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Ta0le -','%!&1 Adjacent channel selectivit7 for =ediu$ Ran e #S

E!UTRAchannel

0andwidth of the

lowestFhi hestcarrier

received8= B9

Danted si nal $eanpower 8d#$9

@nterferinsi nal $ean

power 8d#$9

@nterferin si nal centrefre4uenc7 offset to the

lowerFupper #aseStation R6 #andwidth

ed e or su0!0lock ed einside a su0!0lock ap8= B9

T7pe of interferin si nal

1.4 PR+ S+ S 11dB -4 0. 025 1.4M@A +-UTR% si &a"3 PR+ S+ S ?dB -4 1.50 5 3M@A +-UTR% si &a"5 PR+ S+ S 6dB -4 2.5025 5M@A +-UTR% si &a"

10 PR+ S+ S 6dB -4 2.50 5 5M@A +-UTR% si &a"15 PR+ S+ S 6dB -4 2.5125 5M@A +-UTR% si &a"20 PR+ S+ S 6dB -4 2.5025 5M@A +-UTR% si &a"

ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-4.

.6 B"o!>i&

.6.1 Ge&era" '"o!>i& re9uire7e&tThe bloc#in characteristics is a measure of the receiver ability to receive a wanted si nal at its assi ned channel in the presence of an unwanted interferer which are either a ,.:MA! 3MA! or

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.6.1.1 Mi&i7u7 re9uire7e&tThe throu hput shall be Z F

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:peratin#and

5entre 6re4uenc7 of @nterferinSi nal 8= B9

@nterferinSi nal

$ean power 8d#$9

Danted Si nal$ean power

8d#$9

@nterferin si nalcentre fre4uenc7

$ini$u$fre4uenc7 offset

fro$ thelowerFupper

#ase Station R6#andwidth ed e

or su0!0locked e inside asu0!0lock ap

8= B9

T7pe of @nterferin

Si nal

1- , -11,13, 14,

1?,1 , 21-23, 24, 2 ,30, 33-45,

65, 66

( U C"o -20) to ( U C$i $ 20) -43 PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -20)12 50

-15 PR+ S+ S 6dB *D !arrier

?, 26, 2? ( U C"o -20) to ( U C$i $ 10) -43 PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1

( U C$i $ 10)

to

to

( U C"o -20)

12 50


12 ( U C"o -20) to ( U C$i $ 13) -43 PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 13)

toto

( U C"o -20)12 50


1 ( U C"o -20) to ( U C$i $ 1?) -43 PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 1?)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -11)12 50


25 ( U C"o -20) to ( U C$i $ 15) -43 PR+ S+ S 6dB See ta'"e .6.1.1-

2

See ta'"e

.6.1.1-21( U C$i $ 15)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 5)

toto

( U C"o -20)12 50


ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-1.ote or a BS !a#a'"e o 7u"ti'a&d o#eratio&, i& !ase o i&ter eri& si &a" t$at is &ot i& t$e i&-'a&d '"o!>i&

re9ue&! ra& e o t$e o#erati& 'a&d $ere t$e a&ted si &a" is #rese&t, t$e a&ted si &a" 7ea& #o er ise9ua" to PR+ S+ S 1.4 dB.

'OT H Table ?.-.,.,=, assumes that two operatin bands where the downlin# operatin band (see Table

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Ta0le -'&'%'%!%a1 #lockin perfor$ance re4uire$ent for 2ocal Area #S

:peratin#and


@nterferinSi nal

$ean power 8d#$9


8d#$9



fro$ thelowerFupper



8= B9

T7pe of @nterferin

Si nal

1- , -11,13-14,

1?,1 , 21-23, 24, 2 ,30, 33-45,

65, 66


See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -20)12 50


?, 26, 2? ( U C"o -20) to ( U C$i $ 10) -35 PR+ S+ S 6dB See ta'"e .6.1.1-

2

See ta'"e

.6.1.1-21( U C$i $ 10)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 13)

toto

( U C"o -20)12 50


1 ( U C"o -20) to ( U C$i $ 1?) -35 PR+ S+ S 6dB See ta'"e .6.1. 1-2

See ta'"e.6.1.1-2

1( U C$i $ 1?)

toto

( U C"o -20)12 50


20 ( U C"o -11) to ( U C$i $ 20) -35 PR+ S+ S 6dB See ta'"e .6.1. 1-2

See ta'"e.6.1.1-2

1 to ( U C"o -11)

12 50


( U C$i $ 20) to25 ( U C"o -20) to ( U C$i $ 15) -35 PR+ S+ S 6dB See ta'"e .6.1. 1-2

See ta'"e.6.1.1-2

1( U C$i $ 15)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 5)

toto

( U C"o -20)12 50


ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-2ote or a BS !a#a'"e o 7u"ti'a&d o#eratio&, i& !ase o i&ter eri& si &a" t$at is &ot i& t$e i&-'a&d '"o!>i&


'OT H Table ?.-.,.,=,a assumes that two operatin bands where the downlin# operatin band (see Table

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Ta0le -'&'%'%!%01 #lockin perfor$ance re4uire$ent for o$e #S

:peratin#and


@nterferinSi nal

$ean power 8d#$9


8d#$9



fro$ thechannel ed e of

the wantedsi nal 8= B9

T7pe of @nterferin

Si nal

1- , -11,13, 14, 1?,1 , 21-23,24, 2 , 30,33-44, 65,

66


See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -20)12 50


?, 26, 2? ( U C"o -20) to ( U C$i $ 10) -2 PR+ S+ S 14dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 10)

toto

( U C"o -20)12 50


12 ( U C"o -20) to ( U C$i $ 13) -2 PR+ S+ S 14dB See ta'"e .6.1.1-

2

See ta'"e

.6.1.1-21( U C$i $ 13)

toto

( U C"o -20)12 50


1 ( U C"o -20) to ( U C$i $ 1?) -2 PR+ S+ S 14dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 1?)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -11)12 50



See ta'"e.6.1.1-2

1

( U C$i $ 15)

to

to

( U C"o -20)

12 50


ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-3.

'OT H Table ?.-.,.,=,b assumes that two operatin bands where the downlin# operatin band (see Table

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Ta0le -'&'%'%!%c1 #lockin perfor$ance re4uire$ent for =ediu$ Ran e #S

:peratin#and


@nterferinSi nal

$ean power 8d#$9


8d#$9



to thelowerFhi her



8= B9

T7pe of @nterferin

Si nal

1- , -11,13, 14,

1?,1 , 21-23, 24, 2 ,30, 33-45,

65, 66

( U C"o -20) to ( U C$i $ 20) -3? PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 20)

toto

( U C"o -20)12 50


?, 26, 2? ( U C"o -20) to ( U C$i $ 10) -3? PR+ S+ S 6dB See ta'"e .6.1.1-

2

See ta'"e

.6.1.1-21( U C$i $ 10)

toto

( U C"o -20)12 50


12 ( U C"o -20) to ( U C$i $ 13) -3? PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 13)

toto

( U C"o -20)12 50


1 ( U C"o -20) to ( U C$i $ 1?) -3? PR+ S+ S 6dB See ta'"e .6.1.1-2

See ta'"e.6.1.1-2

1( U C$i $ 1?)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1

( U C$i $ 20)

to

to

( U C"o -11)

12 50



See ta'"e.6.1.1-2

1( U C$i $ 15)

toto

( U C"o -20)12 50



See ta'"e.6.1.1-2

1( U C$i $ 5)

toto

( U C"o -20)12 50


ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-4.ote or a BS !a#a'"e o 7u"ti'a&d o#eratio&, i& !ase o i&ter eri& si &a" t$at is &ot i& t$e i&-'a&d '"o!>i&


'OT H Table ?.-.,.,=,c assumes that two operatin bands where the downlin# operatin band (see Table

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Ta0le -'&'%'%!+1 @nterferin si nals for 0lockin perfor$ance re4uire$ent

E!UTRAchannel #D of

thelowestFhi hest

carrier received

8= B9


$ini$u$ offset tothe lowerFupper #ase Station R6

#andwidth ed e or su0!0lock ed e

inside a su0!0lockap 8= B9


1.4 2.1 1.4M@A +-UTR% si &a"3 4.5 3M@A +-UTR% si &a"5 .5 5M@A +-UTR% si &a"10 .5 5M@A +-UTR% si &a"15 .5 5M@A +-UTR% si &a"20 .5 5M@A +-UTR% si &a"

.6.2 *o-"o!atio& it$ ot$er 'ase statio&sThis additional bloc#in re;uirement may be applied for the protection of =5T0/ 1" receivers when G"M 24M/5T0/ or =5T0/ 1" operatin in a different fre;uency band are co=located with an =5T0/ 1". The re;uirement isapplicable to all channel bandwidths supported by the =5T0/ 1".

The re;uirements in this clause assume a 3+ d1 couplin loss between interferin transmitter and =5T0/ 1" receiverand are based on co=location with base stations of the same class.

3GPP

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

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.6.2.1 Mi&i7u7 re9uire7e&tThe throu hput shall be Z F

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5o!located #S t7pe 5entre6re4uenc7 of

@nterferinSi nal = B"

@nterferinSi nal $ean

power d#$"

Danted Si nal$ean power d#$"

T7pe of @nterferin

Si nal

Ma!ro GSM?50 or* M%?50 ?6 ? 4 16 PR+ S+ S 6dB *D !arrier

Ma!ro GSM 00 21 60 16 PR+ S+ S 6dB *D !arrier Ma!ro *S1?00 1?05 1??0 16 P R+ S+ S 6dB *D !arrier Ma!ro P*S1 00 1 30 1 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ; or +-UTR% Ba&d 1 2110 21 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;; or+-UTR% Ba&d 2 1 30 1 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;;; or+-UTR% Ba&d 3 1?05 1??0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;V or+-UTR% Ba&d 4 2110 2155 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d V or+-UTR% Ba&d 5 ?6 ? 4 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d V; or+-UTR% Ba&d 6 ? 5 ??5 16 PR+ S+ S 6dB *D !arrier

D% UTR% Ba&d V;; or+-UTR% Ba&d 2620 26 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d V;;; or +-UTR% Ba&d ? 25 60 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ; or+-UTR% Ba&d 1?44. 1? . 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d or+-UTR% Ba&d 10 2110 21 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ; or+-UTR% Ba&d 11 14 5. 14 5. 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;; or+-UTR% Ba&d 12 2 - 46 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;;;;or +-UTR% Ba&d 13 46 - 56 16 PR+ S+ S 6dB *D !arrier

D% UTR% Ba&d ;Vor +-UTR% Ba&d 14 5? - 6? 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 1 34 - 46 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 1? ?60 - ? 5 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;or +-UTR% Ba&d 1 ? 5 - ? 0 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d or +-UTR% Ba&d 20 1 - ?21 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;or +-UTR% Ba&d 21 14 5. 1510. 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;;or +-UTR% Ba&d 22 3510 35 0 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 23 21?0 - 2200 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 24 1525 155 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d Vor +-UTR% Ba&d 25 1 30 1 5 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d V;or +-UTR% Ba&d 26 ?5 ? 4 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 2 ?52 - ?6 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 2? 5? ?03 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 2 1 - 2? 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 30 2350 2360 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 31 462.5-46 .5 16 PR+ S+ S 6dB *D !arrier D% UTR% Ba&d ;;or +-UTR% Ba&d 32

1452-14 6( :T+ 3) 16 PR+ S+ S 6dB *D !arrier

D% UTR% T Ba&d a) or+-UTR% Ba&d 33 1 00-1 20 16 PR+ S+ S 6dB *D !arrier D% UTR% T Ba&d a) or+-UTR% Ba&d 34 2010-2025 16 PR+ S+ S 6dB *D !arrier D% UTR% T Ba&d ') or+-UTR% Ba&d 35

1?50-1 10 16 PR+ S+ S 6dB *D !arrier D% UTR% T Ba&d ') or 1 30-1 0 16 PR+ S+ S 6dB *D !arrier

3GPP

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

8/16/2019 36104-d20

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+-UTR% Ba&d 36D% UTR% T Ba&d !) or+-UTR% Ba&d 3 1 10-1 30 16 PR+ S+ S 6dB *D !arrier D% UTR% T Ba&d d) or+-UTR% Ba&d 3? 25 0-2620 16 PR+ S+ S 6dB *D !arrier D% UTR% T Ba&d ) or+-UTR% Ba&d 3 1??0-1 20 16 PR+ S+ S 6dB *D !arrier

D% UTR% T Ba&d e) or+-UTR% Ba&d 40 2300-2400 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 41 24 6 - 26 0 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 42 3400-3600 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 43 3600-3?00 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 44 03-?03 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 45 144 -146 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 65 2110 2200 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 66 2110 2200 16 PR+ S+ S 6dB *D !arrier D% +-UTR% Ba&d 6 3?- 5? 16 PR+ S+ S 6dB *D !arrier

ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-1.:T+ 1 +/!e#t or a BS o#erati& i& Ba&d 13, t$ese re9uire7e&ts do &ot a##" $e& t$e i&ter eri&

si &a" a""s it$i& a& o t$e su##orted u#"i&> o#erati& 'a&d or i& t$e 10 M@A i77ediate"outside a& o t$e su##orted u#"i&> o#erati& 'a&d.

or a BS o#erati& i& 'a&d 13 t$e re9uire7e&ts do &ot a##" $e& t$e i&ter eri& si &a"a""s it$i& t$e re9ue&! ra& e 6?- M@A.

:T+ 2 So7e !o7'i&atio&s o 'a&ds 7a &ot 'e #ossi'"e to !o-site 'ased o& t$e re9uire7e&tsa'o8e. T$e !urre&t state-o -t$e-art te!$&o"o does &ot a""o a si& "e e&eri! so"utio& or!o-"o!atio& o UTR% T or +-UTR% T it$ +-UTR% o& adKa!e&t re9ue&!ies or30dB BS-BS 7i&i7u7 !ou#"i& "oss. @o e8er, t$ere are !ertai& site-e& i&eeri& so"utio&st$at !a& 'e used. T$ese te!$&i9ues are addressed i& TR 25. 42

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Ta0le -'&'+'%!+1 #lockin perfor$ance re4uire$ent for 2ocal Area #S when co!located with #S inother fre4uenc7 0ands'

3GPP

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

8/16/2019 36104-d20

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power d#$"


T7pe of @nterferin

Si nal

Pi!o GSM?50 ?6 ? 4 - PR+ S+ S 6dB *D !arrier Pi!o GSM 00 21 60 - PR+ S+ S 6dB *D !arrier Pi!o *S1?00 1?05 1??0 -4 P R+ S+ S 6dB *D !arrier Pi!o P*S1 00 1 30 1 0 -4 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ; or +-UTR% Ba&d 1 2110 21 0 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;; or +-UTR% Ba&d 2 1 30 1 0 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;;; or+-UTR% Ba&d 3 1?05 1??0 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;V or+-UTR% Ba&d 4 2110 2155 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d V or +-UTR% Ba&d 5 ?6 ? 4 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d V; or+-UTR% Ba&d 6 ? 5 ??5 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d V;; or+-UTR% Ba&d 2620 26 0 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d V;;; or+-UTR% Ba&d ? 25 60 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ; or+-UTR% Ba&d 1?44. 1? . -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d or +-UTR% Ba&d 10 2110 21 0 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ; or+-UTR% Ba&d 11 14 5. - 14 5. -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;; or+-UTR% Ba&d 12 2 - 46 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;;;; or +-UTR% Ba&d 13 46 - 56 -6 PR+ S+ S 6dB *D !arrier

% UTR% Ba&d ;V or+-UTR% Ba&d 14 5? - 6? -6 PR+ S+ S 6dB *D !arrier

% +-UTR% Ba&d 1 34 - 46 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 1? ?60 - ? 5 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d ; or

+-UTR% Ba&d 1 ? 5 - ? 0 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d or

+-UTR% Ba&d 20 1 - ?21 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d ; or

+-UTR% Ba&d 21 14 5. 1510. -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d ;; or

+-UTR% Ba&d 22 3510 35 0 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 23 21?0-2200 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 24 1525 155 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d V

or +-UTR% Ba&d 25 1 30 1 5 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d V;

or +-UTR% Ba&d 26 ?5 ? 4 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 2 ?52 - ?6 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 2? 5? ?03 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 2 1 - 2? -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 30 2350 2360 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 31 462.5-46 .5 -6 PR+ S+ S 6dB *D !arrier % UTR% Ba&d ;;

or +-UTR% Ba&d 321452-14 6( :T+ 3) -6 PR+ S+ S 6dB *D !arrier

% UTR% T Ba&d a) or+-UTR% Ba&d 33 1 00-1 20 -6 PR+ S+ S 6dB *D !arrier

% UTR% T Ba&d a) or+-UTR% Ba&d 34 2010-2025 -6 PR+ S+ S 6dB *D !arrier

% UTR% T Ba&d ') or+-UTR% Ba&d 35

1?50-1 10 -6 PR+ S+ S 6dB *D !arrier % UTR% T Ba&d ') or

+-UTR% Ba&d 36 1 30-1 0 -6 PR+ S+ S 6dB *D !arrier

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% UTR% T Ba&d !) or+-UTR% Ba&d 3 1 10-1 30 -6 PR+ S+ S 6dB *D !arrier

% UTR% T Ba&d d) or+-UTR% Ba&d 3? 25 0-2620 -6 PR+ S+ S 6dB *D !arrier

% UTR% T Ba&d ) or +-UTR% Ba&d 3 1??0-1 20 -6 PR+ S+ S 6dB *D !arrier

% +-UTR% UTR% TBa&d e) or Ba&d 40 2300-2400 -6 PR+ S+ S 6dB *D !arrier

% +-UTR% Ba&d 41 24 6 - 26 0 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 42 3400-3600 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 43 3600-3?00 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 44 03-?03 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 45 144 -146 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 46 5150-5 25 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 65 2110 2200 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 66 2110 2200 -6 PR+ S+ S 6dB *D !arrier % +-UTR% Ba&d 6 3?- 5? -6 PR+ S+ S 6dB *D !arrier ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-2.:T+ 1 +/!e#t or a BS o#erati& i& Ba&d 13, t$ese re9uire7e&ts do &ot a##" $e& t$e i&ter eri&




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Ta0le -'&'+'%!31 #lockin perfor$ance re4uire$ent for E!UTRA =ediu$ Ran e #S when co!locatedwith #S in other fre4uenc7 0ands'

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power d#$"


T7pe of @nterferin

Si nal

Mi!ro MR GSM?50 ?6 ? 4 ? PR+ S+ S 6dB *D !arrier Mi!ro MR GSM 00 21 60 ? PR+ S+ S 6dB *D !arrier Mi!ro MR *S1?00 1?05 1??0 ? PR+ S+ S 6dB *D !arrier Mi!ro MR P*S1 00 1 30 1 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ; or +-UTR% Ba&d 1 2110 21 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;; or+-UTR% Ba&d 2 1 30 1 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;;; or+-UTR% Ba&d 3 1?05 1??0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;V or+-UTR% Ba&d 4 2110 2155 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d V or+-UTR% Ba&d 5 ?6 ? 4 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d V; or+-UTR% Ba&d 6 ? 5 ??5 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d V;; or+-UTR% Ba&d 2620 26 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d V;;; or +-UTR% Ba&d ? 25 60 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ; or+-UTR% Ba&d 1?44. 1? . ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d or+-UTR% Ba&d 10 2110 21 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ; or+-UTR% Ba&d 11 14 5. 14 5. ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;; or+-UTR% Ba&d 12 2 46 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;;;;or +-UTR% Ba&d 13 46 56 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;Vor +-UTR% Ba&d 14 5? 6? ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 1 34 46 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 1? ?60 ? 5 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;or +-UTR% Ba&d 1 ? 5 ? 0 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d or +-UTR% Ba&d 20 1 ?21 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;or +-UTR% Ba&d 21 14 5. 1510. ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;;or +-UTR% Ba&d 22 3510 35 0 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 23 21?0 2200 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 24 1525 155 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d Vor +-UTR% Ba&d 25 1 30 1 5 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d V;or +-UTR% Ba&d 26 ?5 ? 4 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 2 ?52 ?6 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 2? 5? ?03 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 2 1 2? ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 30 2350 2360 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 31 462.5 46 .5 ? PR+ S+ S 6dB *D !arrier MR UTR% Ba&d ;;or +-UTR% Ba&d 32

1452-14 6( :T+ 3) ? PR+ S+ S 6dB *D !arrier

MR +-UTR% Ba&d 33 1 00 1 20 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 34 2010 2025 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 35 1?50 1 10 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 36 1 30 1 0 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 3 1 10 1 30 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 3? 25 0 2620 ? PR+ S+ S 6dB *D !arrier

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MR +-UTR% Ba&d 3 1??0 1 20 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 40 2300 2400 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 41 24 6 26 0 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 42 3400 3600 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 43 3600 3?00 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 44 03 ?03 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 45 144 146 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 46 5150 5 25 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 65 2110 2200 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 66 2110 2200 ? PR+ S+ S 6dB *D !arrier MR +-UTR% Ba&d 6 3?- 5? ? PR+ S+ S 6dB *D !arrier

ote PR+ S+ S de#e&ds o& t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-4.:T+ 1 +/!e#t or a BS o#erati& i& Ba&d 13, t$ese re9uire7e&ts do &ot a##" $e& t$e i&ter eri&




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Ta0le -'-'%!%1 General spurious e$ission $ini$u$ re4uire$ent

6re4uenc7 ran e =a@A1 G@A 12. 5 G@A -4 dB7 1 M@A

12. 5 G@A - 5t$ $ar7o&i!o t$e u##er re9ue&!

ed e o t$e U o#erati&'a&d i& G@A

-4 dB7 1 M@A %##"ies o&" or Ba&ds 22, 42 a&d 43.

:T+ T$e re9ue&! ra& e 'et ee& 2.5 BD*$a&&e" 'e"o t$e irst !arrier re9ue&! a&d2.5 BD*$a&&e" a'o8e t$e "ast !arrier re9ue&! tra&s7itted ' t$e BS, $ere BD *$a&&e" is t$e!$a&&e" 'a&d idt$ a!!ordi& to Ta'"e 5.6-1, 7a 'e e/!"uded ro7 t$e re9uire7e&t.@o e8er, re9ue&!ies t$at are 7ore t$a& 10 M@A 'e"o t$e "o est re9ue&! o a& o t$eBS su##orted do &"i&> o#erati& 'a&d or 7ore t$a& 10 M@A a'o8e t$e $i $est re9ue&! o a& o t$e BS su##orted do &"i&> o#erati& 'a&d s$a"" &ot 'e e/!"uded ro7 t$ere9uire7e&t. or BS !a#a'"e o 7u"ti'a&d o#eratio&, t$e e/!"usio& a##"ies or a"" su##ortedo#erati& 'a&ds. or BS !a#a'"e o 7u"ti-'a&d o#eratio& $ere 7u"ti#"e 'a&ds are 7a##edo& se#arate a&te&&a !o&&e!tors, t$e si& "e-'a&d re9uire7e&ts a##" a&d t$e e/!"uded

re9ue&! ra& e is o&" a##"i!a'"e or t$e o#erati& 'a&d su##orted o& ea!$ a&te&&a!o&&e!tor.

&n addition to the re;uirements in Table ?.?.,=, the power of any spurious emission shall not e ceed the levels specifiedfor Protection of the =5T0/ 944 1" receiver of own or different 1" in subclause -.-.:.* and for 2o=e istence withother systems in the same eo raphical area in subclause -.-.:.3. &n addition the co=e istence re;uirements for co=located base stations specified in subclause -.-.:.: may also be applied.

.? Re!ei8er i&ter7odu"atio&Third and hi her order mi in of the two interferin 09 si nals can produce an interferin si nal in the band of thedesired channel. &ntermodulation response rejection is a measure of the capability of the receiver to receive a wantedsi nal on its assi ned channel fre;uency in the presence of two interferin si nals which have a specific fre;uency

relationship to the wanted si nal. &nterferin si nals shall be a 2C si nal and an =5T0/ si nal as specified in /nne2.

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.?.1 Mi&i7u7 re9uire7e&tThe throu hput shall be Z F

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Ta0le -'.'%!31 Narrow0and inter$odulation perfor$ance re4uire$ent for Dide Area #S

E!UTRAchannel

0andwidth of the

lowestFhi hest carrier received

8= B9

Danted si nal $ean

power 8d#$9

@nterferin si nal

$ean power 8d#$9

@nterferin R#centre fre4uenc7offset fro$ the

lowerFupper #aseStation R6

#andwidth ed e or su0!0lock ed e

inside a su0!0lockap 8k B9


1.4 PR+ S+ S 6dB-52 2 0 *D-52 0 1.4 M@A +-UTR% si &a", 1RB

3 PR+ S+ S 6dB-52 2 0 *D-52 ?0 3.0 M@A +-UTR% si &a", 1RB

5 PR+ S+ S 6dB-52 360 *D-52 1060 5 M@A +-UTR% si &a", 1RB

10 PR+ S+ S 6dB( )-52 325 *D-52 1240 5 M@A +-UTR% si &a", 1RB

15 PR+ S+ S 6dB( )-52 3?0 *D-52 1600 5M@A +-UTR% si &a", 1RB

20 PR+ S+ S 6dB( )-52 345 *D-52 1 ?0 5M@A +-UTR% si &a", 1RB

ote PR+ S+ S is re"ated to t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-1.ote ;&ter eri& si &a" !o&sisti& o o&e resour!e '"o!> #ositio&ed at t$e stated o set, t$e !$a&&e" 'a&d idt$ o t$e

i&ter eri& si &a" is "o!ated adKa!e&t" to t$e "o er u##er Base Statio& R Ba&d idt$ ed e.ote T$is re9uire7e&t s$a"" a##" o&" or a R* %1-3 7a##ed to t$e re9ue&! ra& e at t$e !$a&&e" ed e adKa!e&t

to t$e i&ter eri& si &a"s

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Ta0le -'.'%!)1 Narrow0and inter$odulation perfor$ance re4uire$ent for 2ocal Area #S

E!UTRAchannel

0andwidth of the


8= B9

Danted si nal $ean

power 8d#$9

@nterferin si nal

$ean power 8d#$9

@nterferin R#centre fre4uenc7

offset fro$ thelowerFupper #ase

Station R6#andwidth ed e or

su0!0lock ed einside a su0!0lock

8k B9









i&ter eri& si &a" is "o!ated adKa!e&t" to t$e "o er u##er Base Statio& R Ba&d idt$ ed e.ote T$is re9uire7e&t s$a"" a##" o&" or a R* %1-3 7a##ed to t$e re9ue&! ra& e at t$e !$a&&e" ed e

adKa!e&t to t$e i&ter eri& si &a"s.

Ta0le -'.'%!,1 Narrow0and inter$odulation perfor$ance re4uire$ent for o$e #S

E!UTRAchannel

0andwidth 8= B9

Danted si nal $eanpower 8d#$9

@nterferin si nal$ean power 8d#$9

@nterferin R#centre fre4uenc7offset fro$ the

channel ed e of thewanted si nal 8k B9








ote PR+ S+ S is re"ated to t$e !$a&&e" 'a&d idt$ as s#e!i ied i& Ta'"e .2.1-3.ote ;&ter eri& si &a" !o&sisti& o o&e resour!e '"o!> #ositio&ed at t$e stated o set, t$e !$a&&e" 'a&d idt$ o

t$e i&ter eri& si &a" is "o!ated adKa!e&t" to t$e !$a&&e" ed e o t$e a&ted si &a".ote T$is re9uire7e&t s$a"" a##" o&" or a R* %1-3 7a##ed to t$e re9ue&! ra& e at t$e !$a&&e" ed e


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Ta0le -'.'%!&1 Narrow0and inter$odulation perfor$ance re4uire$ent for =ediu$ Ran e #S

E!UTRAchannel

0andwidth of the


8= B9

Danted si nal $ean

power 8d#$9

@nterferin si nal

$ean power 8d#$9

@nterferin R#centre fre4uenc7

offset to thelowerFhi her #ase

Station R6#andwidth ed e or

su0!0lock ed einside a su0!0lock

ap 8k B9


1.4 PR+ S+ S 6dBX4 2 0 *DX4 0 1.4 M@A +-UTR% si &a", 1RB

3 PR+ S+ S 6dBX4 2 0 *DX4 ?0 3.0 M@A +-UTR% si &a", 1RB

5 PR+ S+ S 6dBX4 360 *DX4 1060 5 M@A +-UTR% si &a", 1RB

10 PR+ S+ S 6dB( )X4 325 *DX4 1240 5 M@A +-UTR% si &a", 1RB

15 PR+ S+ S 6dB( )X4 3?0 *DX4 1600 5M@A +-UTR% si &a", 1RB

20 PR+ S+ S 6dB( )X4 345 *DX4 1 ?0 5M@A +-UTR% si &a", 1RB


i&ter eri& si &a" is "o!ated adKa!e&t" to t$e "o er u##er Base Statio& R Ba&d idt$ ed e.ote T$is re9uire7e&t s$a"" a##" o&" or a R* %1-3 7a##ed to t$e re9ue&! ra& e at t$e !$a&&e" ed e


? Per or7a&!e re9uire7e&t

?.1 Ge&era"Performance re;uirements for the 1" are specified for the fi ed reference channels defined in /nne / and the propa ation conditions in /nne 1. The re;uirements only apply to those 902s that are supported by the base station.

5nless stated otherwise performance re;uirements apply for a sin le carrier only. Performance re;uirements for a 1"supportin carrier a re ation are defined in terms of sin le carrier re;uirements. 9or 944 operation the re;uirementsin clause @ shall be met with the transmitter(s) on.

'OT H &n normal operatin conditions the 1" in 944 operation is confi ured to transmit and receive at the sametime. The transmitter may be off for some of the tests as specifed in 3-.,:, J:K.

The "'0 used in this clause is specified based on a sin le carrier and defined asH

"'0 " B '

ChereH

" is the total si nal ener y in the subframe on a sin le antenna port.

' is the noise ener y in a bandwidth correspondin to the transmission bandwidth over the duration of a

subframe.

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?.2 Per or7a&!e re9uire7e&ts or PUS*@

?.2.1 Re9uire7e&ts i& 7u"ti#at$ adi& #ro#a atio& !o&ditio&sThe performance re;uirement of P5"2A is determined by a minimum re;uired throu hput for a iven "'0. The

re;uired throu hput is e pressed as a fraction of ma imum throu hput for the 902s listed in /nne /. The performance re;uirements assume A/0D retransmissions. 9or *T test the A/0D retransmissions for two codewordsare independent.

Ta0le .'+'%!% Test para$eters for testin PUS5

Para$eter *alueMa/i7u7 &u7'er o @%RQ tra&s7issio&s 4

RV se9ue&!e 0, 2, 3, 1, 0, 2, 3, 1U#"i&>-do &"i&> a""o!atio& or T *o& i uratio& 1 (2 2)

?.2.1.1 Mi&i7u7 re9uire7e&tsThe throu hput shall be e;ual to or lar er than the fraction of ma imum throu hput stated in the tables @.*.,.,=, to@.*.,.,=- at the iven "'0 for ,T and in tables @.*.,.,=? to @.*.,.,=,* for *T two layer spatial multiple intransmission.

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Ta0le .'+'%'%!% =ini$u$ re4uire$ents for PUS5 C %') = B 5hannel #andwidthC %T<

Nu$0er of TJantennas

Nu$0er of RJantennas

57clic prefi< Propa ationconditions

andcorrelation

$atri< Anne<#"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!+ =ini$u$ re4uire$ents for PUS5 C 3 = B 5hannel #andwidthC %T<




andcorrelation

$atri<Anne< #"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!3 =ini$u$ re4uire$ents for PUS5 C , = B 5hannel #andwidthC %T<



57clic prefi< Propa ationconditions a

andcorrelation

$atri< Anne<#"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!) =ini$u$ re4uire$ents for PUS5 C %( = B 5hannel #andwidthC %T<




andcorrelation

$atri<Anne< #"

6R5Anne< A"

6raction of $a

8/16/2019 36104-d20

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

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Ta0le .'+'%'%!, =ini$u$ re4uire$ents for PUS5 C %, = B 5hannel #andwidthC %T<




andcorrelation

$atri<Anne< #"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!& =ini$u$ re4uire$ents for PUS5 C +( = B 5hannel #andwidthC %T<




andcorrelation

$atri<Anne< #"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!- =ini$u$ re4uire$ents for PUS5 C %') = B 5hannel #andwidthC +T<

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas

57clicprefi<

Propa ationconditions and

correlation$atri<Anne< #"

6R5Anne< A"

6raction of $a

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Ta0le .'+'%'%!%% =ini$u$ re4uire$ents for PUS5 C %, = B 5hannel #andwidthC +T<

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas

57clicprefi<


correlation$atri<Anne< #"

6R5Anne< A"

6raction of $a

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?.2.2.1 Mi&i7u7 re9uire7e&tsThe throu hput shall be Z ?+Y of the ma imum throu hput of the reference measurement channel as specified in/nne / for the movin 5 at the "'0 iven in table @.*.*.,=,.

Ta0le .'+'+'%!% =ini$u$ re4uire$ents for U2 ti$in adjust$ent


Nu$0er of RJantennas 57clic prefi<

5hannel#andwidth

8= B9

=ovinpropa ation

conditions andcorrelation

$atri< Anne<#"

6R5Anne< A"

SNR8d#9

1 2 or7a"

1.4 S!e&ario 1 o % -1 13.1S!e&ario 2 o %?-1 -1.

3 S!e&ario 1 o % -2 13.4S!e&ario 2 o %?-2 -1.5

5 S!e&ario 1 o % -3 13.2S!e&ario 2 o %?-3 -1.6

10 S!e&ario 1 o % -4 13.?

S!e&ario 2 o %?-4 -1.?15 S!e&ario 1 o % -5 14.0S!e&ario 2 o %?-5 -1.?

20 S!e&ario 1 o % -6 13.S!e&ario 2 o %?-6 -1.?

?.2.3 Re9uire7e&ts or $i $ s#eed trai&The performance re;uirement of P5"2A for hi h speed train is determined by a minimum re;uired throu hput for a

iven "'0. The re;uired throu hput is e pressed as a fraction of ma imum throu hput for the 902s listed in /nne /.The performance re;uirements assume A/0D retransmissions. The performance re;uirements for hi h speed train areoptional.

This re;uirement shall not be applied to 7ocal /rea 1" and Aome 1".

Ta0le .'+'3!% Test para$eters for hi h speed train

Para$eter *alueMa/i7u7 &u7'er o @%RQ tra&s7issio&s 4RV se9ue&!e 0, 2, 3, 1, 0, 2, 3, 1U#"i&>-do &"i&> a""o!atio& or T *o& i uratio& 1 (2 2)Su' ra7es i& $i!$ PUS*@ is tra&s7itted or

su' ra7e Y0 a&d Y? i& radio ra7es or $i!$ S 7od 4 F 0su' ra7e Y6 i& radio ra7es or $i!$ S 7od 4 F 1su' ra7e Y4 i& radio ra7es or $i!$ S 7od 4 F 2su' ra7e Y2 i& radio ra7es or $i!$ S 7od 4 F 3

or Tsu' ra7e Y2 i& ea!$ radio ra7e

Su' ra7es i& $i!$ PU**@ is tra&s7itted( ote1, ote 2)

or su' ra7e Y5 i& radio ra7es

or Tsu' ra7e Y3 i& ea!$ radio ra7e

ote 1 T$e !o& i uratio& o PU**@ ( or7at 2) is o#tio&a".ote 2 T$e S R 8a"ues #er a&te&&a s$a"" 'e set to -4.5 dB a&d -1.5 dB or S!e&ario 1 a&d 3, res#e!ti8e" .

?.2.3.1 Mi&i7u7 re9uire7e&tsThe throu hput shall be e;ual to or lar er than the fraction of ma imum throu hput stated in table @.*.3.,=, at the iven"'0.

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Ta0le .'+'3'%!% =ini$u$ re4uire$ents of PUS5 for hi h speed train

5hannel#andwidth

8= B9

57clicprefi<

6R5Anne< A"

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas


correlation $atri<Anne< #"

6raction of $a

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Ta0le .'+')'%!% =ini$u$ re4uire$ents for ARK!A5L $ultiple

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?.2.5.1 Mi&i7u7 re9uire7e&tsThe residual 17 0 shall not e ceed *Y at the iven "'0 in Table @.*.

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Ta0le .'3'+'%!% =ini$u$ re4uire$ents for sin le user PU55 for$at %aC %T<

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas

57clicPrefi<

Propa ationconditions

andcorrelation

$atri<Anne< #"

5hannel #andwidth F SNR 8d#9%') = B 3 = B , = B %( = B %, = B +( = B

1 2 or7a" +P% 5 o -2.5 -3. -4.? -5.4 -5.3 -5.1+V% 5 o -4.5 -5.1 -5.1 -5.0 -5.1 -5.1

+V% 0 o -4. -5.2 -5.2 -5.1 -5.2 -5.1+TU 300 o -5.0 -5.1 -4. -5.0 -5.2 -5.2

+/te&ded +TU 0 o -4.2 -4.3 -4.1 -4.3 -4.2 -4.34 or7a" +P% 5 o - . -?.4 -?. -?. -?. - .0

+V% 5 o -?.? - .1 - .1 -?.? -?. -?.+V% 0 o -?. - .0 - .0 -?.? - .0 -?.?

+TU 300 o -?. -?. -?. -?. -?. -?.?+/te&ded +TU 0 o - . -?.1 - . -?.1 -?.0 -?.0

? or7a" +P% 5 o -11.2 -11.5 -12.2 -12.3 -12.3 -12.3+V% 5 o -12.0 -12.0 -12.1 -12.1 -12.3 -12.2+V% 0 o -12.0 -12.1 -12.2 -12.1 -12.3 -12.1

+TU 300 o -11.6 -11.6 -11.6 -11.? -11.6 -11.?+/te&ded +TU 0 o -10.5 -10. -10.6 -10. -10.6 -10.6

ote ot a##"i!a'"e or o!a" %rea BS a&d @o7e BS.

Ta0le .'3'+'%!+ =ini$u$ re4uire$ents for sin le user PU55 for$at %aC +T<

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas

57clicPrefi<

Propa ationconditions

andcorrelation

$atri<Anne< #"


2 2 or7a" +P% 5 o -4.6 -4. -6.4 -6.5 -6.5 -6.+V% 0 o -5.? -5. -6.4 -5. -6.4 -6.4

4 or7a" +P% 5 o -?.5 -?.5 - .3 - .5 - .5 - .5+V% 0 o - .0 - .2 - .3 - .3 - .4 - .5

2 ? or7a"+P% 5 o -11.4 -11.5 -11. -12.0 -11. -12.0+V% 0 o -11. -11.? -11.? -11.? -11.? -11.?

?.3.3 *Q; #er or7a&!e re9uire7e&ts or PU**@ or7at 2The 2D& bloc# error probability (17 0) is defined as the conditional probability of incorrectly decodin the 2D&information when the 2D& information is sent. /ll 2D& information shall be decoded (no e clusion due to 4TE).

The 2D& information bit payload per sub=frame is e;ual to : bits.Test parameters for P522A transmission on two antenna ports are presented in /nne /.,+.

?.3.3.1 Mi&i7u7 re9uire7e&tsThe 2D& bloc# error probability shall not e ceed ,Y at the "'0 iven in table @.3.3.,=, for ,T and in table @.3.3.,=*for *T case.

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Ta0le .'3'3'%!% =ini$u$ re4uire$ents for PU55 for$at +C %T<

u7'er o T

a&te&&as

u7'er o R

a&te&&as

* !"i!Pre i/


correlation$atri< Anne<

#"

*$a&&e" Ba&d idt$ S R

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?.3.5.1 Mi&i7u7 re9uire7e&tsThe /2% missed detection probability shall not e ceed ,Y at the "'0 iven in table @.3.

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Ta0le .'3'&'%!+ =ini$u$ re4uire$ents for PU55 for$at 3C %&AN 0its

u7'er o T/

a&te&&as

Nu$0er of RJ

antennas

57clicPrefi<

Propa ation5onditions

andcorrelation

$atri<Anne< #"

5hannel #andwidth F SNR 8d#9

%')= B 3= B ,= B %( = B %,= B +(= B

1 2 or7a" +P% 5 o - - - -1.3 -1.2 -1.2+V% 0 o - - - -0.? -0. -0.

4 or7a" +P% 5 o - - - -5.3 -5.3 -5.4+V% 0 o - - - -5.0 -5.1 -5.1

? or7a" +P% 5 o - - - -?.? -?.? -?.+V% 0 o - - - -?. -?.? -?.

?.3. %* to %* re9uire7e&ts or PU**@ or7at 3The '/2% to /2% detection probability is the probability that an /2% bit is falsely detected when an '/2% bit wassent on the particular bit position where the '/2% to /2% detection probability is defined as followsH

( ) bits) '/2%Total([

bits/2%asdecoded bits '/2%[ bits)/2% '/2%Prob(P522A =→

whereH

\ bits) '/2%Total([ denotes the total number of '/2% bits transmitted

\ ( ) bits/2%asdecoded bits '/2%[ denotes the number of '/2% bits decoded as /2% bits at the receiver i.e.the number of received /2% bits

\ '/2% bits in the definition do not contain the '/2% bits which are mapped from 4TE i.e. '/2% bitsreceived when 4TE is sent should not be considered.

/2%B'/2% repetitions are disabled for P522A transmission. 0andom codeword selection is assumed.

'oteH '/2% to /2% re;uirement only applies to the P522A format3 ,-/' bits cases.

?.3. .1 Mi&i7u7 re9uire7e&tThe '/2% to /2% probability shall not e ceed + ,Y at the "'0 iven in table @.3.?.,=, for ,- /' bits.

Ta0le .'3'-'%!% =ini$u$ re4uire$ents for PU55 for$at 3C %&AN 0its

u7'er o T/

a&te&&as

Nu$0er of RJ

antennas

57clicPrefi<

Propa ation5onditions

andcorrelation$atri<

Anne< #"

5hannel #andwidth F SNR 8d#9

%')= B 3= B ,= B %( = B %,= B +(= B

1 2 or7a" +P% 5 o - - - 1.4 1.6 1.5+V% 0 o - - - 2.1 1. 1.

4 or7a" +P% 5 o - - - -3.1 -3.3 -3.5+V% 0 o - - - -2. -3.1 -3.2

? or7a" +P% 5 o - - - - .3 - .3 - .3+V% 0 o - - - - .0 - .1 - .2

?.3.? *Q; #er or7a&!e re9uire7e&ts or PU**@ or7at 2 it$ T dete!tio&The re;uirements in this subclause apply to a 1" supportin P522A format * with 4TE. &t is optional for a 1" tosupport P522A format * with 4TE.

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/ 1" may meet the P522A format * re;uirements specified in "ection @.3.@., instead of re;uirements specified in"ection @.3.3.,.

The 2D& bloc# error probability (17 0) is defined as the sum of theH

= conditional probability of incorrectly decodin the 2D& information when the 2D& information is sent and

= conditional probability of detectin 5 transmission as 4TE when the 2D& information is sent.The 2D& false alarm probability is defined as the conditional probability of false detectin the 2D& informationtransmitted from 5 when no 2D& information is sent.

The 2D& information bit payload per sub=frame is e;ual to : bits.

Test parameters for P522A transmission on two antenna ports are presented in /nne /.,+.

?.3.?.1 Mi&i7u7 re9uire7e&tsThe 2D& false alarm probability and the 2D& bloc# error probability shall not e ceed ,+Y and ,Y respectively at the"'0 iven in table @.3.@.,=,.

Ta0le .'3'.'%!% =ini$u$ re4uire$ents for PU55 for$at + with TJ detection

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas

57clicPrefi<


correlation$atri< Anne<

#"


1 2 or7a" +V% 5 o -3. -4.0 -4.4 -4.0 -4.2 -4.2+TU 0 o -3. -4.0 -3. -4.1 -3. -4.1

2 2 or7a" +V% 5 o -5.3 -5.2 -5.5 -5.4 -5.3 -5.5ote ot a##"i!a'"e or Dide %rea BS a&d Mediu7 Ra& e BS.ote ot a##"i!a'"e or o!a" %rea BS a&d @o7e BS.

?.4 Per or7a&!e re9uire7e&ts or PR%*@

?.4.1 PR%*@ a"se a"ar7 #ro'a'i"itThe false alarm re;uirement is valid for any number of receive antennas for all frame structures and for any channel bandwidth.

The false alarm probability is the conditional total probability of erroneous detection of the preamble (i.e. erroneousdetection from any detector) when input is only noise.

?.4.1.1 Mi&i7u7 re9uire7e&tThe false alarm probability shall be less than or e;ual to +.,Y.

?.4.2 PR%*@ dete!tio& re9uire7e&tsThe probability of detection is the conditional probability of correct detection of the preamble when the si nal is present. There are several error cases detectin different preamble than the one that was sent not detectin a preambleat all or correct preamble detection but with the wron timin estimation. 9or /CG' a timin estimation error occursif the estimation error of the timin of the stron est path is lar er than ,.+:us. 9or T5?+ a timin estimation erroroccurs if the estimation error of the timin of the stron est path is lar er than *.+@us. The stron est path for the timinestimation error refers to the stron est path (i.e. avera e of the delay of all paths havin the same hi hest ain 3,+nsfor T5) in the power delay profile.

The test preambles for normal mode are listed in table /.-=, and the test preambles for hi h speed mode are listed in/.-=*.

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?.4.2.1 Mi&i7u7 re9uire7e&tsThe probability of detection shall be e;ual to or e ceed FFY for the "'0 levels listed in table @.:.*.,=, and @.:.*.,=*.

The re;uirements for 1urst format : are optional and only valid for base stations supportin T44. The re;uirements for hi h speed mode (table @.:.*.,=*) are only valid for the base stations supportin hi h speed mode.

Ta0le .')'+'%!% PRA5 $issed detection re4uire$ents for Nor$al =ode

Nu$0er of TJ

antennas

Nu$0er of RJ

antennas


correlation $atri<Anne< #"

6re4uenc7offset

SNR 8d#9#urst

for$at(

#urstfor$at

%

#urstfor$at

+

#urstfor$at

3

#urstfor$at )

1 2 %DG 0 -14.2 -14.2 -16.4 -16.5 - .2+TU 0 o 2 0 @A -?.0 - .? -10.0 -10.1 -0.1

4 %DG 0 -16. -16. -1 .0 -1?.? - .?+TU 0 o 2 0 @A -12.1 -11. -14.1 -13. -5.1

? %DG 0 -1 .? -1 .4 -21.5 -21.3 -11.?

+TU 0 o 2 0 @A -16.3 -15. -1 .? -1 .5 -?.6ote ot a##"i!a'"e or o!a" %rea BS a&d @o7e BS.

The re;uirements in Table @.:.*.,=* shall not be applied to 7ocal /rea 1" and Aome 1".

Ta0le .')'+'%!+ PRA5 $issed detection re4uire$ents for i h speed =ode




correlation$atri< Anne< #"

6re4uenc7offset

SNR 8d#9#urst

for$at (#urst

for$at %#urst

for$at +#urst

for$at 3

1 2 %DG 0 -14.1 -14.2 -16.3 -16.6+TU 0 o 2 0 @A - .4 - .3 - .3 - .5

%DG 625 @A -12.4 -12.3 -14.4 -14.4 %DG 1340 @A -13.4 -13.5 -15.5 -15.4 %DG 0 -16. -16.6 -1?. -1?.?

+TU 0 o 2 0 @A -11.? -11.4 -13. -13. %DG 625 @A -14. -14.6 -16.? -16.? %DG 1340 @A -15. -15.5 -1 .? -1 .?

? %DG 0 -1 .3 -1 .1 -20. -21.0+TU 0 o 2 0 @A -15.6 -15.1 -1 .0 -1 .0

%DG 625 @A -1 . -1 .4 -1 .3 -1 .4 %DG 1340 @A -1?. -1?.4 -20.5 -20.5

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*$a&&e" a!!ess #ro!edures

.1 o &"i&> !$a&&e" a!!ess #ro!edure9or downlin# operation in 1and :- a channel access procedure for P4"2A transmission as described in T" 3-.*,32lause ,

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%&&e/ % (&or7ati8e)Re ere&!e 7easure7e&t !$a&&e"sThe parameters for the reference measurement channels are specified in clause /., for reference sensitivity and in=channel selectivity and in clause /.* for dynamic ran e.

/ schematic overview of the encodin process for the reference measurement channels is provided in 9i ure /=,.

0eceiver re;uirements in the present document are defined with a throu hput stated relative to the Ma imumthrou hput of the 902. The Ma imum throu hput for an 902 e;uals the Payload si!e ] the 'umber of uplin#subframes per second. 9or 944 ,+++ uplin# sub=frames per second are used.

6i ure A!%' Sche$atic overview of the encodin process

%.1 i/ed Re ere&!e *$a&&e"s or re ere&!e se&siti8ita&d i&-!$a&&e" se"e!ti8it (QPS , RF1 3)

The parameters for the reference measurement channels are specified in Table /.,=, for reference sensitivity and in=channel selectivity.

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Ta0le A'%!% 6R5 para$eters for reference sensitivit7 and in!channel selectivit7

Reference channel A%!% A%!+ A%!3 A%!) A%!, %""o!ated resour!e '"o!>s 6 15 25 3

T-: M S 7'o"s #er su' ra7e 12 12 12 12 12Modu"atio& QPS QPS QPS QPS QPS*ode rate 1 3 1 3 1 3 1 3 1 3Pa "oad siAe ('its) 600 1544 2216 256 36Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 0 0 0

u7'er o !ode '"o!>s - * 1 1 1 1 1*oded '"o!> siAe i&!"udi& 12'its tre""ister7i&atio& ('its)

1??4 4 16 6 32 ?52 2? 2

Tota" &u7'er o 'its #er su'- ra7e 1 2? 4320 200 ?64 25 2Tota" s 7'o"s #er su'- ra7e ?64 2160 3600 432 12 6

%.2 i/ed Re ere&!e *$a&&e"s or d &a7i! ra& e(16Q%M, RF2 3)

The parameters for the reference measurement channels are specified in Table /.*=, for dynamic ran e.

Ta0le A'+!% 6R5 para$eters for d7na$ic ran e

Reference channel A+!% A+!+ A+!3 %""o!ated resour!e '"o!>s 6 15 25

T-: M S 7'o"s #er su' ra7e 12 12 12Modu"atio& 16Q%M 16Q%M 16Q%M*ode rate 2 3 2 3 2 3Pa "oad siAe ('its) 2344 5 2 12Tra&s#ort '"o!> *R* ('its) 24 24 24*ode '"o!> *R* siAe ('its) 0 0 24u7'er o !ode '"o!>s - * 1 1 2*oded '"o!> siAe i&!"udi& 12'its tre""ister7i&atio& ('its)

116 1?060 14 ??

Tota" &u7'er o 'its #er su'- ra7e 3456 ?640 14400Tota" s 7'o"s #er su'- ra7e ?64 2160 3600

%.3 i/ed Re ere&!e *$a&&e"s or #er or7a&!ere9uire7e&ts (QPS 1 3)

Ta0le A'3!% 6R5 para$eters for perfor$ance re4uire$ents KPSL %F3"

Reference channel A3!% A3!+ A3!3 A3!) A3!, A3!& A3!- %""o!ated resour!e '"o!>s 1 6 15 25 50 5 100

T-: M S 7'o"s #er su' ra7e 12 12 12 12 12 12 12Modu"atio& QPS QPS QPS QPS QPS QPS QPS*ode rate 1 3 1 3 1 3 1 3 1 3 1 3 1 3Pa "oad siAe ('its) 104 600 1544 2216 5160 6 12 102 6Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 0 0 0 24 24

u7'er o !ode '"o!>s - * 1 1 1 1 1 2 2*oded '"o!> siAe i&!"udi& 12'its tre""ister7i&atio& ('its)

3 6 1??4 4 16 6 32 15564 101?? 15564

Tota" &u7'er o 'its #er su'- ra7e 2?? 1 2? 4320 200 14400 21600 2??00Tota" s 7'o"s #er su'- ra7e 144 ?64 2160 3600 200 10?00 14400

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%.4 i/ed Re ere&!e *$a&&e"s or #er or7a&!ere9uire7e&ts (16Q%M 3 4)

Ta0le A')!% 6R5 para$eters for perfor$ance re4uire$ents %&KA= 3F)"

Reference channel A)!% A)!+ A)!3 A)!) A)!, A)!& A)!- A)!. %""o!ated resour!e '"o!>s 1 1 6 15 25 50 5 100

T-: M S 7'o"s #ersu' ra7e

12 10 12 12 12 12 12 12

Modu"atio& 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M*ode rate 3 4 3 4 3 4 3 4 3 4 3 4 3 4 3 4Pa "oad siAe ('its) 40? 3 6 2600 6456 106?0 213?4 32?56 43?16Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 0 24 24 24 24 24

u7'er o !ode '"o!>s - * 1 1 1 2 2 4 6 ?*oded '"o!> siAe i&!"udi&12'its tre""is ter7i&atio&('its)

130? 1212 ??4 ?04 16140 16140 16524 16524

Tota" &u7'er o 'its #er su'-ra7e 5 6 4?0 3456 ?640 14400 2??00 43200 5 600Tota" s 7'o"s #er su'- ra7e 144 120 ?64 2160 3600 200 10?00 14400

%.5 i/ed Re ere&!e *$a&&e"s or #er or7a&!ere9uire7e&ts (64Q%M 5 6)

Ta0le A',!% 6R5 para$eters for perfor$ance re4uire$ents &)KA= ,F&"

Reference channel A,!% A,!+ A,!3 A,!) A,!, A,!& A,!- %""o!ated resour!e '"o!>s 1 6 15 25 50 5 100

T-: M S 7'o"s #er su' ra7e 12 12 12 12 12 12 12Modu"atio& 64Q%M 64Q%M 64Q%M 64Q%M 64Q%M 64Q%M 64Q%M*ode rate 5 6 5 6 5 6 5 6 5 6 5 6 5 6Pa "oad siAe ('its) 12 43 2 11064 1?336 366 6 55056 53 6Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 24 24 24 24 24

u7'er o !ode '"o!>s - * 1 1 2 3 6 13*oded '"o!> siAe i&!"udi& 12'its tre""ister7i&atio& ('its)

2220 13260 16 16 1?444 1?444 1?444 1 4?4

Tota" &u7'er o 'its #er su'- ra7e ?64 51?4 12 60 21600 43200 64?00 ?6400Tota" s 7'o"s #er su'- ra7e 144 ?64 2160 3600 200 10?00 14400

%.6 PR%*@ Test #rea7'"esTa0le A'&!% Test prea$0les for Nor$al =ode

#urst for$at Ncs 2o ical se4uence inde< v0 13 22 321 16 22 22 16 22 03 0 22 04 10 0 0

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Ta0le A'&!+ Test prea$0les for i h speed =ode

#urst for$at Ncs 2o ical se4uence inde< v0 15 3?4 01 202 3?4 02 202 3?4 03 23 3?4 0

%. i/ed Re ere&!e *$a&&e"s or U ti7i& adKust7e&t(S!e&ario 1)

Ta0le A'-!% 6R5 para$eters for U2 ti$in adjust$ent Scenario %"

Reference channel A-!% A-!+ A-!3 A-!) A-!, A-!& %""o!ated resour!e '"o!>s 3 6 12 25 25 25

T-: M S 7'o"s #er su' ra7e 12 12 12 12 12 12

Modu"atio& 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M 16Q%M*ode rate 3 4 3 4 3 4 3 4 3 4 3 4Pa "oad siAe ('its) 12?? 2600 5160 106?0 106?0 106?0Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 0 24 24 24

u7'er o !ode '"o!>s - * 1 1 1 2 2 2*oded '"o!> siAe i&!"udi& 12'its tre""is ter7i&atio& ('its) 3 4? ??4 15564 16140 16140 16140Tota" &u7'er o 'its #er su'- ra7e 1 2? 3456 6 12 14400 14400 14400Tota" s 7'o"s #er su'- ra7e 432 ?64 1 2? 3600 3600 3600SRS 'a&d idt$ !o& i uratio& (See TS 36.211, 5.5.3) ( ote1)

5 3 2 5 2

SRS-Ba&d idt$ ' (See TS 36.211, 5.5.3) ( ote 1, 2) 0 0 0 0 0 1:T+ 1. T$e tra&s7issio& o SRS is o#tio&a":T+ 2. PUS*@ resour!e '"o!>s s$a"" 'e i&!"uded i& SRS resour!e '"o!>s

%.? i/ed Re ere&!e *$a&&e"s or U ti7i& adKust7e&t(S!e&ario 2)

Ta0le A'.!% 6R5 para$eters for U2 ti$in adjust$ent Scenario +"

Reference channel A.!% A.!+ A.!3 A.!) A.!, A.!& %""o!ated resour!e '"o!>s 3 6 12 25 25 25

T-: M S 7'o"s #er su' ra7e 12 12 12 12 12 12

Modu"atio& QPS QPS QPS QPS QPS QPS*ode rate 1 3 1 3 1 3 1 3 1 3 1 3Pa "oad siAe ('its) 256 600 1224 2216 2216 2216Tra&s#ort '"o!> *R* ('its) 24 24 24 24 24 24*ode '"o!> *R* siAe ('its) 0 0 0 0 0 0

u7'er o !ode '"o!>s - * 1 1 1 1 1 1*oded '"o!> siAe i&!"udi& 12'its tre""is ter7i&atio& ('its) ?52 1??4 3 56 6 32 6 32 6 32Tota" &u7'er o 'its #er su'- ra7e ?64 1 2? 3456 200 200 200Tota" s 7'o"s #er su'- ra7e 432 ?64 1 2? 3600 3600 3600SRS 'a&d idt$ !o& i uratio& (See TS 36.211, 5.5.3) ( ote 1) 5 3 2 5 2SRS-Ba&d idt$ ' (See TS 36.211, 5.5.3) ( ote 1, 2) 0 0 0 0 0 1

:T+ 1. T$e tra&s7issio& o SRS is o#tio&a":T+ 2. PUS*@ resour!e '"o!>s s$a"" 'e i&!"uded i& SRS resour!e '"o!>s

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%. Mu"ti user PU**@ test

Ta0le A'/!% Test para$eters for $ulti user PU55 case

Resource inde< for PU55 for$ats %F%aF%0

(,)P522An

Relative power 8d#9

Relative ti$in8ns9

Tested si &a" 2 - -;&ter erer 1 1 0 0;&ter erer 2 -3;&ter erer 3 14 3

:T+1 T$e o""o i& #ara7eters s$a"" 'e used , siAe i&!"udi& 12'its tre""is ter7i&atio&('its)

106?

Tota" &u7'er o 'its #er su'- ra7e ?64Tota" s 7'o"s #er su'- ra7e 432

ote !ode rate #er TT;

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%&&e/ B (&or7ati8e)Pro#a atio& !o&ditio&s

B.1 Stati! #ro#a atio& !o&ditio&The propa ation for the static performance measurement is an /dditive Chite Gaussian 'oise (/CG') environment. 'o fadin or multi=paths e ist for this propa ation model.

B.2 Mu"ti-#at$ adi& #ro#a atio& !o&ditio&sTables 1.*=, 1.*=3 show multi=path delay profiles that are used for the performance measurements in multi=pathfadin environment. /ll taps have classical 4oppler spectrum defined asH

(27/"")

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/ multipath fadin propa ation condition is defined by a combination of a multi=path delay profile and a ma imum4oppler fre;uency f D which is either < ?+ or 3++ A!. &n addidion *++ A! 4oppler fre;uency is specified for 57 timinadjustment performance re;uirement.

9or carrier a re ation re;uirements the fadin of the si nals for each carrier shall be independent.

B.3 @i $ s#eed trai& !o&ditio&Ai h speed train conditions are as followsH

"cenario ,H Open space

"cenario 3H Tunnel for multi=antennas

The hi h speed train conditions for the test of the baseband performance are two non=fadin propa ation channels in both scenarios. 9or 1" with 0 diversity defined in scenario , the 4oppler shift variation is the same betweenantennas.

4oppler shift for both scenarios is iven byH( ) ( )t f t f d s θ cos= (1.3.,)

where ( )t f s is the 4oppler shift and d f is the ma imum 4oppler fre;uency. The cosine of an le( )t θ is iven byH

( )( )**min **

cos(t D D

(t Dt

s

s

−+−=θ ( Dt s≤≤+ (1.3.*)

( )

( )**

min

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6i ure #'3!%1 oppler shift trajector7 for scenario %

6i ure #'3!+1 oppler shift trajector7 for scenario 3

B.4 Mo8i& #ro#a atio& !o&ditio&s9i ure 1.:=, illustrates the movin propa ation conditions for the test of the 57 timin adjustment performance. Thetime difference between the reference timin and the first tap is accordin ;uation (1.:=,). The timin difference between movin 5 and stationary 5 is e;ual to ^_ = (T # −3,)×,- T s. The relative timin amon all taps is fi ed. The parameters for the movin propa ation conditions are shown in Table 1.:=,.

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t ,

P ,

∆τ

0ef

t +

6i ure #')!%1 =ovin propa ation conditions

)sin(*

t #

⋅∆⋅=∆ ω τ (1.:=,)

Ta0le #')!%1 Para$eters for U2 ti$in adjust$ent

Para$eter Scenario % Scenario +*$a&&e" 7ode" Statio&ar U+ %DG

Mo8i& U+ +TU200 %DG

U+ s#eed 120 >7 $ 350 >7 $2P len th or7a" or7a"

/ 10 µs 10 µs∆ω 0.04 s -1 0.13 s -1

'OT ,H Multipath fadin propa ation conditions for "cenario , were derived for 1and , with additional roundinapplied to the 4oppler fre;uency calculated for the specified 5 speed.

'OT *H &n "cenario * 4oppler shift is not ta#en into account.

B.5 Mu"ti-%&te&&a !$a&&e" 7ode"sThe M&MO channel correlation matrices defined in 1.< apply for the antenna confi uration usin uniform linear arraysat both 5 and e'ode1.

B.5.1 e i&itio& o M;M: *orre"atio& Matri!es

Table 1.

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Table 1.

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Ta0le #','+!% 5orrelation for i h =ediu$ and 2ow 2evel

2ow correlation =ediu$ 5orrelation i h 5orrelationα β α β α β0 0 0. 0.3 0. 0.

The correlation matrices for hi h medium and low correlation are defined in Table 1.

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Ta0le #','+!+1 =@=: correlation $atrices for hi h correlation

%

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Ta0le #','+!31 =@=: correlation $atrices for $ediu$ correlation

%

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The cross=polari!ed antenna elements with RB=:< de rees polari!ation slant an les are deployed at e'1. 9or one TEantenna case antenna element with RF+ de ree polari!ation slant an le is deployed at 5 . 9or multiple TE antennascase cross=polari!ed antenna elements with RF+B+ de rees polari!ation slant an les are deployed at 5 .9or the cross=polari!ed antennas the ' antennas are labelled such that antennas for one polari!ation are listed from , to 'B* and antennas for the other polari!ation are listed from 'B*R, to ' where ' is the number of TE or 0E antennas.

#',A'% efinition of =@=: 5orrelation =atrices usin crosspolariBed antennas

9or the channel spatial correlation matri the followin is usedH

( ) T Spat )L )' )L eNB )L R P R R P = ⊗Γ ⊗

Chere

= )' R is the spatial correlation matri at the 5 with same polari!ation

= eNB R is the spatial correlation matri at the e'1 with same polari!ation

= )LΓ is a polari!ation correlation matri,

= )L P is a permutation matri and

= T )(• denotes transpose.

Table 1.

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9or *=antenna transmitter usin one pair of cross=polari!ed antenna elements,)' R = .

9or :=antenna transmitter usin two pairs of cross=polari!ed antenna elements ],

,)' R

β

β

= ÷

.

B.5%.2.2 S#atia" *orre"atio& Matri!es at e B side9or *=antenna receiver usin one pair of cross=polari!ed antenna elements ,eNB R = .

9or :=antenna receiver usin two pairs of cross=polari!ed antenna elements ],

,eNB R

α

α

= ÷

.

9or @=antenna receiver usin four pairs of cross=polari!ed antenna elements

,BF :BF

,BF] ,BF :BF

:BF] ,BF] ,BF

] :BF] ,BF]

,,

,

,

eNB R

α α α α α α α α α

α α α

÷= ÷ ÷

.

#',A'3 =@=: 5orrelation =atrices usin cross polariBedantennas

The values for parameters* + and1 for low spatial correlation are iven in Table 1.

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%&&e/ * (&or7ati8e)*$ara!teristi!s o t$e i&ter eri& si &a"sThe interferin si nal shall be a P5"2A containin data and reference symbols. 'ormal cyclic prefi is used. The datacontent shall be uncorrelated to the wanted si nal and modulated accordin to clause < of T"3-.*,,. Mappin ofP5"2A modulation to receiver re;uirement are specified in table 2=,.,.

Ta0le 5!%1 =odulation of the interferin si nal

Receiver re4uire$ent =odulation;&-!$a&&e" se"e!ti8it 16Q%M %dKa!e&t !$a&&e" se"e!ti8ita&d &arro -'a&d '"o!>i&

QPS

B"o!>i& QPSRe!ei8er i&ter7odu"atio& QPS

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%&&e/ (&or7ati8e)+&8iro&7e&ta" re9uire7e&ts or t$e BS e9ui#7e&tThe 1" e;uipment shall fulfil all the re;uirements in the full ran e of environmental conditions for the relevantenvironmental class from the relevant & 2 specifications listed below

-+ ?*,=3=3 L"tationary use at weather protected locationsL J,3K

-+ ?*,=3=: L"tationary use at non weather protected locationsL J,:K

'ormally it should be sufficient for all tests to be conducted usin normal test conditions e cept where otherwise stated.9or uidance on the use of test conditions to be used in order to show compliance refer to T" 3-.,:,.

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%&&e/ + (&or7ati8e)+rror Ve!tor Ma &itude

+.1 Re ere&!e #oi&t or 7easure7e&tThe >M shall be measured at the point after the 99T and a !ero=forcin (`9) e;uali!er in the receiver as depicted in9i ure .,=, below.

6i ure E'%!%1 Reference point for E*= $easure$ent

+.2 Basi! u&it o 7easure7e&tThe basic unit of >M measurement is defined over one subframe (,ms) in the time domain and RB BW N subcarriers(,@+#A!) in the fre;uency domainH

∑ ∑∑ ∑∈ ∈

∈ ∈ −=T t t " f

T t t " f

f t &

f t & f t 2 '3M

)(

*

)(

*

)(

)()($

where

T is the set of symbols with the considered modulation scheme bein active within the subframe

)( t " is the set of subcarriers within the 011C N subcarriers with the considered modulation scheme bein active insymbolt

)( f t & is the ideal si nal reconstructed by the measurement e;uipment in accordance with relevant T models

)($ f t 2 is the modified si nal under test defined in .3.

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'oteH /lthou h the basic unit of measurement is one subframe the e;uali!er is calculated over ,+ subframemeasurement periods to reduce the impact of noise in the reference symbols. The boundaries of the ,+ subframemeasurement periods need not be ali ned with radio frame boundaries.

+.3 Modi ied si &a" u&der test&mplicit in the definition of >M is an assumption that the receiver is able to compensate a number of transmitterimpairments. The si nal under test is e;ualised and decoded accordin toH

)(a

a*a

*

)(a.)a(

)($ f /t f /( f /

e f aeet ( z ""T

f t 2 ϕ

π π

⋅

⋅∆−=∆∆−

where

)( ( z is the time domain samples of the si nal under test.

t a∆ is the sample timin difference between the 99T processin window in relation to nominal timin of the ideal

si nal. 'ote that two timin offsets are determined the correspondin >M is measured and the ma imum used asdescribed in .?.

f a

∆ is the 09 fre;uency offset.

)(a f ϕ is the phase response of the TE chain.

)( f a is the amplitude response of the TE chain.

+.4 +sti7atio& o re9ue&! o setThe observation period for determinin the fre;uency offset f

a∆ shall be , ms.

+.5 +sti7atio& o ti7e o setThe observation period for determinin the sample timin differencet a∆ shall be , ms.

&n the followin c∆ represents the middle sample of the >M window of len thW (defined in .M window of len thW is centred on the measured cyclic prefi of the consideredO94M symbol. To minimi!e the estimation error the timin shall be based on the primary synchroni!ation si nal andreference si nals. To limit time distortion of any transmit filter the reference si nals in the , outer 01s are not ta#eninto account in the timin estimation

Two values for t a∆ are determinedH

−+∆=∆*

aa W ct l α and

+∆=∆*

aa W ct h where +=α if W is odd and ,=α if W is even.

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Chen the cyclic prefi len th varies from symbol to symbol (e. . time multiple ed M1M" and unicast) thenT shall be further restricted to the subset of symbols with the considered modulation scheme bein active and with theconsidered cyclic prefi len th type.

+.5.1 Di&do "e& t$Table .M window len th (C) for normal 2P the cyclic prefi len thcp N is ,-+ for symbols + and ,:: for symbols ,=-.

Table .M window len th (C) for e tended 2P the cyclic prefi len thcp N is

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"ynchronisation 2hannel (all other modulation symbols are set to + >) nominal carrier fre;uency nominal amplitudeand phase for each applicable subcarrier nominal timin .

*. Perform time avera in at each reference si nal subcarrier of the comple ratios the time=avera in len th is ,+subframes. Prior to the avera in of the phases( ) f t iϕ an unwrap operation must be performed accordin tothe followin definitionH The unwrap operation corrects the radian phase an les of( ) f t iϕ by addin multiplesof *]P& when absolute phase jumps between consecutive time instances ti are reater then or e;ual to the jumptolerance of P& radians. This process creates an avera e amplitude and phase for each reference si nal subcarrier(i.e. every third subcarrier with the e ception of the reference subcarrier spacin across the 42 subcarrier).

( )

N

f t a f a

N

ii∑

== ,)(

( )

N

f t f

N

ii∑

== ,)(ϕ

ϕ

Chere N is the number of reference symbol time=domain locationst i from ` (f t) for each reference si nalsubcarrier f .

3. The e;uali!er coefficients for amplitude and phase )(b f a and )(b f ϕ at the reference si nal subcarriers areobtained by computin the movin avera e in the fre;uency domain of the time=avera ed reference si nalsubcarriers i.e. every third subcarrier. The movin avera e window si!e is ,F. 9or reference subcarriers at ornear the ed e of the channel the window si!e is reduced accordin ly as per fi ure .-=,.

:. Perform linear interpolation from the e;uali!er coefficients )(b f a and )(b f ϕ to compute coefficients )(a f a)(a f ϕ for each subcarrier.

6i ure E'&!%1 Reference su0carrier s$oothin in the fre4uenc7 do$ain

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%&&e/ (;& or7ati8e) U& a&ted e7issio& re9uire7e&ts or7u"ti-!arrier BS

.1 Ge&era"&n subclause -.- unwanted emission re;uirements for sin le carrier or multi=carrier 1" are specified. This multi=carrier1" corresponds to a multi=carrier 1" for =5T0/ or a 1" supportin intra=band conti uous 2/. The followin two pra matic scenarios are considered in this anne H

= multi=carrier 1" of different =5T0/ channel bandwidths coverin all scenarios e cept the channel bandwidthof the outermost carrier less than < MA!

= multi=carrier 1" of =5T0/ and 5T0/ coverin all scenarios e cept the channel bandwidth of the outermostcarrier less than < MA!.

/ll scenarios for channel bandwidths of the outermost carrier less than < MA! are for further study. The uidelines below assumes that the power spectral density of the multiple carriers is the same. /ll other combinations of multiplecarriers are ffs.

'ote ,H 9urther information and analysis for these scenarios can be found in T0 3-.F:* JFK.

.2 Mu"ti-!arrier BS o di ere&t +-UTR% !$a&&e"'a&d idt$s

9or a multi=carrier =5T0/ 1" transmittin a roup of carriers of different channel bandwidths the channel bandwidthof the outermost carriers (Z< MA!) should be considered for /270 and Operatin band unwanted emissionre;uirements. That is the correspondin re;uirements for the channel bandwidth of each of the outermost carriersshould be applied at the respective side of the roup of transmitted carriers.

.3 Mu"ti-!arrier BS o +-UTR% a&d UTR%9or a multi=carrier 1" transmittin a roup of carriers of =5T0/ and 5T0/ the 0/T bein used on the outermostcarriers (Z< MA!) should be considered for /270 and Operatin band unwanted emission re;uirements. That is thecorrespondin re;uirements for the 0/T bein used on each of the outermost carriers should be applied at the respectiveside of the roup of transmitted carriers.

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%&&e/ G (;& or7ati8e) Re io&a" re9uire7e&t or #rote!tio&o TT

G.1 Re io&a" re9uire7e&t or #rote!tio& o TTThe uropean 2ommunications 2ommittee ( 22) has adopted the 22 4ecision on harmonised conditions forMobileB9i ed 2ommunications 'etwor#s operatin in the band ?F+=@-* MA!N J,*K applicable for 1" operatin in band*+. The decision defines a re;uirement for Out=of=bloc# 1 M baseline re;uirements for mobileBfi edcommunications networ# (M92') base stations within the spectrum allocated to the broadcastin (4TT) serviceNwhere three different cases / 1 and 2 for protectin broadcastin 4TT are defined. These cases can be applied on a per=channel andBor per=re ion basis i.e. for the same channel different cases can be applied in different eo raphic area(e. . area related to 4TT covera e) and different cases can be applied to different channels in the same eo raphic area.

9or band *+ compliance with the re ulatory re;uirements in urope referenced above can be assessed based on themanufacturer s declaration of PM ' specified in subclause -.-.3.3 to ether with the deployment characteristics.Ma imum output Power in ,+ MA! (P,+MA!) is also declared by the manufacturer. The parameters Gant and ' ant aredeployment specific parameters related to the deployment of the 1" where Gant is the antenna ain and 'ant is thenumber of antennas.

9or each channel (') the &0P level is calculated usin H P&0P ' P M ' R Gant R ,+]lo (' ant). The re ulatoryre;uirement in J,*K limits the &0P level to the Ma imum level in Table G=, for the protection case(s) defined in there ulation.

Ta0le G!%1 E@RP li$its for protection of 0roadcastin TT" service

5ase =easure$ent

filter centrefre4uenc7

5ondition on #S

$a%(= BNote"

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