45001-720

7/26/2019 45001-720

1/38

3GPP TS 45.001 V7.2.0 (2005-11)Technical Specification

3rdGeneration Partnership Project;

Technical Specification Group GSM/EDGERadio Access Networ;

Ph!sical la!er on the radio path;General description

"Release #$

GLOBAL SYSTEM FOR

MOBILE COMMUNICATIONS

R

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

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

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

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

7/26/2019 45001-720

2/383GPP

%eywordsGSM, layer 1, radio

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

7/26/2019 45001-720

3/38

Contents

&oreword..........................................................................................................................................................

' "cope......................................................................................................................................................'.' eferences...........................................................................................................................................................'. *bbreviations.......................................................................................................................................................

"et of channels........................................................................................................................................

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

+ The bloc# structures.............................................................................................................................

, Multiple access and timeslot structure..................................................................................................,.' -yperframes superframes and multiframes......................................................................................................

,. Time slots and bursts.........................................................................................................................................,.3 /hannel orani!ation.........................................................................................................................................

0 &re1uency hoppin capability...............................................................................................................

2 /odin and interleavin........................................................................................................................2.' General...............................................................................................................................................................2. Pac#et Traffic and /ontrol /hannels.................................................................................................................

2..' /hannel codin for PT/-.........................................................................................................................2..'.' /hannel codin for GP" PT/-........................................................................................................2..'. /hannel codin for 4GP" PT/-.....................................................................................................

2.. /hannel codin for P*//- P5//- P*G/- PP/- /P5//- /P*G/- /PP/- and /"/-.........2..3 /hannel /odin for the P*/- and MP*/-.........................................................................................

3GPP

3GPP

Postal address

3GPP support office address

50 !o"te des #"$ioles - So%&ia 'nti%olisValonne - !'*C+

Tel. 33 4 2 4 42 00 a/ 33 4 3 5 47 1

6nternet

&tt%.3%%.or

Copyright Notification

7o part may be reproduced e8cept as authorised by written permission.

The copyriht and the foreoin restrictions e8tend to reproduction in all

media.

9 ::, 3GPP Orani!ational Partners (*65 *T6" //"* 4T"6 TT* TT/)

*ll rihts reserved.

3GPP TS %&'(() *#'+'( "+((&,))$3Release #
http://www.3gpp.org/http://www.3gpp.org/

7/26/2019 45001-720

4/38

; Modulations..........................................................................................................................................

< Transmission and reception..................................................................................................................

': Other layer ' functions.........................................................................................................................

'' Performance..........................................................................................................................................

' &le8ible layer one.................................................................................................................................'.' "et of transport channels....................................................................................................................................'. Transport bloc# structure...................................................................................................................................'.3 /hannel oranisation.........................................................................................................................................'.+ Transport channel codin=multiple8in for &>O...............................................................................................

Annex A (informative): Referene onfi!"ration#######################################################################################

Annex B (informative): Re$ation% &et'een %eifiation###########################################################################

Annex C (informative): Can!e i%tor*######################################################################################################

3GPP

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

7/26/2019 45001-720

5/38

oreord

This Technical "pecification has been produced by the 3rdGeneration Partnership Project (3GPP).

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

identifyin chane of release date and an increase in version number as follows@

Aersion 8.y.!

where@

8 the first diit@

' presented to T"G for informationB

presented to T"G for approvalB

3 or reater indicates T"G approved document under chane control.

y the second diit is incremented for all chanes of substance i.e. technical enhancements corrections

updates etc.

! the third diit is incremented when editorial only chanes have been incorporated in the document.

3GPP

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

7/26/2019 45001-720

6/38

1 S$o%e

The present document is an introduction to the +, series of the diital cellular telecommunications systems G"Mtechnical specifications. 6t is not of a mandatory nature but consists of a eneral description of the orani!ation of the

physical layer with reference to the technical specifications where each part is specified in detail. 6t introducesfurthermore the reference confiuration that will be used throuhout this series of technical specifications.

1.1 !eeren$es

The followin documents contain provisions which throuh reference in this te8t constitute provisions of the presentdocument.

eferences are either specific (identified by date of publication edition number version number etc.) or

non?specific.

&or a specific reference subse1uent revisions do not apply.

&or a non?specific reference the latest version applies. 6n the case of a reference to a 3GPP document (includin

a G"M document) a non?specific reference implicitly refers to the latest version of that document in the sameRelease as the present document.

C'D 3GPP T '.in# /ontrol= Medium *ccess /ontrol (>/=M*/) protocolF.

C'3D 3GPP T" +,.::@ EMultiple8in and multiple access on the radio pathF.

C'+D 3GPP T" +,.::3@ E/hannel codinF.

C',D 3GPP T" +,.::+@ EModulationF.

C'0D 3GPP T" +,.::,@ Eadio transmission and receptionF.

C'2D 3GPP T" +,.::;@ Eadio subsystem lin# controlF.

C';D 3GPP T" +,.::in# adaptationF.

C'

7/26/2019 45001-720

7/38

C:D 3GPP T" +,.:,0@ EG"M /ordless Telephony "ystem (/T")B Phase 'B /T"?&P adio subsystemF.

C'D 3GPP T +,.ayer OneF.

1.2 'reiations

*bbreviations used in the present document are listed in 3GPP T '.

7/26/2019 45001-720

8/38

bloc# structures for T/-=&" , full rate bloc# structures for O?T/-=&" and 3 half rate bloc# structures forO?T/-=-" are defined.

*ll channels are bi?directional unless otherwise stated. Hnidirectional downlin# full rate channels T/-=& aredefined as the downlin# part of the correspondin T/-=&. Hnidirectional uplin# full rate channels are &&".

The allocated uplin# and downlin# PT/- are used independently of each other. ependent allocation of uplin#and downlin# is possible.

Multislot confiurations for circuit switched connections are defined as multiple (' up to ;) full rate channels

allocated to the same M". *t least one channel shall be bi?directional (T/-=&). The multislot confiuration issymmetric if all channels are bi?directional (T/-=&) and asymmetric if at least one channel is unidirectional(T/-=&).

-ih "peed /ircuit "witched ata (-"/") is an e8ample of multislot confiuration in which all channelsshall have the same channel mode.

7OT4@ &or the ma8imum number of timeslots to be used for a -"/" confiuration see 3GPP T" 3.:3+.

Multislot confiurations for pac#et switched connections are defined as multiple (' up to ;) PT/-=Hs and one

P*//- for one mobile oriinated communication or multiple (' up to ;) PT/-=s and one P*//- for onemobile terminated communication respectively allocated to the same M". 6n this conte8t allocation refers to thelist of P/- that may dynamically carry the PT/-s for that specific M". The P*//- shall be mapped ontoone P/- carryin one PT/-=H or PT/-=. That P/- shall be indicated in the resource allocationmessae (see 3GPP T" ++.:0:). 6n the case of point?to?multipoint transmission for M5M" multiple (' up to ,)PT/-=s and one P*//- can be allocated for simultaneous communication with multiple mobiles.

Multislot confiurations for dual transfer mode are defined as one bi?directional traffic channel (T/-=-O?T/-=- T/-=& O?T/-=& or 4?T/-=&) and one pac#et channel combination. The pac#et channelcombination may consist of one PT/-=H and one P*//- for one mobile oriinated communication ormultiple (' or ) PT/-=s and one P*//- for one mobile terminated communication respectively allocatedto the same M". The P*//- shall be mapped onto one P/- carryin one PT/-=H or PT/-=. ThatP/- shall be indicated in the resource allocation messae (see 3GPP T" ++.:0:).

*n M" capable of dual transfer mode (TM) shall support as a minimum TM multislot class , which utilisesthe two?timeslot channeli!ation method i.e. a sinle T/-=& or O?T/-=& plus a sinle PT/-=&. 6n addition theM" supportin TM shall support T/-=- I P/-=& confiuration with the adaptive multirate (*M) speechcoder for voice codin.

) The sinallin channels@ these can be sub?divided into (P)5//- ((pac#et) broadcast control channel) (P)///-((pac#et) common control channel) "//- (stand?alone dedicated control channel) (P)*//- ((pac#et)associated control channel) pac#et timin advance control channel (PT//-) and /T"//- (/T" controlchannel). *n associated control channel is always allocated in conjunction with either a T/- or an "//-. *pac#et associated control channel is always allocated in conjunction to one or multiple PT/- concurrently

assined to one M". Two types of *//- for circuit switched connections are defined@ continuous stream (slow*//-) and burst stealin mode (fast *//-). &or the purpose of this series of technical specifications thefollowin sinallin channels are distinuished@

? stand?alone dedicated control channel four of them mapped on the same basic physical channel as the ///-("//-=+)B

? stand?alone dedicated control channel eiht of them mapped on a separate basic physical channel("//-=;)B

? full rate fast associated control channel (&*//-=&)B

? enhanced circuit switched full rate fast associated control channel (4?&*//-=&)B

? half rate fast associated control channel (&*//-=-)B

? full rate octal fast associated control channel (O?&*//-=&)B

? half rate octal fast associated control channel (O?&*//-=-)B

? slow T/-=& O?T/-=& or 4?T/-=& associated control channel ("*//-=T&)B

3GPP

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

7/26/2019 45001-720

9/38

? slow T/-=& or O?T/-=& associated control channel for enhanced power control ("*//-=TP&)B

? slow T/-=- or O?T/-=- associated control channel ("*//-=T-)B

? slow T/-=- or O?T/-=- associated control channel for enhanced power control ("*//-=TP-)B

? slow T/-=& O?T/-=& or 4?T/-=& associated control channel for multislot confiurations ("*//-=M)B

? slow T/-=& or O?T/-=& associated control channel for enhanced power control in multislot confiurations("*//-=MP)B

? slow T/-=& associated control channel for /T" ("*//-=/T")B

? slow "//-=+ associated control channel ("*//-=/+)B

? slow "//-=; associated control channel ("*//-=/;)B

? pac#et associated control channel (P*//-)B

? pac#et timin advance control channel (PT//-)B

? broadcast control channel (5//-)B

? pac#et broadcast control channel (P5//-)B

? random access channel (i.e. uplin# ///-) (*/-)B

? pac#et random access channel (i.e. uplin# P///-) (P*/-)B

? pain channel (part of downlin# ///-) (P/-)B

? pac#et pain channel (part of downlin# P///-) (PP/-)B

? access rant channel (part of downlin# ///-) (*G/-)B

? pac#et access rant channel (part of downlin# P///-) (P*G/-)B

? notification channel (part of downlin# ///-) (7/-)B

? /T" beacon channel (part of downlin# /T"//-) (/T"5/-?&5 and /T"5/-?"5)B

? /T" pain channel (part of downlin# /T"//-) (/T"P/-)B

? /T" access re1uest channel (part of uplin# /T"//-) (/T"*/-)B

? /T" access rant channel (part of downlin# /T"//-) (/T"*G/-)B

? enhanced inband associated control channel (4?6*//-)B

? enhanced power control channel (4P//-)B

? enhanced power control channel for multislot confiurations (4P//-=M)B

? pac#et random access channel for M5M" (MP*/-).

*ll associated control channels have the same direction (bi?directional or unidirectional) as the channels they are

associated to. The unidirectional "*//-=M "*//-=MP or 4P//-=M are defined as the downlin# partof "*//-=M "*//-=MP or 4P//-=M respectively.

hen there is no need to distinuish between different sub?cateories of the same loical channel only the enericname will be used meanin also all the sub?cateories irrespective of modulation used ("*//- will mean allcateories of "*//-s "*//-=T will mean both the slow T/- associated control channels with and without

enhanced power control etc.).

The loical channels mentioned above are mapped on physical channels that are described in this set of technicalspecifications. The different physical channels provide for the transmission of information pertainin to hiher layersaccordin to a bloc# structure.

3GPP

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

7/26/2019 45001-720

10/38

3 !eeren$e $oni"ration

&or the purpose of elaboratin the physical layer specification a reference confiuration of the transmission chain isused as shown in anne8 *. This reference confiuration also indicates which parts are dealt with in details in whichtechnical specification. 6t shall be noted that only the transmission part is specified the receiver bein specified only via

the overall performance re1uirements. ith reference to this confiuration the technical specifications in the +, seriesaddress the followin functional units@

? 3GPP T" +,.::@ burst buildin and burst multiple8inB

? 3GPP T" +,.::3@ codin reorderin and partitionin and interleavinB

? 3GPP T" +,.::+@ differential encodin and modulationB

? 3GPP T" +,.::,@ transmitter antenna and receiver (overall performance).

7OT4@ 3GPP T" +,.:,0 addresses the transmitter and receiver of the /T"?&P.

This reference confiuration defines also a number of points of vocabulary in relation to the name of bits at differentlevels in the confiuration. 6t must be outlined in the case of the encrypted bits that they are named only with respect totheir position after the encryption unit and not to the fact that they pertain to a flow of information that is actuallyencrypted.

3GPP

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

7/26/2019 45001-720

11/38

4 T&e lo$ str"$t"res

The different bloc# structures are described in more detail in 3GPP T" +,.::3. * summarised description appears intable ' in terms of net bit rate lenth and recurrence of bloc#s.

Ta0le )1 2hannel 0loc structures

3GPP

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

7/26/2019 45001-720

12/38

T!pe of channel net 0it rate"0it/s$

0loc lenth"0its$

0loc recurrence"4s$

"ll rate s%ee$& TC61 13,0 12 7 20

en&an$ed "ll rate s%ee$& TC61 12,2 170 74 20

&al rate s%ee$& TC62 5, 5 17 20

'da%tie "ll rate s%ee$& TC6 (12,2 its) 12,2 244 20




'da%tie "ll rate s%ee$& TC6 (,7 its) ,7 134 20

'da%tie "ll rate s%ee$& TC6 (5, its) 5, 11 20



'da%tie &al rate s%ee$& TC6 (7,5 its) 7,5 123 3 20


'da%tie &al rate s%ee$& TC6 (,7 its) ,7 110 24 20

'da%tie &al rate s%ee$& TC6 (5, its)

5, 102 1 20'da%tie &al rate s%ee$& TC6 (5,15 its) 5,15 1 12 20


'da%tie &al rate -PS8 s%ee$& TC6(12,2 its)

12,2 244 20


10,2 204 20


7,5 15 20


7,4 14 20

'da%tie &al rate -PS8 s%ee$& TC6(,7 its)

,7 134 20

'da%tie &al rate -PS8 s%ee$& TC6(5, its)

5, 11 20


5,15 103 20


4,75 5 20

9ideand 'da%tie "ll rate s%ee$& TC6(12,5 its)

12,5 253 20

9ideand 'da%tie "ll rate s%ee$& TC6 (,5its)

,5 177 20

9ideand 'da%tie "ll rate s%ee$& TC6 (,0its)

,0 132 20

9ideand 'da%tie "ll rate -PS8 s%ee$&TC6 (23,5 its)

23,5 477 20


15,5 317 20


12,5 253 20

9ideand 'da%tie "ll rate -PS8 s%ee$&TC6 (,5 its)

,5 177 20

9ideand 'da%tie "ll rate -PS8 s%ee$&TC6 (, its)

,0 132 20

($ontin"ed)

9ideand 'da%tie &al rate -PS8 s%ee$&TC6 (12,5 its)

12,5 253 20

9ideand 'da%tie &al rate -PS8 s%ee$&TC6 (,5 its)

,5 177 20

9ideand 'da%tie &al rate -PS8 s%ee$&

TC6 (, its)

,0 132 20

data +-TC6 (43,2 its)3

data +-TC6 (32,0 its)3

43,5

32,0

70

40

20

20

3GPP

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

7/26/2019 45001-720

13/38


0loc lenth"0its$

0loc recurrence"4s$

data +-TC6 (2, its)3 2,0 50 20

data TC6 (14,4 its)3

data TC6 (, its)3

14,5

12,0

20

0

20

5

data TC6 (4, its)

3 ,0 0 10

data TC6 (2,4 its)3 3, 3 10

P:TC6 (CS-1) ,05 11 -

P:TC6 (CS-2) 13,4 2 -

P:TC6 (CS-3) 15, 312 -

P:TC6 (CS-4) 21,4 42 -

P:TC66 (CS-1) 4,525 11 -

P:TC66 (CS-2) ,7 2 -

P:TC66 (CS-3) 7, 312 -

P:TC66 (CS-4) 10,7 42 -

P:TC6 (MCS-1)10 10, 212 -

P:TC6 (MCS-2)10 13,0 20 -

P:TC6 (MCS-3)10 1, 332 -

P:TC6 (MCS-4)10 1,4 3 -

P:TC6 (MCS-5)10 24,05 41 -

P:TC6 (MCS-)10 31,25 25 -

P:TC6 (MCS-7)10 47,45 4 -

P:TC6 (MCS-)10 57,05 1141 -

P:TC6 (MCS-)10 1,5 1237 -

P:TC66 (MCS-1)10 5,3 212 -

P:TC66 (MCS-2)10 ,5 20 -

P:TC66 (MCS-3)10 ,3 332 -

P:TC66 (MCS-4)10 ,7 3 -

P:TC66 (MCS-5)10 12,025 41 -

P:TC66 (MCS-)10 15,25 25 -

P:TC66 (MCS-7)10 23,725 4 -

P:TC66 (MCS-)10 2,525 1141 -

P:TC66 (MCS-)10 30,25 1237 -

"ll rate 'CC6 ('CC6) ,2 14 20

&al rate 'CC6 ('CC66)en&an$ed $ir$"it sit$&ed "ll rate 'CC6 (+-'CC6)

4,

,2

14

14

40

20

"ll rate o$tal 'CC6 (;-'CC6) ,2 14 20

&al rate o$tal 'CC6 (;-'CC66) 4, 14 40

S:CC6 575 (

0,72) 14 3 0013 (235)

S'CC6 (it& TC6)4 115300 (0,33) 1 1 40

S'CC6 (it& S:CC6)4 275 (0,31) 1 1 12013 (471)

P'CC67 11P'CC667 11

7/26/2019 45001-720

14/38


0loc lenth"0its$

0loc recurrence"4s$

!'C65 r=275 (0,034) 3 0013 (235)

P!'C6 ( it '$$ess ation on layer 1, and 1 its are "sed or &i&er layers.*;T+ 5 CCC6 $&annels are $o>>on to all "sers o a $ell@ t&e total n">er o lo$s (>, n, %, r) %er re$"rren$e

%eriod is adA"stale on a $ell y $ell asis and de%ends "%on t&e %ara>eters (er in t&e lo$ lent& $orres%onds to t&e $lass ? its, t&e se$ond n">er $orres%onds to t&e$lass ?? its).

*;T+ CTSes, s"%erra>es and >"ltira>es

* diarammatic representation of all the time frame structures is in fiure '. The lonest recurrent time period of the

structure is called hyperframe and has a duration of 3 h ; mn ,3 s 20: ms (or ' ,3320 s). The TM* frames arenumbered modulo this hyperframe (TM* frame number or &7 from : to 2', 0+2). This lon period is needed tosupport cryptoraphic mechanisms defined in 3GPP T" +3.::.

3GPP

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

7/26/2019 45001-720

15/38

One hyperframe is subdivided in :+; superframes which have a duration of 0' seconds. The superframe is the leastcommon multiple of the time frame structures. The superframe is itself subdivided in multiframesB four types ofmultiframes e8ist in the system@

? a 0? multiframe (,' per superframe) with a duration of ': ms comprisin 0 TM* frames. This multiframe

is used to carry T/- (and "*//-=T) and &*//-B

? a ,'? multiframe (0 per superframe) with a duration of 3,+ ms (3 :0:='3 ms) comprisin ,' TM* frames.

This multiframe is used to carry 5//- ///- (7/- *G/- P/- and */-) and "//- (and "*//-=/).

? a ,?multiframe (,, per superframe) with a duration of +: ms comprisin , TM* frames. This multiframeis used to carry P5//- P///- (P*G/- PP/- and P*/-) P*//- PT/- PT//- and MP*/-. The,?multiframe is not shown in &iure ' but can be seen as two 0?multiframes with TM* frames numberedfrom : to ,'. &or /ompact this ,?multiframe (,' per superframe) is used to carry /&//- /"/- /P5//-

/P///- (/P*G/- /PP/- and /P*/-) P*//- PT/- and PT//-.

? a ,?multiframe (,, per superframe) for /T" with a duration of +: ms comprisin , TM* frames. Thismultiframe is used to carry /T"//- (/T"5/- /T"P/- /T"*/- and /T"*G/-). The ,?multiframe for/T" is shown in &iure b.

* TM* frame comprisin eiht time slots has a duration of

+0 (0:='3) ms.

5.2 Ti>e slots and "rsts

The time slot is a time interval of ,20< s (',=0 ms) that is ',0, symbol+duration and its physical content is

called a burst. &our different types of bursts e8ist in the system. * diaram of these bursts appears in fiure '.

? normal burst (75)@ this burst is used to carry information on traffic and control channels e8cept for */-

P*/- and /P*/-. 6t contains ''0 encrypted symbol and includes a uard time of ;, symbol duration (

3:+0 s)B

? fre1uency correction burst (&5)@ this burst is used for fre1uency synchroni!ation of the mobile. 6t is e1uivalent toan unmodulated carrier shifted in fre1uency with the same uard time as the normal burst. 6t is broadcast

toether with the 5//-. The repetition of &5s is also named fre1uency correction channel (&//-). &or/ompact &5 is broadcast toether with the /P5//- and the repetition of &5s is also named /ompactfre1uency correction channel (/&//-). 6n /T" the fre1uency correction burst is broadcast in the /T"5/-?&5

channelB

? synchroni!ation burst ("5)@ this burst is used for time synchroni!ation of the mobile. 6t contains a lon traininse1uence and carries the information of the TM* frame number (&7) and base station identity code (5"6/ see3GPP T 3.::3). 6t is broadcast toether with the fre1uency correction burst. The repetition of synchroni!ationbursts is also named synchroni!ation channel ("/-). &or /ompact the repetition of synchroni!ation bursts is

also named /ompact synchroni!ation channel (/"/-). 6n /T" the synchroni!ation burst is used for the/T"5/-?"5 and the /T"*/- and it carries different information dependin on the channel usin itB

? access burst (*5)@ this burst is used for random access and is characteri!ed by a loner uard period (0;, bitduration or , s) to cater for burst transmission from a mobile which does not #now the timin advance at the

first access (or after handover).This allows for a distance of 3, #m. 6n e8ceptional cases of cell radii larer than3, #m some possible measures are described in 3GPP T +3.:3:. The access burst is used in the (P)*/-/P*/- and MP*/- after handover on the uplin# of a channel used for a voice roup call in order to

re1uest the use of that uplin# as well as on the uplin# of the PT//- to allow estimation of the timin advancefor M" in pac#et transfer mode.

+ One symbol is either one or three bits dependin on the modulation used@ GM"% or ;P"%.

3GPP

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

7/26/2019 45001-720

16/38

0 1 2 3 4 5 2042 2043 2044 2045 204 2047

0 1 2 3

0 1

1 (2-ra>e) >"ltira>e D 2 T:M' ra>es (120 >s)

(D 51 (2-ra>e) >"ltira>es or 2 (51-ra>e) >"ltira>es)

47 4 4 50

24 25

1 (51-ra>e) >"ltira>e D 51 T:M' ra>es (30013 >s)

0 1 2 3 4 47 4 4 500 1 2 3 4 22 23 24 25

0 1 2 3 4 5 7

1 T:M' ra>e D ti>e slots (1202 or 4,15 >s)

1 ti>e slot D 15,25 sy>ol d"rations (152 or 0,577 >s)

(1 sy>ol d"ration D 413 or 3, Es)

T< +n$ry%ted its Trainin seF"en$e +n$ry%ted its T< GP,2535253

i/ed its T< GP.253

T< +n$ry%ted its +n$ry%ted its T< GP,25343

T< +n$ry%ted its T< GP,253341

33

142

*or>al "rst (*es (3 & 2 >n 53 s 70 >s)

3

Tod"lation one sy>ol is one it PS8 >od"lation one sy>ol is t&ree its

5iure )1 Ti4e fra4es ti4e slots and 0ursts

3GPP

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

7/26/2019 45001-720

17/38

5.3 C&annel oraniation

The channel orani!ation for the traffic channels (T/-) &*//-s and "*//-=T uses the 0?frame multiframe. 6t isorani!ed as described in fiure where only one time slot per TM* frame is considered.

T T T T T T T T T T T T ' T T T T T T T T T T T T -

T t T t T t T t T t T t ' T t T t T t T t T t T a

(a)

()

2 ra>es D 120 >s

(a) $ase o one "ll rate TC6

T, t T:M' ra>e or TC6 ', a T:M' ra>e or S'CC6T- idle T:M' ra>e

() $ase o to &al rate TC6s

t

5iure +1 Traffic channel orani6ation

The &*//- is transmitted by pre?emptin half or all of the information bits of the bursts of the T/- to which it isassociated (see 3GPP T" +,.::3).

The channel orani!ation for the control channels (e8cept &*//-s and "*//-=T) uses the ,'?frame multiframe. 6t isorani!ed in the downlin# and uplin# as described in fiure 3.

The channel orani!ation for pac#et data channels uses the ,? multiframe. &ull rate pac#et data channels are orani!edas described in fiure a'. -alf rate pac#et data channels can be orani!ed as described in fiure a.

&+ TDMA 5ra4es

I D ?dle ra>eT D ra>e "sed or PTCC6

7/26/2019 45001-720

18/38

&+ TDMA 5ra4es

3ownlin#

Hplin#

P G G 5

* * * * * * * * * * * * * *K K

K K K K K K K K K K K K K K K K K K K K K K K K K 5K K K

K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K K

K KK K K KK K K K

' T:M' ra>e or CTS'!C6e or CTSPC6

G T:M' ra>e or CTS'GC6I ?dle ra>e

5iure +01 &+,4ultifra4e for 2TS

reF"en$y &o%%in $a%ailityThe fre1uency hoppin capability is optionally used by the networ# operator on all or part of its networ#. The main

advantae of this feature is to provide diversity on one transmission lin# (especially to increase the efficiency of codinand interleavin for slowly movin mobile stations) and also to averae the 1uality on all the communications throuhinterferers diversity. 6t is implemented on all mobile stations.

The principle of slow fre1uency hoppin is that every mobile transmits its time slots accordin to a se1uence offre1uencies that it derives from an alorithm. The fre1uency hoppin occurs between time slots and therefore a mobile

station transmits (or receives) on a fi8ed fre1uency durin one time slot (,22 Ls) and then must hop before the time

slot on the ne8t TM* frame. ue to the time needed for monitorin other base stations the time allowed for hoppin isappro8imately ' ms accordin to the receiver implementation. The receive and transmit fre1uencies are always duple8fre1uencies.

The fre1uency hoppin se1uences are orthoonal inside one cell (i.e. no collisions occur between communications ofthe same cell) and independent from one cell to an homoloue cell (i.e. usin the same set of & channels or cellallocation). The hoppin se1uence is derived by the mobile from parameters broadcast at the channel assinmentnamely the mobile allocation (set of fre1uencies on which to hop) the hoppin se1uence number of the cell (whichallows different se1uences on homoloue cells) and the inde8 offset (to distinuish the different mobiles of the cellusin the same mobile allocation). The non?hoppin case is included in the alorithm as a special case. The different

parameters needed and the alorithm are specified in 3GPP T" +,.::.

6n case of multi band operation fre1uency hoppin channels in different bands of operation e.. between channels inG"M and /" is not supported. &re1uency hoppin within each of the bands supported shall be implemented in themobile station.

6t must be noted that the basic physical channel supportin the 5//- does not hop.

&or /OMP*/T fre1uency hoppin is not permitted on /P5//- or /P///- for a specific amount of bloc#s. Onother fre1uency hoppin channels a reduced mobile allocation is used on the correspondin bloc#s.

6n /T" the fre1uency hoppin capability shall be used. The fre1uency hoppin se1uences are independently chosen byeach /T"?&P. The hoppin se1uence is derived by the /T"?M" from parameters transmitted durin the attachmentprocedure. The different parameters needed and the alorithm are specified in 3GPP T" +,.::. 6t must be noted thatthe basic physical channels supportin the /T"5/- and some other particular channels do not hop (see 3GPP T"+,.::).

3GPP

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

7/26/2019 45001-720

19/38

7/26/2019 45001-720

20/38

7 Codin and interleain

7.1 General

* brief description of the codin schemes that are used for the loical channels mentioned in clause plus thesynchroni!ation channel ("/- see subclause ,.) is made in the followin tables. &or all the types of channels thefollowin operations are made in this order@

? e8ternal codin (bloc# codin)B

? internal codin (convolutional codin)B

? interleavin.

*fter codin the different channels (e8cept */- "/- /T"5/-?"5 and /T"*/-) are constituted by bloc#s ofcoded information bits plus coded header (the purpose of the header is to distinuish between T/- and &*//-bloc#s). These bloc#s are interleaved over a number of bursts. The bloc# si!e and interleavin depth are channel

dependent. *ll these operations are specified in 3GPP T" +,.::3.

&or the adaptive speech traffic channels a sinalin codeword is attached to the bloc# of coded information bits beforeinterleavin. The sinalin codeword is a bloc# code representation of a ?bits inband information word (rate for theadaptive full rate speech traffic channels N for the adaptive half rate speech traffic channels rate '=0 for the adaptivehalf rate ;?P"% speech and ;?P"% wideband speech traffic channels and rate '=' for the adaptive full rate ;?P"%wideband speech traffic channels).

3GPP

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

7/26/2019 45001-720

21/38

3GPP

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

7/26/2019 45001-720

22/38

T!pe of channel 0its/0locdata8parit!8tail)

con9olutional coderate

coded 0its per0loc

interlea9in depth

T/-=&" 45

class 6 12 3 4 K 37

class 66 7 0 0 - 7

T/-=4&" 45 class 6 170 15 4 K 37

class 66 74 4 0 - 7

T/-=-" 22 4

class 63 53 104211 211

class 66 1700 17

T/-=*&"'.+ 45

/lass 6, 244 4 127224 44

T/-=*&"':.+ 45

/lass 60 204 4 107224 44

T/-=*&"2.

7/26/2019 45001-720

23/38

3GPP

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

7/26/2019 45001-720

24/38

3GPP

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

7/26/2019 45001-720

25/38

($ontin"ed)



coded 0its per0loc

interlea9in depth

T/-=&"'.0,+ 45

/lass 63 253 4 2344 44

T/-=&";.;,

+ 45

/lass 6+ 177 4 1744 44

T/-=&"0.0+ 45

/lass 6, 132 4 2 44

O?T/-=&"3.;,2 13

/lass 63 477 1344 1344

O?T/-=&"',.;,2 13

/lass 63 317 4712 1344

O?T/-=&"'.0,2 13

/lass 63 253 1471 1344

O?T/-=&";.;,2 13

/lass 6+ 177 4 1344

O?T/-=&"0.02 13

/lass 6; 132 32 1344

O?T/-=-"'.0,0 4 4

/lass 63 253 2572 72

O?T/-=-";.;,0 4 4

/lass 6+ 177 32 72

O?T/-=-"0.00 4 4

/lass 6; 132 314 72

O?T/-=*-"'.0 4 4

/lass 6, 244 21 72

O?T/-=*-"':.0 4 4

/lass 60 204 2 72

O?T/-=*-"2.

7/26/2019 45001-720

26/38

($ontin"ed)

T/-=&.+ 72 0 4 1 45

T/-=-.+ 72 0 4 13 22 1

($ontin"ed)

($ontin"ed)&*//-=& 14 40 4 K 45

4?&*//-=& 14 40 4 K 45 4

&*//-=- 14 40 4 K 45

O?&*//-=& 14 40 1 13

O?&*//-=- 14 40 1 13

"//-s "*//-s:5//- 7/- *G/-

P/-

/5/- 14 40 4 K 45 4

"*//-=TP

"*//-=MP

14 1

4021

K 45 4

4?6*//- 3 122 24 4

4P//- 3 L22 12 1

*/- 4 K 3 1

"/- 25 10 4 K 7 1

/T"5/-?"5 25 10 4 K 7 1

/T"P/- 14 40 4 K 45 4

/T"*/- 25 10 4 K 7 1

/T"*G/- 14 40 4 K 45 4

3GPP

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

7/26/2019 45001-720

27/38

($ontin"ed)

*;T+ 1 T&e tail its >entioned &ere are t&e tail its o t&e $onol"tional $ode.

*;T+ 2 T&e 3 %arity its or TC6S dete$t an error on 50 its o $lass ?.

*;T+ 3 T&e 3 %arity its or TC66S dete$t an error on 22 its o $lass ?.*;T+ 4 or TC6'S and TC69S an its in and sinallin $odeord is atta$&ed to t&e lo$ o $oded

inor>ation eore interleain.' dedi$ated lo$ str"$t"re to $arry t&e $o>ort noise inor>ation asso$iated it& t&e ada%tie "llrate s%ee$& trai$ $&annels is also s%e$iied in 3GPP TS 45.003.

*;T+ 5 T&e %arity its or TC6'S12.2 and ;-TC6'6S12.2 dete$t an error on 1 its o $lass ?.*;T+ T&e %arity its or TC6'S10.2 and ;-TC6'6S10.2 dete$t an error on 5 its o $lass ?.*;T+ 7 T&e %arity its or TC6'S7.5 and ;-TC6'6S7.5 dete$t an error on 75 its o $lass ?.*;T+ T&e %arity its or TC6'S7.4 and ;-TC6'6S7.4 dete$t an error on 1 its o $lass ?.*;T+ T&e %arity its or TC6'S.7 and ;-TC6'6S.7 dete$t an error on 55 its o $lass ?.*;T+ 10 T&e %arity its or TC6'S5. and ;-TC6'6S5. dete$t an error on 55 its o $lass ?.*;T+ 11 T&e %arity its or TC6'S5.15 and ;-TC6'6S5.15 dete$t an error on 4 its o $lass ?.*;T+ 12 T&e %arity its or TC6'S4.75 and ;-TC6'6S4.75 dete$t an error on 3 its o $lass ?.*;T+ 13 or TC6'6S a 4 its in and sinallin $odeord is atta$&ed to t&e lo$ o $oded inor>ation

eore interleain' dedi$ated lo$ str"$t"re to $arry t&e $o>ort noise inor>ation asso$iated it& t&e ada%tie &alrate s%ee$& trai$ $&annels is also s%e$iied in 3GPP TS 45.003.

*;T+ 14 T&e %arity its or TC6'6S7.5 dete$t an error on 7 its o $lass ?.*;T+ 15 T&e %arity its or TC6'6S7.4 dete$t an error on 1 its o $lass ?.*;T+ 1 T&e %arity its or TC6'6S.7 dete$t an error on 55 its o $lass ?.*;T+ 17 T&e %arity its or TC6'6S5. dete$t an error on 55 its o $lass ?.*;T+ 1 T&e %arity its or TC6'6S5.15 dete$t an error on 4 its o $lass ?.*;T+ 1 T&e %arity its or TC6'6S4.75 dete$t an error on 3 its o $lass ?.*;T+ 20 it& t&e e/$e%tion o S'CC6TP and S'CC6MP*;T+ 21 40 "n$oded d">>y its are inserted or t&e >a%%in o t&e en&an$ed %oer $ontrol sinallin*;T+ 22 lo$ $ode is a%%lied*;T+ 23 T&e %arity its or TC69S12.5, ;-TC69S23.5, ;-TC69S15.5, ;-TC69S12.5 and

;-TC696S12.5 dete$t an error on 72 its o $lass ?.

*;T+ 24 T&e %arity its or TC69S.5, ;-TC69S.5 and ;-TC696S.5 dete$t an error on 4its o $lass ?.*;T+ 25 T&e %arity its or TC69S.0 dete$t an error on 54 its o $lass ?.*;T+ 27 or ;-TC69S a 24 its in and sinallin $odeord is atta$&ed to t&e lo$ o $oded inor>ation

eore interleain.' dedi$ated lo$ str"$t"re to $arry t&e $o>ort noise inor>ation asso$iated it& t&e ada%tie "llrate PS8 ideand s%ee$& trai$ $&annels is also s%e$iied in 3GPP TS 45.003.

*;T+ 2 T&e %arity its or ;-TC69S. and ;-TC696S. dete$t an error on 54 its o $lass ?.


Reed,Solo4oncode rate


coded 0its per0loc

interlea9in depth

4?T/-=&+3.

4?T/-=&3.:

4?T/-=&;.;

70 0

40 0

50 0

*'

*'

735

713

4132

13

13

132

13

1

12

1

7.2 Pa$et Trai$ and Control C&annels

*ll pac#et traffic and control channels e8cept P*/- use rectanular interleavin of one adio 5loc# over fourbursts in consecutive TM* frames.

7.2.1 C&annel $odin or P:TC6

7.2.1.1 C&annel $odin or GP!S P:TC6

&our different codin schemes /"?' to /"?+ are defined for the GP" adio 5loc#s carryin >/ data bloc#s. &orthe adio 5loc#s carryin >/=M*/ /ontrol bloc#s code /"?' is always used. The e8ceptions are messaes that use

3GPP

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

7/26/2019 45001-720

28/38

the e8istin *ccess 5urst (see 3GPP T" +,.::3 e.. Pac#et /hannel e1uest). *n additional codin scheme is definedfor the *ccess 5urst that includes '' information bits.

The first step of the codin procedure is to add a 5loc# /hec# "e1uence (5/") for error detection. &or /"?' ? /"?3 thesecond step consists of pre?codin H"& (e8cept for /"?') addin four tail bits and a convolutional codin for error

correction that is punctured to ive the desired codin rate. &or /"?+ there is no codin for error correction.

The details of the codes are shown in the table below includin@

? the lenth of each fieldB

? the number of coded bits (after addin tail bits and convolutional codin)B

? the number of punctured bitsB

? the data rate includin the >/ header and >/ information.

Sche4e 2ode rate :S5 Pre,coded:S5

Radio loc e/ data bloc#s. &or the adio 5loc#s carryin >/=M*/ /ontrol bloc#s code /"?' is always used.The e8ceptions are messaes that use the e8istin *ccess 5urst (see 3GPP T" +,.::3 e.. Pac#et /hannel e1uest). *nadditional codin scheme is defined for the *ccess 5urst that includes '' information bits.

To ensure stron header protection the header part of the adio 5loc# is independently coded from the data part of theadio 5loc# (; bit // calculated over the header ?e8cl. H"&? for error detection followed by rate '=3 convolutionalcodin and eventually puncturin? for error correction).

The M/"s are divided into different families * 5 and /. 4ach family has a different basic unit of payload (see 3GPP

T" +3.:0+). ifferent code rates within a family are achieved by transmittin a different number of payload unitswithin one adio 5loc#. &or families * and 5 ' or + payload units are transmitted for family / only ' or payloadunits are transmitted.

hen + payload units are transmitted (M/"?2 M/"?; and M/"?/ bloc#s(i.e. with separate se1uence numbers and bloc# chec# se1uences).

The first step of the codin procedure is to add a 5loc# /hec# "e1uence (5/") for error detection.

The second step consists of addin si8 tail bits (T5) and a '=3 rate convolutional codin for error correction that ispunctured to ive the desired codin rate.

The H"& has ; states which are represented by a binary 3 bit field in the M*/ -eader. The H"& is encoded to 'symbols similarly to GP" (' bits for GM"% modes and 30 bits for ;P"% modes).

3GPP

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

7/26/2019 45001-720

29/38

M"s supportin 4GP" shall support M/"?' to M/"?< in downlin# and M/"?' to M/"?+ in uplin#. 6n case an M"supportin 4GP" is ;?P"% capable in uplin# it shall also support M/"?, to M/"?< in uplin#. * networ# supportin4GP" may support only some of the M/"s.

The details of the 4GP" codin schemes are shown in the table below. *n e8haustive description of the 4GP"

codin schemes can be found in 3GPP T" +,.::3.

2odin para4eters for the EGPRS codin sche4es

Sche4e 2ode rate 7eader 2ode rate

Modulation R=2 0locsper Radio

loc"+(4s$

Raw Datawithin one

Radioloc

5a4il! 2S Tailpa!load

72S Data rate0/s

MCS- 1,0 0,3

PS8

2 2/52 ' 2/12 2/

5,2

MCS- 0,2 0,3 2 2/544 ' 54,4

MCS-7 0,7 0,3 2 2/44 < 44,

MCS- 0,4 13 1 5248544

'

12

2,27,2

MCS-5 0,37 13 1 44 < 22,4

MCS-4 1,0 0,53

GMS8

1 352 C 17,

MCS-3 0,5 0,53 1 24824 and

2

' 14,13,

MCS-2 0, 0,53 1 224 < 11,2

MCS-1 0,53 0,53 1 17 C ,

7ote@ The italic captions indicate the 0 octets of paddin when retransmittin M/"?; bloc# with M/"?3 or

M/"?0. &or M/"?3 the 0 octets of paddin are sent every second bloc# (see 3GPP T" ++.:0:).

7.2.2 C&annel $odin or P'CC6, P

7/26/2019 45001-720

30/38

Trans>ission and re$e%tion

The modulated stream is then transmitted on a radio fre1uency carrier. The fre1uency bands and channel arranementsare the followin@

i) T?G"M 3;: band@? for T?G"M 3;: the system is re1uired to operate in the followin band@

? 3;: M-! to 3;

7/26/2019 45001-720

31/38

i8) "tandard or primary G"M

7/26/2019 45001-720

32/38

The specific & channels toether with the re1uirements on the transmitter and the receiver will be found in 3GPPT" +,.::, and in 3GPP T" +,.:,0 for the /T"?&P.

6n order to allow for low power consumption for different cateories of mobiles (e.. vehicle mounted hand?held ..)different power classes have been defined. &or G"M +:: G"M 2:: T?G"M ;': G"M ;,: and G"M

7/26/2019 45001-720

33/38

12 le/ile layer one

ith the &le8ible >ayer One (&>O) the physical layer offers transport channels to the M*/ sublayer of >ayer (see3GPP T +,.O. On transport channelstransport bloc#s (T5) are e8chaned between the M*/ sublayer and the physical layer on a Transmission Time 6nterval

basis (TT6). * transport channel is characteri!ed by how the information is transferred over the radio interface. &>O isconfiured by >ayer 3.

Medium *ccess /ontrol

&le8ible >ayer One

Transport Channels

>ayer 3

5iure %1 Radio interface protocol architecture around the ph!sical la!er for 5=>

6n the followin subclauses the new concepts and definitions introduced by &>O are e8plained. The multiple accessand timeslot structure of section , the fre1uency hoppin capability of section 0 the modulations of section ; thetransmission and reception of section O.

12.1 Set o trans%ort $&annels

The offered transport channels are edicated /-annels (/-). * /- can be either full rate (/-=&) or half rate(/-=-) dependin on the rate of the dedicated basic physical subchannel on which they are used.

12.2 Trans%ort lo$ str"$t"re

* summarised description of the transport bloc# structure for &>O appears in table in terms of net bit rate lenth and

recurrence of bloc#s.

Ta0le +1 Transport 0loc structures

T!pe of transport channel net 0it rate"0it/s$

0loc lenth"0its$

0loc recurrence"4s$1

:C6 0,05 - ,5 1 - 1370 20

:C66 0,05 - 34,1 1 - 2 20

*;T+ 1 or trans>ission ti>e interal (TT?).

12.3 C&annel oranisation

The channel orani!ation for &>O uses the 0?frame multiframe structure as described in fiure of section ,.3 whereT depicts a TM* frame that can be used to transmit transport bloc#(s).

12.4 Trans%ort $&annel $odin>"lti%le/in or #;

The codin=multiple8in unit of &>O is a combination of error detection forward error correction rate matchinmultiple8in and interleavin.

3GPP

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

7/26/2019 45001-720

34/38

The transport channels offered by &>O (/-s) are used to transmit data flows with a neotiated Qo" over the radiointerface. * number of transport channels can be active at the same time and multiple8ed at the physical layer. Theconfiuration of a transport channel is denoted the Transport &ormat (T&). * number of different transport formats canbe associated to one transport channel. >ayer 3 controls the confiuration of the transport formats. Only a limitednumber of combinations of the transport formats of the different Tr/-s are allowed. * valid combination is called a

Transport &ormat /ombination (T&/). The set of valid T&/s is called the Transport &ormat /ombination "et (T&/").

6n every radio pac#et the Transport &ormat /ombination 6ndicator (T&/6) tells which T&/ is used.The followin codin=multiple8in steps can be identified@

? // attachment@ error detection is provided on each transport bloc# throuh a cyclic redundancy chec# (//).>ayer 3 confiures the si!e of the // to be used. /ode bloc#s are output from the // attachment.

? /hannel codin@ after // attachment the code bloc#s are processed throuh channel codin ('=3 rateconvolutional code) producin encoded bloc#s.

? ate matchin@ in rate matchin bits of an encoded bloc# on a transport channel are repeated or punctured to

ensure that the total bit rate after Tr/- multiple8in is identical to the total channel bit rate of the allocated basicphysical channel. Outputs from the rate matchin are called radio frames. The rate matchin produces one radioframe per encoded bloc# i.e. per Tr/-.

? Multiple8in of transport channels@ for every radio pac#et to be transmitted one radio frame from each Tr/- isdelivered to the Tr/- multiple8in. These radio frames are serially multiple8ed into a /oded /omposite

Transport /-annel (//Tr/-).

? T&/6 mappin@ the coded T&/6 is appended at the beinnin of the //Tr/- to form a radio pac#et.

? 6nterleavin@ the radio pac#et is interleaved and then mapped on bursts. The interleavin can be either bloc#

diaonal or bloc# rectanular and is confiured by >ayer 3.

3GPP

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

7/26/2019 45001-720

35/38

'nne/ ' (inor>atie)!eeren$e $oni"ration

$ r y % t o l o i $ a l" n i t

i n t e r l e a i n a n d$ o d e 1 $ o d e 2

( l o $ )

i n o r > a t i o n

i t s ( t r a n s > i t )

" r s t " r s t d i e r e n t i a l

e n $ o d i n > " l t i % l e / i n " i l d i n

> o d " l a t i o n t r a n s > i t t e r

r e $ e i e r

a n t e n n a

i n o r > a t i o n i t s

( r e $ e i e )

a i r

i n t e r a $ e

( $ o n o l " t i o n a l )

r e o r d e r i n

% a r t i t i o n i n

( 4 )( 3 )( 2 )( 1 )

( 4 ) ( 5 )

( )

? n t e r a $ e s a n d o $ a " l a r y

( 1 ) i n o % a r i t y i t s

( 2 ) $ o d e d i t s

( 3 ) i n t e r l e a e d i t s

( 4 ) e n $ r y % t e d i t s

( 5 ) > o d " l a t i n i t s( ) i n o r > a t io n i t s ( r e $ e i e )

R E 5 E R E N 2 E 2 > N 5 ? G : R A T ? > N

3 G P P T S 4 5 . 0 0 3

3 G P P T S 4 5 . 0 0 43 G P P T S 4 5 . 0 0 2

3 G P P T S 4 5 . 0 0 5

3GPP

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

7/26/2019 45001-720

36/38

'nne/ < (inor>atie)!elations eteen s%e$ii$ation

P ! ; T ; C ; # S

# ' H + ! 3

# ' H + ! 2# ? * 8 C ; * T ! ; #

P ! ; T ; C ; # S

# ' H + ! 1

P ! ; T ; C ; # S

C 6 ' * * + #

C ; : + ! : + C ; : + !

? * T + ! # + ' V ? * G

+ * C ! H P T ? ; *

M # T ? P # + I ? * G

M # T ? P # +

' C C + S S : + M ; : # ' T ; !

' * :

M ; : # ' T ; ! T ! ' * S M ? T T + !

' * :

! + C + ? V + !

S P + + C 6

C ; : + ! : + C ; : + !

t o a l l l o $ s

R e l a t i o n s 0 e t w e e n s p e c i f ic a t i o n s

( 6 ' * : - ; V + ! , P ; 9 + ! C ; * T ! ; # )

S H * C 6 ! ; * ? N ' T ? ; *

4 5 . 0 0 2 4 5 . 0 0 4 4 5 . 0 0 54 5 . 0 0 3

T S 4 5 . 0 1 0

4 4 . 0 0 5 4 4 . 0 0

4 3 . 0 2 0 2 3 . 2 2 1

4 4 . 0 0 4

4 s e r i e s

2 4 . 0 0 7 4 4 . 0 1

2 3 . 0 0 4 5 . 0 0 4 3 . 0 2 2

3GPP

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

7/26/2019 45001-720

37/38

'nne/ C (inor>atie)C&ane &istory

SPE2 SMG@ 2R P7ASE

*ERS NEB*ERS S:CE2T

05.01 S1 '005 2 4..0 5.0.0 'ddition o 'SC? eat"res

05.01 S20 '00 2 5.0.0 5.1.0 ?ntrod"$tion o &i& s%eed $ir$"it sit$&ed data

05.01 s21 '007 2 5.1.0 5.2.0 ?ntrod"$tion o !-GSM and

05.01 s22 '00 2 5.2.0 5.3.0 Clarii$ation o t&e reF"en$y deinition te/t in se$tion

05.01 s24 '010 !7 5.3.0 .0.0 ?ntrod"$tion o GP!S

05.01 s25 '012 !7 .0.0 .1.0 14.4%s :ata Seri$e

05.01 s25 '013 !7 .0.0 .1.0 !ena>in o GP!S !! states

05.01 s2 '014 ! .1.1 7.0.0 6ar>oniation eteen GSM and PCS 100 standard

05.01 s2 '015 ! .1.1 7.0.0 ?ntrod"$tion o CTS in 05.01

05.01 s2 '01 ! .1.1. 7.0.0 ?ntrod"$tion o 'M! in 05.01

05.01 s2 '017 ! 7.0.0. .0.0 ?ntrod"$tion o GSM 400 in 05.01

05.01 s2 '01 ! 7.0.0 .0.0 05.01 $&anes or +CS: 'CC6

05.01 s30 '020 ! .0.1 .1.0 Corre$tion o 'M! eters, ?ntrod"$tion oTC6+S

05.01 s30 '021 ! .0.1 .1.0 ?ntrod"$tion o t&e deinition o t&e P:TC6 or +GP!S

05.01 s30 '022 ! .0.1 .1.0 +:G+ Co>%a$t loi$al $&annels

05.01 s30 '023 ! .1.0 .2.0 S"%%ort o Slo reF"en$y 6o%%in or +GP!S C;MP'CT

05.01 s31 '024 ! .2.0 .3.0 Co>%lete reF"en$y 6o%%in on C;MP'CT

05.01 s32 '02 ! .3.0 .4.0 :einition o P:C66 and alin>ent it& :TM

Se%te>er 2000 - 3GPP TSG-G+!'*

05.01 G01 '02 ! .4.0 .5.0 C! 05.01-'02 :TM (!)

05.01 G01 '02 ! .4.0 .5.0 C! 05.01-'02 :TM+GP!S (!)

05.01 G01 '031 ! .4.0 .5.0 C! 05.01-'031 Mini>"> Moile Station Class andC&anneliation Ca%ailities

G+!'* !elease 4

05.01 45.001

G01 '030 !el4 .5.0 4.0.0 C! 05.01-'030 ?ntrod"$tion o GSM 700 (!elease 4)

4.0.0 4.0.1 ;$t 2000 !eeren$es $orre$ted.

3GPP

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

7/26/2019 45001-720

38/38

2hane histor!Date TSG

GERAN@TSG Doc' 2R Re9 Su0ject/2o44ent >ld New

2001-01 03 GP-010240 001 ?ntrod"$tion o 9ideand 'M! or GMS8 >od"lateds%ee$& $&annel

4.0.1 5.0.0

2001-0 0 GP-01117 003 1 ?ntrod"$tion o +PC $&annels 5.0.0 5.1.02001-11 07 GP-012350 004 ?ntrod"$tion o ada%tie &al rate s%ee$& $&annels it&

-PS8 >od"lation5.1.0 5.2.0

2001-11 07 GP-01234 00 Corre$tion o des$ri%tion 9ideand 'M! $&annel$odin

5.1.0 5.2.0

2001-11 07 GP-01277 00 1 Corre$tion o reeren$es to releant 3GPP TSs 5.1.0 5.2.0

2001-11 07 GP-01250 010 Codin rate o MCS3 5.1.0 5.2.0

2002-04 0 GP-0211 012 1 'lin>ent o n">er o $ode$s or 9od"lated s%ee$&trai$ $&annels

5.2.0 5.3.0

2002-0 10 GP-021434 01 Corre$tions and $lean "% 5.3.0 5.4.0

2002-0 10 GP-0212 01 Mis$ellaneo"s $orre$tions 5.3.0 5.4.0

2002-11 12 GP-023113 020 C!C Sies or 'M!-9< 5.4.0 5.5.0

2002-11 12 GP-023321 01 2 ?>%le>entation o ne reF"en$y ranes 5.5.0 .0.0

2003-04 14 GP-030 023 1 MCS-3 %addin or MCS- retrans>ission .0.0 .1.0

2003-11 17 GP-03245 024 2 le/ile #ayer ;ne .1.0 .2.0

2003-11 17 GP-03255 027 Corre$tion d"e to $&ane o :TM $ore $a%aility .1.0 .2.0

2004-02 1 GP-04032 02 Corre$tion on MS s"%%ort o +GP!S $odin s$&e>es .2.0 .3.0

2004-0 20 GP-041231 030 Corre$tion o i"re 2a1 .3.0 .4.0

2004-11 22 GP-0424 034 ?ntrod"$tion o Moal o PTM-M .4.0 .5.0

2004-11 22 GP-0427 03 1 #;-$o>%atile F"i$ i/ or VT oer G+!'* .4.0 .5.0

2005-04 24 GP-05077 042 ?ntrod"$tion o GSM 710 .5.0 7.0.0

2005-0 25 GP-051714 043 1 ?ntrod"$tion o T-GSM 10 7.0.0 7.1.0

2005-11 27 GP-0524 0045 1 Mode 7.1.0 7.2.0

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

45001-720

Documents

Transcript of 45001-720