LTE UE standards

8/13/2019 LTE UE standards

1/108

Release 11

Foreword

This Technical Specification (TS) has been produced by the 3rdGeneration Partnership Project (3GPP).

The contents of the present document are subject to continuing work within the TSG and may change following formalTSG approal. Should the TSG modify the contents of the present document! it will be re"released by the TSG with anidentifying change of release date and an increase in ersion number as follows#

$ersion %.y.&

'here#

% the first digit#

presented to TSG for information

* presented to TSG for approal

3 or greater indicates TSG approed document under change control.

y the second digit is incremented for all changes of substance! i.e. technical enhancements! corrections!updates! etc.

& the third digit is incremented when editorial only changes hae been incorporated in the document.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)15


2/108

Release 11

1 Scope

. The present document establishes the minimum +, characteristics and minimum performance re-uirements for "/T+0 /ser -uipment (/).

2 References

The following documents contain proisions which! through reference in this te%t! constitute proisions of the present

document.

" +eferences are either specific (identified by date of publication! edition number! ersion number! etc.) or non"specific.

" ,or a specific reference! subse-uent reisions do not apply.

" ,or a non"specific reference! the latest ersion applies. 1n the case of a reference to a 3GPP document (including aGS2 document)! a non"specific reference implicitly refers to the latest ersion of that document in the same Release asthe present document.

4 3GPP T+ *.567# 8$ocabulary for 3GPP Specifications8.

*4 1T/"+ +ecommendation S2.3*5"6! 8/nwanted emissions in the spurious domain8

34 1T/"+ +ecommendation 2.797# 82easurement uncertainty as it applies to test limits for the

terrestrial component of 1nternational 2obile Telecommunications"*6668.

94 3GPP TS 3:.*# 8Physical ;hannels and 2odulation8.

74 3GPP TS 3:.**# 82ultiple%ing and channel coding8.

:4 3GPP TS 3:.*3# 8Physical layer procedures8.


3/108

Release 11

Carrier aggregation band: 0 set of one or more operating bands across which multiple carriers are aggregated with aspecific set of technical re-uirements.

Carrier aggregation bandwidth class: 0 class defined by the aggregated transmission bandwidth configuration andma%imum number of component carriers supported by a /.

Carrier aggregation configuration# 0 combination of ;0 operating band(s) and ;0 bandwidth class(es) supported by

a /.

Channel edge: The lowest and highest fre-uency of the carrier! separated by the channel bandwidth.

Channel bandwidth:The +, bandwidth supporting a single "/T+0 +, carrier with the transmission bandwidth

configured in the uplink or downlink of a cell. The channel bandwidth is measured in 2?& and is used as a referencefor transmitter and receier +, re-uirements.

Contiguous carriers: 0 set of two or more carriers configured in a spectrum block where there are no +, re-uirementsbased on co"e%istence for un"coordinated operation within the spectrum block.

Contiguous resource allocation: 0 resource allocation of consecutie resource blocks within one carrier or acrosscontiguously aggregated carriers. The gap between contiguously aggregated carriers due to the nominal channel spacing

is allowed.

Contiguous spectrum:Spectrum consisting of a contiguous block of spectrum with no sub"block gaps.

Enhanced performance requirements type A:This defines performance re-uirements assuming as baseline receierreference symbol based linear minimum mean s-uare error interference rejection combining.

Inter-band carrier aggregation:;arrier aggregation of component carriers in different operating bands.

@AT# ;arriers aggregated in each band can be contiguous or non"contiguous.

Intra-band contiguous carrier aggregation: ;ontiguous carriers aggregated in the same operating band.

Intra-band non-contiguous carrier aggregation:@on"contiguous carriers aggregated in the same operating band.

Lower sub"blockedge: The fre-uency at the lower edge of one sub"block. 1t is used as a fre-uency reference point forboth transmitter and receier re-uirements.

on-contiguous spectrum:Spectrum consisting of two or more sub"blocks separated by sub"block gap(s).

!ub-bloc":This is one contiguous allocated block of spectrum for transmission and reception by the same /. There

may be multiple instances of sub"blocks within an +, bandwidth.

!ub-bloc" bandwidth: The bandwidth of one sub"block.

!ub-bloc" gap: 0 fre-uency gap between two consecutie sub"blocks within an +, bandwidth! where the +,re-uirements in the gap are based on co"e%istence for un"coordinated operation.

!ynchroni#ed operation: Aperation of TBB in two different systems! where no simultaneous uplink and downlink

occur.

$nsynchroni#ed operation: Aperation of TBB in two different systems! where the conditions for synchroni&ed

operation are not met.

$pper sub-bloc" edge: The fre-uency at the upper edge of one sub"block. 1t is used as a fre-uency reference point forboth transmitter and receier re-uirements.

3.2 Symbols

,or the purposes of the present document! the following symbols apply#

C';hannel ;hannel bandwidthC';hannel!block Sub"block bandwidth! e%pressed in 2?&. C';hannel!blockD ,edge!block!high" ,edge!block!low.C';hannelE;0 0ggregated channel bandwidth! e%pressed in 2?&.C'GC $irtual guard band to facilitate transmitter (receier) filtering aboe F below edge ;;s.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)17


4/108

Release 11

RSE Transmitted energy per + for reference symbols during the useful part of the symbol! i.e.

e%cluding the cyclic prefi%! (aerage power normali&ed to the subcarrier spacing) at the e@ode C

transmit antenna connector

sEG The aeraged receied energy per + of the wanted signal during the useful part of the symbol!

i.e. e%cluding the cyclic prefi%! at the / antenna connector aerage power is computed within a

set of +s used for the transmission of physical channels (including user specific +Ss whenpresent)! diided by the number of +s within the set! and normali&ed to the subcarrier spacing, ,re-uency

,1nterferer(offset) ,re-uency offset of the interferer,1nterferer ,re-uency of the interferer

,; ,re-uency of the carrier centre fre-uency,;!block! high ;enter fre-uency of the highest transmittedFreceied carrier in a sub"block.

,;!block! low ;enter fre-uency of the lowest transmittedFreceied carrier in a sub"block.,;0Elow The centre fre-uency of the lowest carrier! e%pressed in 2?&.

,;0Ehigh The centre fre-uency of the highest carrier! e%pressed in 2?&.,BHElow The lowest fre-uency of the downlink operating band

,BHEhigh The highest fre-uency of the downlink operating band,/HElow The lowest fre-uency of the uplink operating band

,/HEhigh The highest fre-uency of the uplink operating band,edge!block!low The lower sub"block edge! where ,edge!block!low D ,;!block!low " ,offset.,edge!block!high The upper sub"block edge! where ,edge!block!high D ,;!block!high I ,offset.,edgeElow The lower edgeof aggregated channel bandwidth! e%pressed in 2?&.,edgeEhigh The higher edgeof aggregated channel bandwidth! e%pressed in 2?&.

,offset ,re-uency offset from ,;Ehighto the higher edgeor ,;Elowto the lower edge.

,offset!block!low Separation between lower edge of a sub"block and the center of the lowest component carrierwithin the sub"block

,offset!block!high Separation between higher edge of a sub"block and the center of the highest component carrierwithin the sub"block

,AAC The boundary between the "/T+0 out of band emission and spurious emission domains.

oI The power spectral density of the total input signal (power aeraged oer the useful part of the

symbols within the transmission bandwidth configuration! diided by the total number of + for

this configuration and normalised to the subcarrier spacing) at the / antenna connector!including the own"cell downlink signal

orI The total transmitted power spectral density of the own"cell downlink signal (power aeraged oer

the useful part of the symbols within the transmission bandwidth configuration! diided by thetotal number of + for this configuration and normalised to the subcarrier spacing) at the e@ode C

transmit antenna connector

orIG The total receied power spectral density of the own"cell downlink signal (power aeraged oer

the useful part of the symbols within the transmission bandwidth configuration! diided by thetotal number of + for this configuration and normalised to the subcarrier spacing) at the /

antenna connector

otI The receied power spectral density of the total noise and interference for a certain + (aerage

power obtained within the + and normali&ed to the subcarrier spacing) as measured at the /antenna connector

H;+C Transmission bandwidth which represents the length of a contiguous resource block allocatione%pressed in units of resources blocks

@cp ;yclic prefi% length@BH Bownlink 0+,;@

ocN The power spectral density of a white noise source (aerage power per + normalised to the

subcarrier spacing)! simulating interference from cells that are not defined in a test procedure! as

measured at the / antenna connector

ocN The power spectral density of a white noise source (aerage power per + normali&ed to the

subcarrier spacing)! simulating interference in non";+S symbols in 0CS subframe from cells thatare not defined in a test procedure! as measured at the / antenna connector.

*ocN

The power spectral density of a white noise source (aerage power per + normali&ed to thesubcarrier spacing)! simulating interference in ;+S symbols in 0CS subframe from all cells that

are not defined in a test procedure! as measured at the / antenna connector.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)18


5/108

Release 11

3ocN The power spectral density of a white noise source (aerage power per + normalised to the

subcarrier spacing)! simulating interference in non"0CS subframe from cells that are not defined

in a test procedure! as measured at the / antenna connector

JocN The power spectral density (aerage power per + normalised to the subcarrier spacing) of the

summation of the receied power spectral densities of the strongest interfering cells e%plicitly

defined in a test procedure plus! as measured at the / antenna connector. The respectie powerspectral density of each interfering cell relatie to is defined by its associated B1P alue.@Affs"BH Affset used for calculating downlink 0+,;@

@Affs"/H Affset used for calculating uplink 0+,;@

otxN The power spectral density of a white noise source (aerage power per + normalised to the

subcarrier spacing) simulating e@ode C transmitter impairments as measured at the e@ode Ctransmit antenna connector

@+C Transmission bandwidth configuration! e%pressed in units of resource blocks

@+CEagg 0ggregated Transmission Candwidth ;onfiguration The number of the aggregated +Cs within thefully allocated 0ggregated ;hannel bandwidth.

@+CEalloc Total number of simultaneously transmitted resource blocks in ;hannel bandwidth or 0ggregated

;hannel Candwidth.@/H /plink 0+,;@.

+a 2inimum aerage throughput per +C.P;20> The configured ma%imum / output power.

P;20>!c The configured ma%imum / output power for sering cell c.P20> 2a%imum allowed / output power signalled by higher layers. Same as 1P-Max,defined in !c 2a%imum allowed / output power signalled by higher layers for sering cell c. Same as 1P-Max,defined in The measured configured ma%imum / output power.+Cstart 1ndicates the lowest +C inde% of transmitted resource blocks.

+Cend 1ndicates the highest +C inde% of transmitted resource blocks.KfAAC K ,re-uency of Aut Af Cand emission.

K+1C!c 0llowed reference sensitiity rela%ation due to support for inter"band ;0 operation! for sering

cell c.KT1C!c 0llowed ma%imum configured output power rela%ation due to support for inter"band ;0

operation! for sering cell c.

T; 0llowed operating band edge transmission power rela%ation.

T;!c 0llowed operating band edge transmission power rela%ation for sering cell c.

Test specific au%iliary ariable used for the purpose of downlink power allocation! defined in

0nne% ;.3.*.

'gap Sub"block gap si&e

3.3 Abbreviations

,or the purposes of the present document! the abbreiations gien in T+ *.567 4 and the following apply. 0nabbreiation defined in the present document takes precedence oer the definition of the same abbreiation! if any! inT+ *.567 4.

0CS 0lmost Clank Subframe0;H+ 0djacent ;hannel Heakage +atio

0;S 0djacent ;hannel Selectiity0"2P+ 0dditional 2a%imum Power +eduction

0'G@ 0dditie 'hite Gaussian @oiseCS Case Station

;0 ;arrier 0ggregation;0E> ;0 for band > where > is the applicable "/T+0 operating band

;0E>"> @on"contiguous intra band ;0 for band > where > is the applicable "/T+0 operating band

;0E>"L ;0 for band > and Cand L where > and L are the applicable "/T+0 operating band;; ;omponent ;arriers

;P ;ustomer Premise -uipment;PE> ;ustomer Premise -uipment for "/T+0 operating band >

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)19


6/108

Release 11

;' ;ontinuous 'aeBH Bownlink

B1P Bominant 1nterferer ProportioneBH"212A Bown Hink 2ultiple 0ntenna transmission

0+,;@ "/T+0 0bsolute +adio ,re-uency ;hannel @umberP+ nergy Per +esource lement

"/T+0 oled /2TS Terrestrial +adio 0ccess/T+0@ oled /2TS Terrestrial +adio 0ccess @etwork

$2 rror $ector 2agnitude,BB ,re-uency Biision Buple%

,+; ,i%ed +eference ;hannel?B",BB ?alf" Buple% ,BB

2;S 2odulation and ;oding Scheme2AP 2a%imum Autput Power

2P+ 2a%imum Power +eduction

2SB 2a%imum Sensitiity BegradationA;@G A,B20 ;hannel @oise Generator

A,B20 Arthogonal ,re-uency Biision 2ultiple 0ccess

AAC Aut"of"band

P0 Power 0mplifierP;; Primary ;omponent ;arrier P"2P+ Power 2anagement 2a%imum Power +eduction

PSS Primary Synchroni&ation SignalPSSE+0 PSS"to"+S P+ ratio for the channel PSS

+ +esource lement+,S@S +eference Sensitiity power leel

r.m.s +oot 2ean S-uareS;; Secondary ;omponent ;arrier

S1@+ Signal"to"1nterference"and"@oise +atioS@+ Signal"to"@oise +atio

SSS Secondary Synchroni&ation SignalSSSE+0 SSS"to"+S P+ ratio for the channel SSS

TBB Time Biision Buple%/ /ser -uipment

/H /plink

/H"212A /p Hink 2ultiple 0ntenna transmission/2TS /niersal 2obile Telecommunications System

/T+0 /2TS Terrestrial +adio 0ccess

/T+0@ /2TS Terrestrial +adio 0ccess @etwork%;?E+0 %;?"to"+S P+ ratio for the channel %;? in all transmitted A,B2 symbols not containing +S

%;?E+C %;?"to"+S P+ ratio for the channel %;? in all transmitted A,B2 symbols containing +S

4 General

4.1 Relationsip between minim!m re"!irements and testre"!irements

The 2inimum +e-uirements gien in this specification make no allowance for measurement uncertainty. The testspecification TS 3:.7*" 0nne% , defines Test Tolerances. These Test Tolerances are indiidually calculated for each

test. The Test Tolerances are used to rela% the 2inimum +e-uirements in this specification to create Test +e-uirements.

The measurement results returned by the Test System are compared " without any modification " against the Test

+e-uirements as defined by the shared risk principle.

The Shared +isk principle is defined in 1T/"+ 2.797 34.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)20


7/108

Release 11

4.2 Applicability of minim!m re"!irements

a) 1n this specification the 2inimum +e-uirements are specified as general re-uirements and additional

re-uirements. 'here the +e-uirement is specified as a general re-uirement! the re-uirement is mandated to be

met in all scenarios

b) ,or specific scenarios for which an additional re-uirement is specified! in addition to meeting the generalre-uirement! the / is mandated to meet the additional re-uirements.

c) The reference sensitiity power leels defined in subclause


8/108

Release 11

- +peratin bands and cannel arranement

-.1 General

The channel arrangements presented in this clause are based on the operating bands and channel bandwidths defined inthe present release of specifications.

@AT# Ather operating bands and channel bandwidths may be considered in future releases.

-.2 #oid

-.3 #oid

-.4 #oid

-.- +peratin bands

"/T+0 is designed to operate in the operating bands defined in Table 7.7".

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)22


9/108


10/108

Release 11

Table 5.5A-1 "ra-ba"$ o"!#os A opera!"# ba"$s

E-UTRAA &a"$

E-UTRA&a"$

Upl!"' (U) opera!"# ba"$ ,o"l!"' (,) opera!"# ba"$ ,ple/o$e&S ree!*e UE ra"s+! &S ra"s+! UE ree!*e

Ulo U4!#4 ,lo ,4!#4

%A@1 1 1/20 ) 1/0 ) 2110 ) 2150 ) FDD

%A@5 5 2-00 ) 2-50 ) 2620 ) 26/0 ) FDD

%A@3 3 2-50 ) 2620 ) 2-50 ) 2620 ) 9DD

%A@40 40 2300 ) 2400 ) 2300 ) 2400 ) 9DD

%A@41 41 24/6 ) 26/0 ) 24/6 ) 26/0 ) 9DD

Table 5.5A-2 "er-ba"$ A opera!"# ba"$s

E-UTRAA &a"$

E-UTRA&a"$


Ulo U4!#4 ,lo ,4!#4

%A@1(-1 1/20 ) 1/0 ) 2110 ) 2150 )

FDD- 24 ) 4/ ) 6/ ) /4 )

%A@1(1

1 1/20 ) 1/0 ) 2110 ) 2150 )

FDD1 1- ) 30 ) 60 ) 5- )

%A@1(1/1 1/20 ) 1/0 ) 2110 ) 2150 )

FDD1/ 30 ) 4- ) 5- ) /0 )

%A@1(211 1/20 ) 1/0 ) 2110 ) 2150 )

FDD21 1445./ ) 1462./ ) 14/-./ ) 1-10./ )

%A@2(152 1-0 ) 1/10 ) 1/30 ) 1//0 )

FDD15 504 ) 516 ) 534 ) 546 )

%A@2(2/2 1-0 ) 1/10 ) 1/30 ) 1//0 )

FDD2/ 78A 515 ) 52 )

%A@3(-3 1510 ) 15- ) 10- ) 10 )

FDD- 24 ) 4/ ) 6/ ) /4 )

%A@3(53 1510 ) 15- ) 10- ) 10 )

FDD5 2-00 ) 2-50 ) 2620 ) 26/0 )

%A@3( 3 1510 ) 15- ) 10- ) 10 ) FDD 0 ) /1- ) /2- ) /60 )

%A@3(203 1510 ) 15- ) 10- ) 10 )

FDD20 32 ) 62 ) 5/1 ) 21 )

%A@4(-4 1510 ) 15-- ) 2110 ) 21-- )

FDD- 24 ) 4/ ) 6/ ) /4 )

%A@4(54 1510 ) 15-- ) 2110 ) 21-- )

FDD5 2-00 ) 2-50 ) 2620 ) 26/0 )

%A@4(124 1510 ) 15-- ) 2110 ) 21-- )

FDD12 6// ) 516 ) 52/ ) 546 )

%A@4(134 1510 ) 15-- ) 2110 ) 21-- )

FDD13 555 ) 55 ) 546 ) 5-6 )

%A@4(154 1510 ) 15-- ) 2110 ) 21-- )

FDD

15 504 ) 516 ) 534 ) 546 )

%A@4(2/4 1510 ) 15-- ) 2110 ) 21-- )

FDD2/ 78A 515 ) 52 )

%A@-(12- 24 ) 4/ ) 6/ ) /4 )

FDD12 6// ) 516 ) 52/ ) 546 )

%A@-(15- 24 ) 4/ ) 6/ ) /4 )

FDD15 504 ) 516 ) 534 ) 546 )

%A@5(205 2-00 ) 2-50 ) 2620 ) 26/0 )

FDD20 32 ) 62 ) 5/1 ) 21 )

%A@(20 0 ) /1- ) /2- ) /60 )

FDD20 32 ) 62 ) 5/1 ) 21 )

%A@11(111 1425./ ) 1445./ ) 145-./ ) 14/-./ )

FDD1 1- ) 30 ) 60 ) 5- )

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)2


11/108

Release 11

Table 5.5A-3 "ra-ba"$ "o"-o"!#os A opera!"# ba"$s

E-UTRAA &a"$

E-UTRA&a"$


Ulo U4!#4 ,lo ,4!#4

%A@2-(2- 2- 1-0 ) 1/1- ) 1/30 ) 1//- ) FDD

%A@41(41 41 24/6 ) 26/0 ) 24/6 ) 26/0 ) 9DD

-.-< +peratin bands for &'()*)+

"/T+0 /H"212A is designed to operate in the operating bands defined in Table 7.7".

Table 5.5&-1 Vo!$

-.6 %annel bandwidt+e-uirements in present document are specified for the channel bandwidths listed in Table 7.:".

Table 5.6-1 Tra"s+!ss!o" ba"$!$4 o":!#ra!o" ;R&!" E-UTRA 4a""el ba"$!$4s

4a""el ba"$!$4&?@

1. 3 5 10 15 20

9ransmission bandwidtconfi!ration 7Ristence scenarios in order to meet !nwanted emissions re"!irements$%la!se 6.6.3.2.

b) The use of different (asymmetrical) channel bandwidth for the T> and +> is not precluded and is intended to form

part of a later release.

-.6A %annel bandwidt for %A

,or intra"band contiguous carrier aggregationAggregated Channel andwidth!Aggregated !ransmission andwidthCon"igurationand #uard andsare defined as follows! see ,igure 7.:0".

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)27


14/108


15/108

Release 11

!#re 5.6A-2. ;o"-o"!#os !"raba"$ A er+s a"$ $e:!"!!o"s

The lower sub"block edge of the Sub"block Candwidth (C';hannel!block) is defined as

,edge!block! low D ,;!block!low " ,offset!block! low.

The upper sub"block edge of the Sub"block Candwidth is defined as

,edge!block!high D ,;!block!high I ,offset!block!high .

The Sub"block Candwidth! C';hannel!block! is defined as follows#

C';hannel!block D ,edge!block!high ",edge!block!low 2?&4

The lower and upper fre-uency offsets ,offset!block!lowand ,offset!block!highdepend on the transmission bandwidth configurations

of the lowest and highest assigned edge component carriers within a sub"block and are defined as

,offset!block!lowD (6.=@+C!lowI f)F* I C'GC 2?&4

,offset!block!high D (6.=@+C!highI f)F* I C'GC 2?&4

where fD f for the downlink with f the subcarrier spacing and fD 6 for the uplink! while @+C!low and @+C!high are

the transmission bandwidth configurations according to Table 7.:" for the lowest and highest assigned componentcarrier within a sub"block! respectiely. C'GC denotes theNominal #uard andand is defined in Table 7.:0"! and the

factor 6.= is the P+C bandwidth in 2?&.

The sub"block gap si&e between two consecutie sub"blocks 'gapis defined as

'gapD ,edge!block nI!low ",edge!block n!high 2?&4

3GPP

blo' "lo

?@

%A@1%1- 1-

40 020 20

%A@5%1- 1-

40 020 20

%A@3%1- 1-

40 020 20

%A@40%

10 20

40 01- 1-20 10, 20

%A@41%

10 20

40 01- 1-, 20

20 10, 1-, 20

7+9: 1; 9e %A confi!ration refers to an operatin band and a %A bandwidt class specified in 9able-.6A(1 $te inde>in letter. Absence of a %A bandwidt class for an operatin band impliess!pport of all classes.

7+9: 2; For te s!pported %% bandwidt combinations, te %% downlin= and !plin= bandwidts aree"!al.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)31


18/108

Release 11

Table 5.6A.1-2 E-UTRA A o":!#ra!o"s a"$ ba"$!$4 o+b!"a!o" ses $e:!"e$ :or !"er-ba"$A

E-UTRA A o":!#ra!o" &a"$!$4 o+b!"a!o" se

E-UTRA Ao":!#ra!o"

E-UTRA

&a"$s

1.>?

3>?

5>?

10>?

15>?

20>?

a/!++a##re#ae$ba"$!$4

=>?@

&a"$!$4o+b!"a!o"

se

%A@1A(-A1 es

20 0- es

%A@1A(1A1 es es es es

3- 01 es es es

%A@1A(1/A1 es es es es

3- 01/ es es es


3- 021 es es es

%A@2A(15A2 es es

20 015 es es

%A@2A(2/A2 es es

20 02/ es es es

%A@3A(-A

3 es es es 30 0- es es

3 es20 1

- es es


40 05 es es es

%A@3A(A

3 es es es30 0

es es

3 es20 1

es es


30 020 es es

%A@4A(-A4 es es

20 0- es es

%A@4A(5A4 es es

30 05 es es es es


20 012 es es

%A@4A(13A

4 es es es es30 0

13 es

4 es es20 1

13 es

%A@4A(15A4 es es

20 015 es es

%A@4A(2/A4 es es

20 02/ es es es

%A@-A (12A

- es es

20 012 es es

%A@-A(15A- es es

20 015 es es

%A@5A(20A5 es es es

30 020 es es

%A@A(20A es es

20 020 es es

%A@11A(1A11 es es

2- 01 es es es

7+9: 1; 9e %A %onfi!ration refers to a combination of an operatin band and a %A bandwidt class specified in9able -.6A(1 $te inde>in letter. Absence of a %A bandwidt class for an operatin band implies s!pport of allclasses.

7+9: 2; For eac band combination, all combinations of indicated bandwidts belon to te set7+9: 3; For te s!pported %% bandwidt combinations, te %% downlin= and !plin= bandwidts are e"!al

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)32


19/108

Release 11

Table 5.6A.1-3 E-UTRA A o":!#ra!o"s a"$ ba"$!$4 o+b!"a!o" ses $e:!"e$ :or "o"-o"!#os !"ra-ba"$ A

E-UTRA A o":!#ra!o" &a"$!$4 o+b!"a!o" se

E-UTRA Ao":!#ra!o"

o+po"e" arr!ers !" or$er o: !"reas!"# arr!er:reCe"D

a/!++a##re#ae$ba"$!$4

=>?@

&a"$!$4o+b!"a!o"

seAlloe$ 4a""el

ba"$!$4s :or arr!er=>?@

Alloe$ 4a""elba"$!$4s :or arr!er

=>?@

%A@2-A(2-A -, 10 -, 10 20 0

%A@41A(41A 10, 1-, 20 10, 1-, 20 40 0

-.6< %annel bandwidt for &'()*)+

The re-uirements specified in subclause 7.: are applicable to / supporting /H"212A.

-.6


20/108

Release 11

-.5.2A%annel raster for %A

,or carrier aggregation the channel raster is 66 k?& for all bands! which means that the carrier centre fre-uency mustbe an integer multiple of 66 k?&.

-.5.3 %arrier fre"!ency and :ARF%7The carrier fre-uency in the uplink and downlink is designated by the "/T+0 0bsolute +adio ,re-uency ;hannel@umber (0+,;@) in the range 6 " :7737. The relation between 0+,;@ and the carrier fre-uency in 2?& for the

downlink is gien by the following e-uation! where ,BHElowand @Affs"BHare gien in Table 7.


21/108

Release 11

Table 5.7.3-1 E-UTRA 4a""el "+bers

E-UTRA%pera!"#

&a"$

,o"l!"' Upl!"'

,lo (>?) ;%::s-, Ra"#e o: ;, Ulo (>?) ;%::s-U Ra"#e o: ;U

1 2110 0 0 -// 1/20 1000 1000 1-//

2 1/30 600 600 11// 1-0 1600 1600 1/1//

3 10- 1200 1200 1/4/ 1510 1/200 1/200 1//4/4 2110 1/-0 1/-0 23// 1510 1//-0 1//-0 203//- 6/ 2400 2400 264/ 24 20400 20400 2064/

6 5- 26-0 26-0 254/ 30 206-0 206-0 2054/

5 2620 25-0 25-0 344/ 2-00 205-0 205-0 2144/

/2- 34-0 34-0 35// 0 214-0 214-0 215/// 144./ 300 300 414/ 154/./ 2100 2100 2214/

10 2110 41-0 41-0 454/ 1510 221-0 221-0 2254/

11 145-./ 45-0 45-0 4/4/ 1425./ 225-0 225-0 22/4/

12 52/ -010 -010 ( -15/ 6// 23010 23010 ( 2315/

13 546 -10 -10 -25/ 555 2310 2310 2325/

14 5- -20 -20 -35/ 5 2320 2320 2335/

I

15 534 -530 -530 -4/ 504 23530 23530 234/1 60 --0 --0 -/// 1- 23-0 23-0 23///

1/ 5- 6000 6000 614/ 30 24000 24000 2414/

20 5/1 61-0 61-0 644/ 32 241-0 241-0 2444/

21 14/-./ 64-0 64-0 6-// 1445./ 244-0 244-0 24-//

22 3-10 6600 6600 53// 3410 24600 24600 2-3//

23 210 5-00 5-00 56// 2000 2--00 2--00 2-6//

24 1-2- 5500 5500 ( 03/ 1626.- 2-500 2-500 2603/

2- 1/30 040 040 ( 6/ 1-0 26040 26040 266/

26 -/ 6/0 6/0 ( /03/ 14 266/0 266/0 2503/

25 -2 /040 /040 /20/ 05 25040 25040 2520/

2 5- /210 /210 /6-/ 503 25210 25210 256-/

2/2 515 /660 /660 /56/ 78A

I

33 1/00 36000 36000 361// 1/00 36000 36000 361//34 2010 36200 36200 3634/ 2010 36200 36200 3634/

3- 1-0 363-0 363-0 36/4/ 1-0 363-0 363-0 36/4/

36 1/30 36/-0 36/-0 35-4/ 1/30 36/-0 36/-0 35-4/

35 1/10 35--0 35--0 3554/ 1/10 35--0 35--0 3554/

3 2-50 355-0 355-0 324/ 2-50 355-0 355-0 324/

3/ 10 32-0 32-0 364/ 10 32-0 32-0 364/

40 2300 36-0 36-0 3/64/ 2300 36-0 36-0 3/64/

41 24/6 3/6-0 3/6-0 41-/ 24/6 3/6-0 3/6-0 41-/

42 3400 41-/0 41-/0 43-/ 3400 41-/0 41-/0 43-/

43 3600 43-/0 43-/0 4--/ 3600 43-/0 43-/0 4--/

44 503 4--/0 4--/0 46-/ 503 4--/0 4--/0 46-/

7+9: 1; 9e cannel n!mbers tat desinate carrier fre"!encies so close to te operatin band edes tat tecarrier e>tends beyond te operatin band ede sall not be !sed. 9is implies tat te first 5, 1-, 2-, -0,5- and 100 cannel n!mbers at te lower operatin band ede and te last 6, 14, 24, 4/, 54 and //cannel n!mbers at te !pper operatin band ede sall not be !sed for cannel bandwidts of 1.4, 3, -,10, 1- and 20 ) respectively.

7+9: 2; Restricted to :(&9RA operation wen carrier areation is confi!red.

-.5.4 9JRJ fre"!ency separation

a) The default "/T+0 T> channel (carrier centre fre-uency) to +> channel (carrier centre fre-uency) separation is

specified in Table 7.


22/108

Release 11

Table 5.7.-1 ,e:al UE T-R :reCe"D separa!o"

E-UTRA %pera!"# &a"$ T - Rarr!er e"re :reCe"D

separa!o"

1 1/0 )

2 0 ).

3 /- ).4 400 )

- 4- )

6 4- )

5 120 )

4- )

/ /- )

10 400 )

11 4 )

12 30 )

13 (31 )

14 (30 )

15 30 )

1 4- )

1/ 4- )

20 (41 )

21 4 )

22 100 )

23 10 )

24 (101.- )

2- 0 )

26 4- )

25 4- )

2 -- )

b) The use of other T> channel to +> channel carrier centre fre-uency separation is not precluded and is intended to

form part of a later release.

-.5.4A 9JRJ fre"!ency separation for %A

,or intra"band contiguous carrier aggregation! the same T>"+> fre-uency separation as specified in Table 7.


23/108

Release 11

Table 6.2.2-1 UE Poer lass

EUTRAba"$

lass 1($&+)

Tolera"e($&)

lass 2($&+)

Tolera"e($&)

lass 3($&+)

Tolera"e($&)

lass ($&+)

Tolera"e($&)

1 23 K2

2 23 K22

3 23 K22

4 23 K2- 23 K2

6 23 K2

5 23 K22

23 K22

/ 23 K2

10 23 K2

11 23 K2

12 23 K22

13 23 K2

14 31 B28(3 23 K2

15 23 K2

1 23 K2-

1/ 23 K2

20 23 K22

21 23 K2

22 23 B28(3.-2

23 236 K26

24 23 K2

2- 23 K22

26 23 K22

25 23 K2

2 23 B28(2.-

I

33 23 K234 23 K2

3- 23 K236 23 K2

35 23 K2

3 23 K2

3/ 23 K2

40 23 K2

41 23 K22

42 23 B28(3

43 23 B28(3

44 23 B28(3

7+9: 1; #oid7+9: 2; 2refers to te transmission bandwidts $Fi!re -.6(1 confined witin F&'@lowand F&'@low B 4 ) or F&'@i

4 ) and F&'@i, te ma>im!m o!tp!t power re"!irement is rela>ed by red!cin te lower tolerancelimit by 1.- dim!m o!tp!t power re"!irement is rela>ed by red!cin te lower tolerance limit by 1.- dim!m &: power specified wito!t ta=in into acco!nt te tolerance7+9: 4; For intra(band conti!o!s carrier areation te ma>im!m power re"!irement so!ld apply to te total

transmitted power over all component carriers $per &:.

,or intra"band non"contiguous carrier aggregation with one uplink carrier on the P;;! the re-uirements in subclause:.*.* apply.

6.2.2< &: ma>im!m o!tp!t power for &'()*)+

,or / with two transmit antenna connectors in closed"loop spatial multiple%ing scheme! the ma%imum output powerfor any transmission bandwidth within the channel bandwidth is specified in Table :.*.*C". The re-uirements shall be

met with the /H"212A configurations specified in Table :.*.*C"*. ,or / supporting /H"212A! the ma%imumoutput power is measured as the sum of the ma%imum output power at each / antenna connector. The period of

measurement shall be at least one sub frame (ms).

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)38


25/108

Release 11

Table 6.2.2&-1 UE Poer lass :or U-% !" lose$ loop spa!al +l!ple/!"# s4e+e

EUTRAba"$

lass 1($&+)

Tolera"e($&)

lass 2($&+)

Tolera"e($&)

lass 3($&+)

Tolera"e($&)

lass ($&+)

Tolera"e($&)

1 23 B28(3

2 23 B28(32

3 23 B28(32

4 23 B28(3- 23 B28(3

6 23 B28(3

5 23 B28(32

23 B28(32

/ 23 B28(3

10 23 B28(3

11 23 B28(3

12 23 B28(32

13 23 B28(3

14 23 B28(3

15 23 B28(3

1 23 B28(31/ 23 B28(3

20 23 B28(32

21 23 B28(3

22 B28(4.-2

I

23 23 B28(3

24 23 B28(3

2- 23 B28(32

26 23 B28(32

25 23 B28(3

2 23 B28(3

I33 23 B28(3

34 23 B28(33- 23 B28(3

36 23 B28(3

35 23 B28(3

3 23 B28(3

3/ 23 B28(3

40 23 B28(3

41 23 B28(32

42 23 B28(4

43 23 B28(4

44 23 B28(3

7+9: 1; #oid7+9: 2; 2refers to te transmission bandwidts $Fi!re -.6(1 confined witin F&'@lowand F&'@low B 4 ) or F&'@i

4 ) and F&'@i, te ma>im!m o!tp!t power re"!irement is rela>ed by red!cin te lower tolerance

limit by 1.- d?

3.0>?

5>?

10>?

15>?

20>?

L?SM N - N 4 N N 12 N 16 N 1 C 1

16 LA) C - C 4 C C 12 C 16 C 1 C 1

16 LA) N - N 4 N N 12 N 16 N 1 C 2

,or P+0;?! P/;;? and S+S transmissions! the allowed 2P+ is according to that specified for P/S;? NPSOmodulation for the corresponding transmission bandwidth.

,or each subframe! the 2P+ is ealuated per slot and gien by the ma%imum alue taken oer the transmission(s)

within the slot the ma%imum 2P+ oer the two slots is then applied for the entire subframe.

,or transmissions with non"contiguous resource allocation in single component carrier! the allowed 2a%imum Power+eduction (2P+) for the ma%imum output power in table :.*.*"! is specified as follows

2P+ D ;1H 20! 6.7Q

'here 20is defined as follows

20D =.64"6.*40 6R 0 6.334

7.:


27/108

Release 11

Table 6.2.3A-1 a/!++ Poer Re$!o" (PR) :or Poer lass 3

o$la!o" A ba"$!$4 lass PR($&)50 R& B 100

R&75 R& B 75

R&75 R&B100

R&100 R& B 100

R&

L?SM N 12 and C-0

N 16 and C5-

N 16 and C5-

N 1 and C100

C 1

L?SM N -0 N 5- N 5- N 100 C 216 LA) C 12 C 16 C 16 C 1 C 1

16 LA) N 12 and C-0

N 16 and C5-

N 16 and C5-

N 1 and C100

C 2

16 LA) N -0 N 5- N 5- N 100 C 3

,or P/;;? and S+S transmissions! the allowed 2P+ is according to that specified for P/S;? NPSO modulation for

the corresponding transmission bandwidth.

,or intra"band contiguous carrier aggregation bandwidth class ; with non"contiguous resource allocation! the allowed

2a%imum Power +eduction (2P+) for the ma%imum output power in Table :.*.*0" is specified as follows

2P+ D ;1H 20!6.7Q

'here 20 is defined as follows

20D =.* 6 0 R 6.6*7

5.* " 960 6.6*7 0 R 6.67

= M :0 6.67 0 R 6.*7

9.=3 M 3.330 6.*7 0 6.9!

3.=3 M 6.=30 6.9 0 !

'here

0 D @+CEallocF @+CEagg.

;1H20!6.7Q means rounding upwards to closest 6.7dC! i.e. 2P+3.6! 3.7! 9.6! 9.7! 7.6! 7.7! :.6! :.7!


28/108

Release 11

6.2.4 &: ma>im!m o!tp!t power wit additional re"!irements

0dditional 0;H+ and spectrum emission re-uirements can be signalled by the network to indicate that the / shallalso meet additional re-uirements in a specific deployment scenario. To meet these additional re-uirements! 0dditional

2a%imum Power +eduction (0"2P+) is allowed for the output power as specified in Table :.*.*". /nless statedotherwise! an 0"2P+ of 6 dC shall be used.

,or / Power ;lass and 3 the specific re-uirements and identified subclauses are specified in Table :.*.9" along

with the allowed 0"2P+ alues that may be used to meet these re-uirements. The allowed 0"2P+ alues specifiedbelow in Table :.*.9." to :.*.9"7 are in addition to the allowed 2P+ re-uirements specified in subclause :.*.3.

Table 6.2.-1 A$$!!o"al a/!++ Poer Re$!o" (A-PR)

;eor'S!#"all!"#

*ale

ReC!re+e"s(sblase)

E-UTRA &a"$ 4a""elba"$!$4

(>?)

Resores&lo's (NR&)

A-PR ($&)

7S@01 6.6.2.1.1 9able -.-(11.4, 3, -, 10,

1-, 209able -.6(1 78A

7S@03 6.6.2.2.1 2, 4,10, 23, 2-,3-, 36

3 N- C 1

- N6 C 1

10 N6 C 11- N C 1

20 N10 C 1

7S@04 6.6.2.2.2 41- N6 C 1

10, 1-, 20 9able 6.2.4(47S@0- 6.6.3.3.1 1 10,1-,20 O -0 C 1

7S@06 6.6.2.2.3 12, 13, 14, 15 1.4, 3, -, 10 9able -.6(1 78A

[email protected]

13 10 9able 6.2.4(2

7S@0 6.6.3.3.3 1/ 10, 1- N 44 C 3

7S@0/ 6.6.3.3.4 21 10, 1-N 40 C 1

N -- C 2

7S@10 20 1-, 20 9able 6.2.4(3

7S@11 6.6.2.2.1 231.4, 3, -, 10,

1-, 20 9able 6.2.4(-

7S@12 6.6.3.3.- 26 1.4, 3, - 9able 6.2.4(6

7S@13 6.6.3.3.6 26 - 9able 6.2.4(5

7S@14 6.6.3.3.5 26 10, 1- 9able 6.2.4(

7S@1- 6.6.3.3. 261.4, 3, -, 10,

1-9able 6.2.4(/9able 6.2.4(10

7S@16 6.6.3.3./ 25 3, -, 109able 6.2.4(11, 9able 6.2.4(12,

9able 6.2.4(13

7S@15 6.6.3.3.10 2 -, 10 9able -.6(1 78A

7S@1 6.6.3.3.11 2- O 2 C 1

10, 1-, 20 O 1 C 4

7S@1/ 6.6.3.3.12 44 10, 1-, 20 9able 6.2.4(14

[email protected]

6.6.2.2.16.6.3.2

23 -, 10, 1-, 20 9able 6.2.4(1-

...

7S@32 ( ( ( ( (

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)2


29/108

Release 11

Table 6.2.-2 A-PR :or F;S07

Para+eers Re#!o" A Re#!o" & Re#!o"

R


30/108

Release 11

Table 6.2.-5 A-PR :or H;S11H

4a""el&a"$!$4

=>?@

Para+eers

3

Fc ) E2004 O2004

'%R


31/108

Release 11

Table 6.2.-8 A-PR :or F;S1

4a""elba"$!$4

=>?@Para+eers Re#!o" A

10

R?@

Para+eers Re#!o" A Re#!o" & Re#!o"

1.4 R


32/108

Release 11

Table 6.2.-11 A-PR :or F;S16 !4 4a""el loer e$#e a K807 >? a"$ L808.5 >?

4a""elba"$!$4

=>?@Para+eer Re#!o" A Re#!o" & Re#!o" Re#!o" , Re#!o" E

3 )

R


33/108

Release 11

Table 6.2.-15 A-PR :or H;S20H

,or P+0;?! P/;;? and S+S transmissions! the allowed 0"2P+ is according to that specified for P/S;? NPSO

modulation for the corresponding transmission bandwidth.

,or each subframe! the 0"2P+ is ealuated per slot and gien by the ma%imum alue taken oer the transmission(s)

within the slot the ma%imum 0"2P+ oer the two slots is then applied for the entire subframe.

,or the / ma%imum output power modified by 0"2P+! the power limits specified in subclause :.*.7 apply.

6.2.4A &: ma>im!m o!tp!t power wit additional re"!irements for %A

0dditional 0;H+! spectrum emission and spurious emission re-uirements for carrier aggregation can be signalled by

the network to indicate that the / shall also meet additional re-uirements in a specific deployment scenario. To meetthese additional re-uirements! 0dditional 2a%imum Power +eduction (0"2P+) is allowed for the ;0 Power ;lass as

specified in Table :.*.*0".

1f for intra"band carrier aggregation the / is configured for transmissions within an "/T+0 channel bandwidth! then

subclauses :.*.3 and :.* 9 apply with the @etwork Signaling alue indicated by the 1 additionalSpectrumEmission ofthe P;;.

,or intra"band contiguous aggregation with the / configured for transmissions within the aggregated channel

bandwidth! the ma%imum output power reductions specified in Table :.*.90" is allowed when the applicable ;0

network signalling alue is indicated by the 1 additionalSpectrumEmissionSCell-r'(. Then clause :.*.30 does notapply! i.e. carrier aggregation 2P+ D 6 dC.

3GPP

4a""el&a"$!$4

=>?@

Para+eers

-

Fc ) E 2005.- 2005.- C Fc E 2012.- 2012.- C Fc C 2015.-

R


34/108

Release 11

Table 6.2.A-1 A$$!!o"al a/!++ Poer Re$!o" (A-PR) :or A

A ;eor' S!#"all!"#*ale

ReC!re+e"s(sblase)

Upl!"' Ao":!#ra!o"

A-PR =$&@(sblase)

%A@7S@01 6.6.3.3A.1 %A@1% 6.2.4A.1

%A@7S@02 6.6.3.3A.2 %A@1% 6.2.4A.2

%A@7S@03 6.6.3.3A.3 %A@1% 6.2.4A.3

%A@7S@04 6.6.2.2A.1 %A@41% 6.2.4A.4%A@7S@0- 6.6.3.3A.4 %A@3% 6.2.4A.-

%A@7S@06 6.6.3.3A.- %A@5% 6.2.4A.6

,or P/;;? and S+S transmissions! the allowed 0"2P+ is according to that specified for P/S;? NPSO modulation

for the corresponding transmission bandwidth.

,or intra"band carrier aggregation! the 0"2P+ is ealuated per slot and gien by the ma%imum alue taken oer the

transmission(s) on all component carriers within the slot the ma%imum 0"2P+ oer the two slots is then applied forthe entire subframe.

,or the / ma%imum output power modified by 0"2P+ specified in table :.*.90"! the power limits specified in

subclause :.*.70 apply.

6.2.4A.1 A()?R for %A@7S@01 for %A@1%

1f the / is configured to ;0E; and it receies 1 ;0E@SE6 the allowed ma%imum output power reduction appliedto transmissions on the P;; and the S;; for contiguously aggregated signals is specified in table :.*.90.".

Table 6.2.A.1-1 o"!#os alloa!o" A-PR :or A;S01

A1 A;S01 R&sar R&=R&s@R&sar B R&

=R&s@A-PR :or MPSN a"$ 16-

MA =$&@

100 R< 8 100 R!cis the alue gien by 1P-Maxfor sering cell c,defined in


39/108

Release 11

" 2P+ cand 0"2P+cfor sering cell care specified in subclause :.*.3 and subclause :.*.9! respectiely

" T1C!cis the additional tolerance for sering cell cas specified in Table :.*.7"* T1C!cD 6 dC otherwise

" T;!cD .7 dC when @ote * in Table :.*.*" applies

" T;!cD 6 dC when @ote * in Table :.*.*" does not apply.

P"2P+cis the allowed ma%imum output power reduction for

a) ensuring compliance with applicable electromagnetic energy absorption re-uirements and addressing

unwanted emissions F self desense re-uirements in case of simultaneous transmissions on multiple +0T(s)for scenarios not in scope of 3GPP +0@ specifications

b) ensuring compliance with applicable electromagnetic energy absorption re-uirements in case of pro%imitydetection is used to address such re-uirements that re-uire a lower ma%imum output power.

The / shall apply P"2P+cfor sering cell conly for the aboe cases. ,or / conducted conformance testing P"2P+shall be 6 dC

@AT # P"2P+cwas introduced in the P;20>!ce-uation such that the / can report to the e@C the aailablema%imum output transmit power. This information can be used by the e@C for scheduling decisions.

@AT *# P"2P+cmay impact the ma%imum uplink performance for the selected /H transmission path.

,or each subframe! the P;20>EH!cfor sering cell cis ealuated per slot and gien by the minimum alue taken oer the

transmission(s) within the slot the minimum P;20>E H!coer the two slots is then applied for the entire subframe.PPower;lassshall not be e%ceeded by the / during any period of time.

The measured configured ma%imum output power P/20>!cshall be within the following bounds#

P;20>EH!cM 20>TH! T(P;20>EH!c)Q P/20>!c P;20>E?!cI T(P;20>E?!c)

where T(P;20>!c) is defined by the tolerance table below and applies to P;20>EH!cand P;20>E?!cseparately! while THis the

absolute alue of the lower tolerance in Table :.*.*" for the applicable operating band.

Table 6.2.5-1 PA,colera"e

PAc($&+)

Tolera"e T(PAc)($&)

23 E ?%)AJ,cC 33 2.0

21 C ?%)AJ,cC 23 2.0

20 C ?%)AJ,cE 21 2.-

1/ C ?%)AJ,cE 20 3.-

1 C ?%)AJ,cE 1/ 4.0

13 C ?%)AJ,cE 1 -.0

C ?%)AJ,cE 13 6.0

(40 C ?%)AJ,cE 5.0

,or the / which supports inter"band carrier aggregation configurations with uplink assigned to one "/T+0 band the

KT1C!cis defined for applicable bands in Table :.*.7"*.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)53


40/108

Release 11

Table 6.2.5-2 OT&

"er-ba"$ Ao":!#ra!o"

E-UTRA &a"$ OT&=$&@

%A@1A(-A1 0.3

- 0.3

%A@1A(1A

1 0.3

1 0.3

%A@1A(1/A1 0.3

1/ 0.3

%A@1A(21A1 0.3

21 0.3

%A@2A(15A2 0.3

15 0.

%A@2A(2/A 2 0.3

%A@3A(-A3 0.3

- 0.3

%A@3A(5A3 0.-

5 0.-

%A@3A(A3 0.3 0.3

%A@3A(20A3 0.3

20 0.3

%A@4A(-A4 0.3- 0.3

%A@4A(5A4 0.-

5 0.-

%A@4A(12A4 0.312 0.

%A@4A(13A4 0.3

13 0.3

%A@4A(15A4 0.315 0.

%A@4A(2/A 4 0.3

%A@-A(12A- 0.

12 0.4

%A@-A(15A- 0.

15 0.4

%A@5A(20A5 0.3

20 0.3

%A@A(20A 0.4

20 0.4

%A@11A(1A11 0.3

1 0.3

7+9: 1; 9e above additional tolerances are only applicable for te :(&9RA operatinbands tat belon to te s!pported inter(band carrier areation confi!rations

7+9: 2; 9e above additional tolerances also apply in non(areated operation for te

s!pported :(&9RA operatin bands tat belon to te s!pported inter(bandcarrier areation confi!rations

7+9: 3; *n case te &: s!pports more tan one of te above inter(band carrierareation confi!rations and a :(&9RA operatin band belons to more tanone inter(band carrier areation confi!rations ten;

" 'hen the "/T+0 operating band fre-uency range is G?&! the

applicable additional tolerance shall be the aerage of the tolerances in Table:.*.70"3! truncated to one decimal place for that operating band among the

supported ;0 configurations. 1n case there is a harmonic relation betweenlow band /H and high band BH! then the ma%imum tolerance among the

different supported carrier aggregation configurations inoling such bandshall be applied

" 'hen the "/T+0 operating band fre-uency range is G?&! the

applicable additional tolerance shall be the ma%imum tolerance in Table:.*.70"3 that applies for that operating band among the supported ;0configurations

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)5


41/108

Release 11

@AT# The aboe additional tolerances do not apply to supported /T+0 operating bands with fre-uency rangebelow G?& that correspond to the "/T+0 operating bands that belong to the supported inter"band

carrier aggregation configurations when such bands are belonging only to band combination(s) where oneband is RG?& and another band is .!c is calculated

under the assumption that the transmit power is increased independently on all component carriers.

,or uplink intra"band contiguous carrier aggregation! 2P+cD 2P+ and 0"2P+cD 0"2P+ with 2P+ and 0"2P+specified in subclause :.*.30 and subclause :.*.90 respectiely. There is one power management term for the /!

denoted P"2P+! and P"2P+cD P"2P+. P;20>!c is calculated under the assumption that the transmit power is increasedby the same amount in dC on all component carriers.

Table 6.2.5A-1Vo!$

The total configured ma%imum output power P;20> shall be set within the following bounds#

P;20>EH P;20> P;20>E?

,or uplink inter"band carrier aggregation with up to one sering cell c per operating band!

P;20>EHD 21@ 6log6U 21@ p20>!cF(t;!c)! pPower;lassF(mprcVa"mprcVt;!c Vt1C!c)! pPower;lassFpmprc4! PPower;lassQ

P;20>E?D 21@6 log6U p20>!c ! PPower;lassQ

where

" p20>!cis the linear alue of P20>!cwhich is gien by 1P-Max for sering cell cin EHD 21@6 log6U p20>!c "

T; ! PPower;lassM 20>(2P+ I 0"2P+ I KT1C!cI

T;! P"2P+)Q

P;20>E? D 21@6 log6U p20>!c ! PPower;lassQ

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)55


42/108

Release 11

where

" p20>!cis the linear alue of P20>!cwhich is gien by 1P-Max for sering cell c in EH!c)Q P/20>!c P;20>E?!cI T?1G?(P;20>E?!c)

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)56


43/108

Release 11

where THA'(P;20>EH!c) and T?1G?(P;20>E?!c) are defined as the tolerance and applies to P;20>EH!cand P;20>E?!cseparately!while THis the absolute alue of the lower tolerance in Table :.*.*C" for the applicable operating band.

,or / with two transmit antenna connectors in closed"loop spatial amultiple%ing scheme! the tolerance is specified inTable :.*.7C". The re-uirements shall be met with /H"212A configurations specified in Table :.*.*C"*.

Table 6.2.5&-1 PA,c

olera"e !" lose$-loop spa!al +l!ple/!"# s4e+ePA,c($&+)

Tolera"eT%?

3.0>?

5>?

10>?

15>?

20>?

)inim!m o!tp!t

power

(40 d


44/108

Release 11

Table 6.3.2A.1-1 !"!++ op poer :or !"ra-ba"$ o"!#os A UE

4a""el ba"$!$4 !"!++ op poer easre+e"ba"$!$4

1.>?

3.0>?

5>?

10>?

15>?

20>?

)inim!m o!tp!t

power (40 d


45/108

Release 11

6.3.3A &: 9ransmit +FF power for %A

,or intra"band contiguous carrier aggregation! transmit A,, power is defined as the mean power per component carrierwhen the transmitter is A,, on both component carriers. The transmitter is considered to be A,, when the / is not

allowed to transmit or during periods when the / is not transmitting a sub"frame. Buring measurements gaps! the /is not considered to be A,,.

6.3.3A.1 )inim!m re"!irement for %A

,or intra"band contiguous carrier aggregation the transmit A,, power is defined as the mean power in a duration of atleast one sub"frame (ms) e%cluding any transient periods. The transmit A,, power shall not e%ceed the alues

specified in Table :.3.30.".

Table 6.3.3A.1-1 Tra"s+! % poer :or !"ra-ba"$ o"!#os A UE

4a""el ba"$!$4 Tra"s+! % poer easre+e"ba"$!$4

1.>?

3.0>?

5>?

10>?

15>?

20>?

9ransmit +FFpower

(-0 d


46/108

Release 11

There are no additional re-uirements on / transmit power beyond that which is re-uired in subclause :.*.* andsubclause :.:.*.3

E"$ o: % poer

20s 20s

Tra"s!e" per!o$ Tra"s!e" per!o$

Sar o: % poer

Sar o: %; poer

reC!re+e"

Sar Sb-:ra+e E"$ sb-:ra+e

E"$ o: %; poer

reC!re+e"

Q T4e % poer reC!re+e"s $oes "o

applD :or ,T a"$ +easre+e" #aps

!#re 6.3..1-1 Ge"eral %;% !+e +as'

6.3.4.2 ?RA% and SRS time mas=

6.3.4.2.1 ?RA% time mas=

The P+0;? A@ power is specified as the mean power oer the P+0;? measurement period e%cluding any transient

periods as shown in ,igure :.3.9.*". The measurement period for different P+0;? preamble format is specified inTable :.3.9.*".

There are no additional re-uirements on / transmit power beyond that which is re-uired in subclause :.*.* and

subclause :.:.*.3

Table 6.3..2-1 PRA> %; poer +easre+e" per!o$

PRA> prea+ble :or+a easre+e" per!o$ (+s)

0 0./031

1 1.444

2 1.031

3 2.244

4 0.145/

%; poer reC!re+e"

reC!re+e"

20s 20s


PRA7>

E"$ o: % poer Sar o: % poer

reC!re+e"

!#re 6.3..2-1 PRA> %;% !+e +as'

6.3.4.2.2 SRS time mas=

1n the case a single S+S transmission! the A@ power is defined as the mean power oer the symbol duration e%cludingany transient period. ,igure :.3.9.*.*"

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)60


47/108

Release 11

1n the case a dual S+S transmission! the A@ power is defined as the mean power for each symbol duration e%cludingany transient period. ,igure :.3.9.*.*"*


reC!re+e"

20s 20s


E"$ o: %

poer reC!re+e"

SRS

SRS %; poer

reC!re+e"

Sar o: %poer

!#re 6.3..2.2-1 S!"#le SRS !+e +as'

E"$ o: %

20s 20s 20s 20s

Q Tra"s!e" per!o$ !s o"lD spe!:e$ !" 4e ase o: :reCe"D 4opp!"# or a poer 4a"#e beee" SRS sD+bols

QTra"s!e" per!o$Tra"s!e" per!o$

SRSSRS

reC!re+e"

Tra"s!e" per!o$

Sar o: %poer

poer reC!re+e"

SRS %; poer

reC!re+e"

SRS %; poer

reC!re+e"

!#re 6.3..2.2-2 ,al SRS !+e +as' :or 4e ase o: UpPTS ra"s+!ss!o"s

6.3.4.3 Slot 8 S!b frame bo!ndary time mas=

The sub frame boundary time mask defines the obseration period between the preiousFsubse-uent subMframe and the(reference) sub"frame. 0 transient period at a slot boundary within a sub"frame is only allowed in the case of 1ntra"sub

frame fre-uency hopping. ,or the cases when the subframe contains S+S the time masks in subclause :.3.9.9 apply.


3GPP

3GPP TS 36.101 V11.7.0 (2013-12)61


48/108

Release 11

20s 20s 20s 20s 20s 20s

Tra"s!e" per!o$ Tra"s!e" per!o$ Tra"s!e" per!o$

ar o B1poer

reC!re+e"

" o B1poer

reC!re+e"

;B1Sb-:ra+e

Slo! Slo!B1;0Sb-:ra+e ;B2Sb-:ra+e

!#re 6.3..3-1 Tra"s+!ss!o" poer e+plae

6.3.4.4 ?&%% 8 ?&S% 8 SRS time mas=

The P/;;?FP/S;?FS+S time mask defines the obseration period between sounding reference symbol (S+S) and an

adjacent P/S;?FP/;;? symbol and subse-uent sub"frame.


E"$ o: ;B1poer

20s 20s 90s 20s

Tra"s!e" per!o$

reC!re+e"

Sar o: %poer

Tra"s!e" per!o$

Sar o: ;B1poer

PUS7>8PU77>

Tra"s!e" per!o$

;0Sb-:ra+e ;B1Sb-:ra+eSRS

PUS7>8PU77>

SRS %; poer

reC!re+e"

!#re 6.3..-1 PU>PUS>SRS !+e +as' 4e" 4ere !s a ra"s+!ss!o" be:ore SRS b "oa:er

PUS7>8PU77>

20s 20s 90s 90s

SRS %; poer

;0Sb-:ra+e ;B1Sb-:ra+e ;B2Sb-:ra+eSRS

PUS7>8PU77> reC!re+e"

Tra"s!e" per!o$

E"$ o: ;B1 poer

Sar o: ;B1poer Sar o: ;B2poer

Tra"s!e" per!o$

reC!re+e"

Tra"s!e" per!o$

!#re 6.3..-2 PU>PUS>SRS !+e +as' 4e" 4ere !s ra"s+!ss!o" be:ore a"$ a:er SRS

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)62


49/108

Release 11

20s 90s

Tra"s!e" per!o$

PUS7> 8PU77>

Sar o: ;B2poer

poer reC!re+e"

Tra"s!e" per!o$

E"$ o: %

SRS ;B2Sb-:ra+e

SRS %; poer

reC!re+e"

!#re 6.3..-3 PU>PUS>SRS !+e +as' 4e" 4ere !s a ra"s+!ss!o" a:er SRS b "obe:ore

20s 20s 20s 20s

Tra"s!e" per!o$

PUS7> 8PU77>

;B2Sb-:ra+e

E"$ o: ;B1 poer

SRS bla"'!"#

PUS7>8PU77>

Sar o: ;B1poer

;0Sb-:ra+e


PUS7>8PU77>

% poer

;B1Sb-:ra+e (!"l. SRS bla"'!"#)

Sar o: ;B2poer

reC!re+e"

!#re 6.3..- SRS !+e +as' 4e" 4ere !s ,, SRS bla"'!"#

6.3.4A+78+FF time mas= for %A

,or intra"band contiguous carrier aggregation! the general output power A@FA,, time mask specified in subclause

:.3.9. is applicable for each component carrier during the A@ power period and the transient periods. The A,, periodas specified in subclause :.3.9. shall only be applicable for each component carrier when all the component carriers are

A,,.

6.3.4< +78+FF time mas= for &'()*)+

,or / supporting /H"212A! the A@FA,, time mask re-uirements in subclause :.3.9 apply at each transmit antenna

connector.

,or / with two transmit antenna connectors in closed"loop spatial multiple%ing scheme! the general A@FA,, timemask re-uirements specified in subclause :.3.9. apply to each transmit antenna connector. The re-uirements shall bemet with the /H"212A configurations specified in Table :.*.*C"*.

,or single"antenna port scheme! the re-uirements in subclause :.3.9 apply.

6.3.- ?ower %ontrol

6.3.-.1 Absol!te power tolerance

0bsolute power tolerance is the ability of the / transmitter to set its initial output power to a specific alue for the first

sub"frame at the start of a contiguous transmission or non"contiguous transmission with a transmission gap larger than

*6ms. This tolerance includes the channel estimation error (the absolute +S+P accuracy re-uirement specified insubclause 5. of TS 3:.33)

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)63


50/108

Release 11

1n the case of a P+0;? transmission! the absolute tolerance is specified for the first preamble. The absolute powertolerance includes the channel estimation error (the absolute +S+P accuracy re-uirement specified in subclause 5. of

TS 3:.33).

6.3.-.1.1 )inim!m re"!irements

The minimum re-uirement for absolute power tolerance is gien in Table :.3.7.." oer the power range bounded bythe 2a%imum output power as defined in subclause :.*.* and the 2inimum output power as defined in subclause :.3.*.

,or operating bands under @ote * in Table :.*.*"! the absolute power tolerance as specified in Table :.3.7.." is

rela%ed by reducing the lower limit by .7 dC when the transmission bandwidth is confined within ,/HElowand ,/HElowI 9

2?& or ,/HEhighM 9 2?& and ,/HEhigh.

Table 6.3.5.1.1-1 Absole poer olera"e

o"$!!o"s Tolera"e

7ormal K /.0 dtreme K 12.0 dra"s!!o"s =$&@

All o+b!"a!o"s o:PUS>PU> a"$

SRS ra"s!!o"sbeee" sb-:ra+es =$&@

PRA> =$&@

? E 2 K2.- $7ote 3 K3.0 K2.-

2 C ? E 3 K3.0 K4.0 K3.0

3 C ? E 4 K3.- K-.0 K3.-

4 C ? C 10 K4.0 K6.0 K4.0

10 C ? E 1- K-.0 K.0 K-.0

1- C ? K6.0 K/.0 K6.0

7+9: 1; For e>treme conditions an additional K 2.0 d< rela>ation is allowed7+9: 2; For operatin bands !nder 7ote 2 in 9able 6.2.2(1, te relative power

tolerance is rela>ed by increasin te !pper limit by 1.- d< if tetransmission bandwidt of te reference s!b(frames is confined witinF&'@low and F&'@low B 4 ) or F&'@i 4 ) and F&'@iand te tarets!b(frame is not confined witin any one of tese fre"!ency ranesP ifte transmission bandwidt of te taret s!b(frame is confined witin

F&'@low and F&'@low B 4 ) or F&'@i 4 ) and F&'@i and te references!b(frame is not confined witin any one of tese fre"!ency ranes, tente tolerance is rela>ed by red!cin te lower limit by 1.- ded in fre"!ency and no transmission aps oter tan tose eneratedby downlin= s!bframes, Dw?9S fields or G!ard ?eriods for 9DD; for apower step ? C 1 d


52/108

Release 11

Table 6.3.5.3.1-1 A##re#ae poer o"rol olera"e

TP o++a"$ U 4a""el A##re#ae poer olera"e !4!" 21 +s

0 d< ?&%% K2.- d?)

1.>?

3.0>?

5>?

10>?

15>?

20>?

easre+e"ba"$!$4

0(1 (10 (13 (1- (1 (20 (21 30 =

1(2.- (13 (13 (13 (13 (13 (13 1 )

2.-(2. (2- (13 (13 (13 (13 (13 1 )

2.(-.- (13 (13 (13 (13 (13 1 )

-.-(6 (2- (2- (2- (2- (2- 1 )

6(10 (2- (2- (2- (2- 1 )

10(1- (2- (2- (2- 1 )

1-(20 (2- (2- 1 )

20(2- (2- 1 )

@ote# 0s a general rule! the resolution bandwidth of the measuring e-uipment should be e-ual to themeasurement bandwidth. ?oweer! to improe measurement accuracy! sensitiity and efficiency! the

resolution bandwidth may be smaller than the measurement bandwidth. 'hen the resolution bandwidth issmaller than the measurement bandwidth! the result should be integrated oer the measurement

bandwidth in order to obtain the e-uialent noise bandwidth of the measurement bandwidth.

6.6.2.2.3 )inim!m re"!irement $networ= sinalled val!e U7S@06U or V7S@05W

0dditional spectrum emission re-uirements are signalled by the network to indicate that the / shall meet an additionalre-uirement for a specific deployment scenario as part of the cell handoerFbroadcast message.

'hen 8@SE6:8 or Z@SE6


64/108


65/108

Release 11

E-$T%AACL%& $T%A ACL%' $T%AACL%&

R?

3.0>?

5>?

10>?

15>?

20>?

:(&9RAA%'R1 30 d< 30 d< 30 d< 30 d< 30 d< 30 d?

3.0>?

5>?

10>?

15>?

20>?

:(&9RAA%'R1 35 d< 35 dceptions, meas!rements wit a level !p to te applicable re"!irements defined in 9able

6.6.3.1(2 are permitted for eac assined :(&9RA carrier !sed in te meas!rement d!e to 2nd, 3rd,4tor -t armonic sp!rio!s emissions. An e>ception is allowed if tere is at least one individ!alR< witin te transmission bandwidt $see Fi!re -.6(1 for wic te 2nd, 3rdor 4tarmonic totallyor partially overlaps te meas!rement bandwidt $)istence wit ?S system operatin in 14.- (1/1/.6).7+9: ; Applicable wen co(e>istence wit ?S system operatin in 14.- (1/1-.5).7+9: /; Applicable wen 7S@0 in s!bcla!se 6.6.3.3.3 is sinalled by te networ=7+9: 10; Applicable wen 7S@0/ in s!bcla!se 6.6.3.3.4 is sinalled by te networ=7+9: 11; eter te applicable fre"!ency rane so!ld be 5/3(0-) instead of 5//(0-) is 9


75/108

Release 11

6.6.3.2A Sp!rio!s emission band &: co(e>istence for %A

This clause specifies the re-uirements for the specified carrier aggregation configurations for coe%istence with protected

bands

@AT# ,or measurement conditions at the edge of each fre-uency range! the lowest fre-uency of the

measurement position in each fre-uency range should be set at the lowest boundary of the fre-uencyrange plus 2C'F*. The highest fre-uency of the measurement position in each fre-uency range should

be set at the highest boundary of the fre-uency range minus 2C'F*. 2C' denotes the measurementbandwidth defined for the protected band.

Table 6.6.3.2A-1 ReC!re+e"s

E-UTRA

Ao":!#ra!o"

Spr!os e+!ss!o"

Proee$ ba"$ reCe"D ra"#e(>?)

a/!++e*el($&+)

&?)

;oe

%A@1% :(&9RA ceptions, meas!rements wit a level !p to te applicable re"!irements defined in 9able

6.6.3.1(2 are permitted for eac assined :(&9RA carrier !sed in te meas!rement d!e to 2nd or3rd armonic sp!rio!s emissions. An e>ception is allowed if tere is at least one individ!al R:

witin te transmission bandwidt $see Fi!re -.6(1 for wic te 2nd or 3rd armonic, i.e. tefre"!ency e"!al to two or tree times te fre"!ency of tat R:, is witin te meas!rementbandwidt $)


76/108

Release 11

6.6.3.3 Additional sp!rio!s emissions

These re-uirements are specified in terms of an additional spectrum emission re-uirement. 0dditional spuriousemission re-uirements are signalled by the network to indicate that the / shall meet an additional re-uirement for a

specific deployment scenario as part of the cell handoerFbroadcast message.

6.6.3.3.1 )inim!m re"!irement $networ= sinalled val!e U7S@0-U

'hen 8@SE678 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.". This re-uirement also applies for the fre-uency ranges that are less than ,AAC (2?&) in Table :.:.3."

from the edge of the channel bandwidth.

Table 6.6.3.3.1-1 A$$!!o"al reC!re+e"s (P>S)

reCe"D ba"$(>?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

5>?

10>?

15>?

20>?

14.- f 1/1-.5 (41 (41 (41 (41 300 M 1

7+9: 1; Applicable wen te lower ede of te assined :(&9RA &' cannelbandwidt fre"!ency is larer tan or e"!al to te !pper ede of ?S band$1/1-.5 ) B 4 ) B te cannel S).

15 >? 4a""el ba"$!$4 !4 : 1932.5 >?

R?

56/ C f C 55- (-5 6.2- =

7+9:; 9e emissions meas!rement sall be s!fficiently power averaed to ens!re

standard standard deviation E 0.- d


77/108

Release 11

@AT# ,or measurement conditions at the edge of each fre-uency range! the lowest fre-uency of themeasurement position in each fre-uency range should be set at the lowest boundary of the fre-uency

range plus 2C'F*. The highest fre-uency of the measurement position in each fre-uency range shouldbe set at the highest boundary of the fre-uency range minus 2C'F*. 2C' denotes the measurement

bandwidth (:.*7 k?&).

6.6.3.3.3 )inim!m re"!irement $networ= sinalled val!e V7S@0W

'hen Z@S 6=[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.3". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." from

the edge of the channel bandwidth.

Table 6.6.3.3.3-1 A$$!!o"al reC!re+e"

reCe"Dba"$(>?)

4a""el ba"$!$4 Sper+ e+!ss!o" l!+!($&+)

easre+e"ba"$!$4

5>? 10>? 15>?

60 C f C /0 (40 (40 (40 1 )



bandwidth ( 2?&).

6.6.3.3.4 )inim!m re"!irement $networ= sinalled val!e V7S@0/W

'hen Z@S 65[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.9". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." from


Table 6.6.3.3.-1 A$$!!o"al reC!re+e"

reCe"D ba"$(>?)

4a""el ba"$!$4 Sper+ e+!ss!o"l!+! ($&+)

easre+e"ba"$!$4

5>? 10>? 15>?

145-./ C f C 1-10./ (3- (3- (3- 1 )

@AT # ,or measurement conditions at the edge of each fre-uency range! the lowest fre-uency of themeasurement position in each fre-uency range should be set at the lowest boundary of the fre-uency


bandwidth ( 2?&).

@AT *# To improe measurement accuracy! 0"2P+ alues for @SE65 specified in Table :.*.9" in subclause

:.*.9 are deried based on both the aboe @AT and 66 k?& +C'.

6.6.3.3.- )inim!m re"!irement $networ= sinalled val!e V7S@12W

'hen Z@S *[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.7". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." from


3GPP

3GPP TS 36.101 V11.7.0 (2013-12)91


78/108

Release 11

Table 6.6.3.3.5-1 A$$!!o"al reC!re+e"s

reCe"D ba"$(>?)

4a""el ba"$!$4 Sper+ e+!ss!o" l!+!

($&+)

easre+e"ba"$!$4

;oe

1. 3 5 >?

06 C f C 13.- (42 6.2- = 1

7+9: 1; 9e emission limit applies at an offset of reater tan or e"!al to 0.5 ) belowte :(&9RA cannel ede.


'hen Z@S 3[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.:". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." from



reCe"D ba"$(>?)

4a""el ba"$!$4 Sper+ e+!ss!o" l!+!

($&+)

easre+e"ba"$!$4

;oe

5 >?

06 C f C 16 (42 6.2- = 17+9: 1; 9e emission limit applies at an offset of reater tan or e"!al to 3 ) below

te :(&9RA cannel ede.


'hen Z@S 9[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

10 15 >?

06 C f C 16 (42 6.2- = 1

7+9: 1; 9e emission limit applies at an offset of reater tan or e"!al ) belowte of :(&9RA cannel ede.

6.6.3.3. )inim!m re"!irement $networ= sinalled val!e V7S@1-W

'hen Z@S 7[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table

:.:.3.3.=". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." fromthe edge of the channel bandwidth.


reCe"Dba"$(>?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

1. 3 5 10 15 >?

-1 C f C -/ (-3 6.2- =

7+9:; 9e emissions meas!rement sall be s!fficiently power averaed to ens!restandard standard deviation E 0.- d


79/108

Release 11

6.6.3.3./ )inim!m re"!irement $networ= sinalled val!e V7S@16W

'hen Z@SE:[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table

:.:.3.3.5". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3." from



reCe"Dba"$(>?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

1. 3 5 10 >?

5/0 C f C 03 (32 1 )


'hen Z@SE?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

5 10 >?

450 C f C 510 (26.2 6 ) 1

7+9: 1; Applicable wen te assined :(&9RA carrier is confined witin 51 )and 54 ) and wen te cannel bandwidt !sed is - or 10 ).


'hen Z@SE=[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table

:.:.3.3.". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3."



reCe"Dba"$(>?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

5 10 15 20 >?

6/2(6/ (26.2 6 )

6.6.3.3.12 )inim!m re"!irement $networ= sinalled val!e V7S@1/W

'hen Z@SE5[ is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.3.*". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3."



reCe"Dba"$(>?)

4a""el ba"$!$4 Sper+e+!ss!o" l!+! ($&+)

easre+e"ba"$!$4

;oe

3 5 10 15 20 >?

662 C f C 6/4 (2- )

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)93


80/108

Release 11

6.6.3.3A Additional sp!rio!s emissions for %A

These re-uirements are specified in terms of an additional spectrum emission re-uirement. 0dditional spuriousemission re-uirements are signalled by the network to indicate that the / shall meet an additional re-uirement for a

specific deployment scenario as part of the cell reconfiguration message.

6.6.3.3A.1 )inim!m re"!irement for %A@1% $networ= sinalled val!e U%A@7S@01U

'hen 8;0E@SE68 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.30.". This re-uirement also applies for the fre-uency ranges that are less than ,AAC (2?&) in Table :.:.3.0"

from the edge of the aggregated channel bandwidth.

Table 6.6.3.3A.1-1 A$$!!o"al reC!re+e"s (P>S)

Proee$ ba"$ reCe"D ra"#e (>?) a/!++ e*el ($&+) &< (>?) ;oe

:(&9RA band 34 FD'@low ( FD'@i (-0 1

Fre"!ency rane 14.- ( 1/1-.5 (41 0.3 1

7+9: 1; Applicable wen te areated cannel bandwidt is confined witin fre"!ency rane 1/40 1/0 )


range plus 2C'F*. The highest fre-uency of the measurement position in each fre-uency range should

be set at the highest boundary of the fre-uency range minus 2C'F*. 2C' denotes the measurementbandwidth (366 k?&).


'hen 8;0E@SE6*8 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table

:.:.3.30.*". This re-uirement also applies for the fre-uency ranges that are less than ,AAC (2?&) in Table :.:.3.0" from the edge of the aggregated channel bandwidth.

Table 6.6.3.3A.2-1 A$$!!o"al reC!re+e"s

Proee$ ba"$ reCe"D ra"#e (>?) a/!++ e*el ($&+) &< (>?)

:(&9RA band 34 FD'@low ( FD'@i (-0 1

Fre"!ency rane 1/00 ( 1/1- (1-.- -

Fre"!ency rane 1/1- ( 1/20 B1.6 -


'hen 8;0E@SE638 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table

:.:.3.30.3". This re-uirement also applies for the fre-uency ranges that are less than ,AAC (2?&) in Table :.:.3.0" from the edge of the aggregated channel bandwidth.



:(&9RA band 34 FD'@low ( FD'@i (-0 1

Fre"!ency rane 10 ( 1/- (40 1

Fre"!ency rane 1/- ( 1/1- (1-.- -

Fre"!ency rane 1/1- ( 1/20 B1.6 -

6.6.3.3A.4 )inim!m re"!irement for %A@3% $networ= sinalled val!e U%A@7S@0-U

'hen 8;0E@SE678 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.30.9". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3.0"

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)9


81/108

Release 11

from the edge of the aggregated channel bandwidth. This re-uirement is applicable for carriers with aggregated channelbandwidths confined in *7?) a/!++ e*el ($&+) &< (>?)

Fre"!encyrane 2620 ( 264- (1-.- -

Fre"!encyrane 264- ( 26/0

(40 1

6.6.3.3A.- )inim!m re"!irement for %A@5% $networ= sinalled val!e U%A@7S@06U

'hen 8;0E@SE6:8 is indicated in the cell! the power of any / emission shall not e%ceed the leels specified in Table:.:.3.30.7". This re-uirement also applies for the fre-uency ranges that are less than ,AAC(2?&) in Table :.:.3.0"

from the edge of the aggregated channel bandwidth.



Fre"!encyrane 2-50 ( 2-5-

B1.6 -

Fre"!encyrane 2-5- ( 2-/-

(1-.- -

Fre"!encyrane 2-/- ( 2620

(40 1

6.6.3A#oid

Rresered for future use

6.6.3< Sp!rio!s emission for &'()*)+

,or / supporting /H"212A! the re-uirements for Spurious emissions which are caused by unwanted transmitter

effects such as harmonics emission! parasitic emissions! intermodulation products and fre-uency conersion productsare specified at each transmit antenna connector.

,or /s with two transmit antenna connectors in closed"loop spatial multiple%ing scheme! the re-uirements insubclause :.:.3 apply to each transmit antenna connector. The re-uirements shall be met with the /H"212A

configurations specified in Table :.*.*C".

,or single"antenna port scheme! the general re-uirements in subclause :.:.3 apply.

6.6A #oid

6.6< #oid

6.5 9ransmit intermod!lation

The transmit intermodulation performance is a measure of the capability of the transmitter to inhibit the generation of

signals in its non linear elements caused by presence of the wanted signal and an interfering signal reaching thetransmitter ia the antenna.

3GPP

3GPP TS 36.101 V11.7.0 (2013-12)95


82/108

Release 11

6.5.1 )inim!m re"!irement

/ser -uipment(s) transmitting in close icinity of each other can produce intermodulation products! which can fall intothe /! or e@ode C receie band as an unwanted interfering signal. The / intermodulation attenuation is defined by

the ratio of the mean power of the wanted signal to the mean power of the intermodulation product when an interfering;' signal is added at a leel below the wanted signal at each of the transmitter antenna port with the other antenna

port(s) if any is terminated. Coth the wanted signal power and the intermodulation product power are measured through"/T+0 rectangular filter with measurement bandwidth shown in Table :.


83/108

Release 11

6. #oid

6..1 #oid

6.A #oid

6.< 9ime alinment error for &'()*)+

,or /(s) with multiple transmit antenna connectors supporting /H"212A! this re-uirement applies to frame timing

differences between transmissions on multiple transmit antenna connectors in the closed"loop spatial multiple%ingscheme.

The time alignment error (T0) is defined as the aerage frame timing difference between any two transmissions ondifferent transmit antenna connectors.

6.


84/108

Release 11

where the interferer fre-uency offset represents the interferer fre-uency offset per carrier specified in subclause


85/108

Release 11

Table 7.3.1-1 Re:ere"e se"s!!*!D MPSN PRESE;S

4a""el ba"$!$4

E-UTRA&a"$

1. >?($&+)

3 >?($&+)

5 >?($&+)

10 >?($&+)

15 >?($&+)

20 >?($&+)

,ple/o$e

1 (100 (/5 (/-.2 (/4 FDD

2 (102.5 (//.5 (/ (/- (/3.2 (/2 FDD3 (101.5 (/.5 (/5 (/4 (/2.2 (/1 FDD

4 (104.5 (101.5 (100 (/5 (/-.2 (/4 FDD

- (103.2 (100.2 (/ (/- FDD

6 (100 (/5 FDD

5 (/ (/- (/3.2 (/2 FDD

(102.2 (//.2 (/5 (/4 FDD

/ (// (/6 (/4.2 (/3 FDD

10 (100 (/5 (/-.2 (/4 FDD

11 (100 (/5 FDD

12 (101.5 (/.5 (/5 (/4 FDD

13 (/5 (/4 FDD

14 (/5 (/4 FDDI

15 (/5 (/4 FDD

1 (1005 (/55 (/-.25 FDD

1/ (100 (/5 (/-.2 FDD

20 (/5 (/4 (/1.2 (/0 FDD

21 (100 (/5 (/-.2 FDD

22 (/5 (/4 (/2.2 (/1 FDD

23 (104.5 (101.5 (100 (/5 (/-.2 (/4 FDD

24 (100 (/5 FDD

2- (101.2 (/.2 (/6.- (/3.- (/1.5 (/0.- FDD

26 (102.5 (//.5 (/5.-6 (/4.-6 (/2.56

FDD

25 (103.2 (100.2 (/ (/- FDD

2 (100.2 (/.- (/-.- (/3.5 (/1 FDD

I

33 (100 (/5 (/-.2 (/4 9DD

34 (100 (/5 (/-.2 9DD

3- (106.2 (102.2 (100 (/5 (/-.2 (/4 9DD

36 (106.2 (102.2 (100 (/5 (/-.2 (/4 9DD

35 (100 (/5 (/-.2 (/4 9DD

3 (100 (/5 (/-.2 (/4 9DD

3/ (100 (/5 (/-.2 (/4 9DD

40 (100 (/5 (/-.2 (/4 9DD

41 (/ (/- (/3.2 (/2 9DD42 (// (/6 (/4.2 (/3 9DD

43 (// (/6 (/4.2 (/3 9DD

44 (100.2 (/ (/- (/3.2 (/2 9DD

7+9: 1; 9e transmitter sall be set to ?&)AJas defined in s!bcla!se 6.2.-7+9: 2; Reference meas!rement cannel is A.3.2 wit one sided dynamic +%7G

?attern +?.1 FDD89DD as described in Anne> A.-.1.18A.-.2.17+9: 3; 9e sinal power is specified per port7+9: 4; For te &: wic s!pports bot


86/108

Release 11

The reference receie sensitiity (+,S@S) re-uirement specified in Table


87/108

Release 11

,or the / which supports inter"band carrier aggregation configuration in Table


88/108

Release 11

@AT # The aboe additional tolerances do not apply to supported /T+0 operating bands with fre-uency range

below G?& that correspond to the "/T+0 operating bands that belong to the supported inter"bandcarrier aggregation configurations when such bands are belonging only to band combination(s) where one

band is RG?& and another band is .


89/108

Release 11

Table 7.3.1-2 Upl!"' o":!#ra!o" :or re:ere"e se"s!!*!D

E-UTRA &a"$ 4a""el ba"$!$4 ;R& ,ple/ +o$e

E-UTRA&a"$

1. >? 3 >? 5 >? 10 >? 15 >? 20 >? ,ple/o$e

1 2- -0 5- 100 FDD

2 6 1- 2- -0 -0

1

-0

1

FDD3 6 1- 2- -0 -01 -01 FDD

4 6 1- 2- -0 5- 100 FDD

- 6 1- 2- 2-1 FDD

6 2- 2-1 FDD

5 2- -0 5- 5-1 FDD

6 1- 2- 2-1 FDD

/ 2- -0 -01 -01 FDD

10 2- -0 5- 100 FDD

11 2- 2-1 FDD

12 6 1- 201 201 FDD

13 201 201 FDD

14 1-1 1-1 FDD...

15 201 201 FDD

1 2- 2-1 2-1 FDD

1/ 2- 2-1 2-1 FDD

20 2- 201 203 203 FDD

21 2- 2-1 2-1 FDD

22 2- -0 -01 -01 FDD

23 6 1- 2- -0 5- 100 FDD

24 2- -0 FDD

2- 6 1- 2- -0 -01 -01 FDD

26 6 1- 2- 2-1 2-1 FDD

25 6 1- 2- 2-1

FDD

2 1- 2- 2-1 2-1 2-1 FDD

I

33 2- -0 5- 100 9DD

34 2- -0 5- 9DD

3- 6 1- 2- -0 5- 100 9DD

36 6 1- 2- -0 5- 100 9DD

35 2- -0 5- 100 9DD

3 2- -0 5- 100 9DD

3/ 2- -0 5- 100 9DD

40 2- -0 5- 100 9DD

41 2- -0 5- 100 9DD42 2- -0 5- 100 9DD

43 2- -0 5- 100 9DD

44 1- 2- -0 5- 100 9DD

7+9: 1; 1refers to te &' reso!rce bloc=s sall be located as close as possible tote downlin= operatin band b!t confined witin te transmissionbandwidt confi!ration for te cannel bandwidt $9able -.6(1.

7+9: 2; For te &: wic s!pports bot


90/108

Release 11

Table 7.3.1-3 ;eor' s!#"all!"# *ale :or re:ere"e se"s!!*!D

E-UTRA&a"$

;eor'S!#"all!"#

*ale

2 7S@03

4 7S@03

10 7S@03

12 7S@06

13 7S@06

14 7S@06

15 7S@06

1/ 7S@0

21 7S@0/

23 7S@03

5.3.1A )inim!m re"!irements $L?SM for %A

,or inter"band carrier aggregation with uplink assigned to one "/T+0 band the throughput shall be \ 57X of thema%imum throughput of the reference measurement channels as specified in 0nne%es 0.*.*! 0.*.3 and 0.3.* (with one

sided dynamic A;@G Pattern AP. ,BBFTBB for the BH"signal as described in 0nne% 0.7..F0.7.*.) withparameters specified in Table ?($&+)

3 >?($&+)

5 >?($&+)

10 >?($&+)

15 >?($&+)

20 >?($&+)

,ple/+o$e

%A@3A(A43 78A 78A 78A

FDD 78A 78A

%A@4A(12A-4 (/.2 (/.2 (/0 (/.-

FDD12 (/6.- (/3.-

%A@4A(15A-4 (/0 (/.-

FDD15 (/6.- (/3.-

7+9: 1; 9e transmitter sall be set to ?&)AJas defined in s!bcla!se 6.2.-A.

7+9: 2; Reference meas!rement cannel is A.3.2 wit one sided dynamic +%7G ?attern +?.1FDD89DD as described in Anne> A.-.1.18A.-.2.1

7+9: 3; 9e sinal power is specified per port7+9: 4; 7o re"!irements apply wen tere is at least one individ!al R: witin te transmission

bandwidt of te low band for wic te 2nd armonic is witin te transmission bandwidt ofte i band. 9e reference sensitivity is only verified wen tis is not te case $tere"!irements specified in cla!se 5.3.1 apply.

7+9: -; 9ese re"!irements apply wen tere is at least one individ!al R: witin te transmissionbandwidt of te low band for wic te 3rd armonic is witin transmission bandwidt of tei band. 9e re"!irements so!ld be verified for &' :ARF%7 of te low band $s!perscript

'


91/108

Release 11

Table 7.3.1A-0b Upl!"' o":!#ra!o" :or 4e lo ba"$

E-UTRA &a"$ 4a""el ba"$!$4 o: 4e 4!#4 ba"$ ;R& ,ple/ +o$e

EUTRA Ao":!#ra!o"

U ba"$ 1. >? 3 >? 5 >? 10 >? 15 >? 20 >?,ple/+o$e

%A@4A(12A 12 2 - 16 FDD

%A@4A(15A 15 16 FDD7+9: 1; refers to te &' reso!rce bloc=s, wic sall be centred witin te transmission bandwidt

confi!ration for te cannel bandwidt.7+9: 2; te &' confi!ration applies reardless of te cannel bandwidt of te low band !nless te &'

reso!rce bloc=s e>ceed tat specified in 9able 5.3.1(2 for te !plin= bandwidt in wic casete allocation accordin to 9able 5.3.1(2 applies.

,or band combinations including operating bands without uplink band (as noted in Table 7.7")! the re-uirements are

specified in Table ?($&+)

3 >?($&+)

5 >?($&+)

10 >?($&+)

15 >?($&+)

20 >?($&+)

,ple/+o$e

%A@2A(2/A2 (/ (/-

FDD2/ (/.5 (/5 (/4

%A@4A(2/A4 (100 (/5

FDD2/ (/.5 (/5 (/4

7+9: 1; 9e transmitter sall be set to ?&)AJas defined in s!bcla!se 6.2.-A.7+9: 2; Reference meas!rement cannel is A.3.2 wit one sided dynamic +%7G ?attern +?.1

FDD89DD as described in Anne> A.-.1.18A.-.2.17+9: 3; 9e sinal power is specified per port

Table 7.3.1A-0e Upl!"' o":!#ra!o" :or re:ere"e se"s!!*!D

E-UTRA &a"$ 4a""el ba"$!$4 ;R& ,ple/ +o$e

EUTRA Ao":!#ra!o"

EUTRAba"$

1. >?($&+)

3 >?($&+)

5 >?($&+)

10 >?($&+)

15 >?($&+)

20 >?($&+)

,ple/+o$e

%A@2A(2/A2 2- -0

FDD2/ 78A 78A 78A

%A@4A(2/A4 2- -0

FDD2/ 78A 78A 78A

,or intra"band contiguous carrier aggregation the throughput of each component carrier shall be \ 57X of the ma%imum

throughput of the reference measurement channels as specified in 0nne%es 0.*.*! 0.*.3 and 0.3.* (with one sideddynamic A;@G Pattern AP. ,BBFTBB for the BH"signal as described in 0nne% 0.7

Documents

LTE UE standards