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Content for  TS 25.224  Word version:  16.0.0

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4 Physical layer procedures for the 3.84 Mcps option4.1 General4.2 Transmitter power control4.3 Timing advance4.4 Synchronisation procedures4.5 Discontinuous transmission (DTX) procedure4.6 Downlink transmit diversity4.7 Random access procedure4.7A E-RUCCH transmission procedure4.8 DSCH procedure4.9 Node B synchronisation procedure over the air4.10 Idle periods for IPDL location method4.11 HS-DSCH procedure4.12 Macro-diversity procedure4.13 E-DCH related procedures4.14 Physical layer procedures for 3.84 Mcps MBSFN IMB
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4  Physical layer procedures for the 3.84 Mcps optionWord‑p. 11

4.1  General

4.2  Transmitter power control

4.2.1  General parameters

4.2.2  Uplink control

4.2.2.1  General limits

4.2.2.2  PRACHWord‑p. 12

4.2.2.3  DPCH, PUSCH and HS-SICH

4.2.2.3.1  Gain factors
4.2.2.3.2  Out of synchronisation handlingWord‑p. 13

4.2.2.4  E-PUCH |R7|

4.2.2.4.1  Gain factors for E-PUCHWord‑p. 14

4.2.2.5  E-RUCCH |R7|Word‑p. 15

4.2.3  Downlink control

4.2.3.1  P-CCPCH

4.2.3.2  S-CCPCH, PICH

4.2.3.2A  MICH |R6|

4.2.3.3  SCHWord‑p. 16

4.2.3.3A  PNBSCH |R4|

4.2.3.4  DPCH, PDSCH

4.2.3.4.1  Out of synchronisation handlingWord‑p. 17

4.2.3.5  HS-PDSCH |R5|

4.2.3.6  HS-SCCH |R5|

4.2.3.7  E-AGCH |R7|

4.2.3.8  E-HICH |R7|

4.3  Timing advance

4.4  Synchronisation proceduresWord‑p. 18

4.4.1  Cell search

4.4.2  Dedicated channel synchronisation

4.4.2.1  Synchronisation primitives

4.4.2.1.1  General
4.4.2.1.2  Downlink synchronisation primitives
4.4.2.1.2A  Downlink synchronisation primitives for HS-channels |R8|Word‑p. 19
4.4.2.1.3  Uplink synchronisation primitives

4.4.2.2  Radio link monitoringWord‑p. 20

4.4.2.2.1  Downlink radio link failure
4.4.2.2.2  Uplink radio link failure/restore

4.5  Discontinuous transmission (DTX) procedure

4.5.1  Description of special bursts

4.5.2  Use of special bursts during DTXWord‑p. 21

4.5.3  Use of special bursts for initial establishment / reconfiguration

4.5.4  Use of special bursts for DTX on beacon channels |R8|

4.6  Downlink transmit diversity

4.6.1  Transmit diversity for PDSCH, DPCH, HS-SCCH, HS-PDSCH and E-AGCH

4.6.2  Transmit diversity for SCH and S-CCPCHWord‑p. 22

4.6.2.1  SCH transmission scheme

4.6.2.2  S-CCPCH transmission scheme |R6|Word‑p. 23

4.6.3  Transmit diversity for beacon channels

4.6.3.1  SCTD transmission scheme

4.7  Random access procedureWord‑p. 24

4.7.1  Physical random access procedure

4.7A  E-RUCCH transmission procedure |R8|Word‑p. 25

4.8  DSCH procedure

4.8.1  DSCH procedure with TFCI indication

4.8.2  DSCH procedure with midamble indicationWord‑p. 26

4.9  Node B synchronisation procedure over the air |R4|

4.9.1  Frequency acquisition phase

4.9.2  Initial synchronisation

4.9.3  Steady-state phase

4.9.4  Late entrant cells

4.10  Idle periods for IPDL location method |R4|Word‑p. 27

4.10.1  General

4.10.2  Parameters of IPDL

4.10.3  Calculation of idle period position

4.11  HS-DSCH procedure |R5|Word‑p. 28

4.11.1  Link adaptation procedure

4.11.2  HS-DSCH channel quality indication procedureWord‑p. 29

4.12  Macro-diversity procedure |R6|Word‑p. 30

4.13  E-DCH related procedures |R7|

4.13.1  ACK/NACK detection

4.13.2  Serving and neighbour cell pathloss metric derivation

4.13.3  Channelisation code hopping procedure for E-PUCHWord‑p. 31

4.14  Physical layer procedures for 3.84 Mcps MBSFN IMB |R8|Word‑p. 33

4.14.1  Radio frame timing on the MBSFN layer

4.14.2  Downlink power control

4.14.2.1  S-CCPCH

4.14.2.2  MICH

4.14.2.3  P-CPICHWord‑p. 34

4.14.2.4  T-CPICH

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