loop transmit diversitymode).

Ta1le 6(%2 $ownlink Ph4sical 6hannels transitted durin8 a connection)

Ph4sical 6hannel Power ratio NTE

P-PD; (a%te%%a 1) P-PD;J*1Dor ? -13 dA 1. Tota! P-PD;J*Dor ? -10 dAP-PD; (a%te%%a 2) P-PD;J*2Dor ? -13 dAP-P; (a%te%%a 1) P-P;J*1Dor ? -15 dA 1. STT a""!ied

2. Tota! P-P;J*Dor ? -12 dAP-P; (a%te%%a 2) P-P;J*2Dor ? -15 dA

S; (a%te%%a 1 2) S;J*Dor ? -12 dA

1. TST a""!ied.2. T#is "oer s#a!! &e di7ided

e8ua!! &etee% Priar a%dSeo%dar S%#ro%ous#a%%e!s

PD; (a%te%%a 1) PD;J*1Dor ? -1= dA 1. STT a""!ied2. Tota! PD;J*Dor ? -15 dAPD; (a%te%%a 2) PD;J*2Dor ? -1= dA

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