Content for TS 25.302 Word version: 18.0.0
6 Model of physical layer of the UE
6.1 Uplink models
6.2 Downlink models
7 Formats and configurations for L1 data transfer
7.1 General concepts about Transport Channels
7.2 Types of Transport Channels
7.3 Compressed Mode
8 UE Simultaneous Physical Channels combinations
8.1 FDD Uplink
8.2 FDD Downlink
8.3 TDD Uplink
8.4 TDD Downlink
9 Measurements provided by the physical layer
9.1 Model of physical layer measurements
9.2 UE Measurements
9.3 UTRAN Measurements
6 Model of physical layer of the UE p. 14
6.1 Uplink models p. 14
6.2 Downlink models p. 19
7 Formats and configurations for L1 data transfer p. 34
7.1 General concepts about Transport Channels p. 34
7.1.1 Transport Block p. 35
7.1.2 Transport Block Set p. 35
7.1.3 Transport Block Size p. 35
7.1.4 Transport Block Set Size p. 35
7.1.5 Transmission Time Interval p. 35
7.1.6 Transport Format p. 36
7.1.6a Transport Format for HS-DSCH |R5| p. 37
7.1.7 Transport Format for E-DCH p. 37
7.1.7a Transport Format Set |R7| p. 38
7.1.8 Transport Format Combination p. 39
7.1.9 Transport Format Combination Set p. 39
7.1.10 Transport Format Indicator (TFI) p. 40
7.1.11 Transport Format Combination Indicator (TFCI) p. 40
7.1.12 Rate matching p. 40
7.1.13 HARQ information |R5| p. 41
7.1.14 Transport Format and Resource Indication (TFRI) |R5| p. 41
7.1.15 E-DCH Transport Format Combination Indication (E-TFCI) |R6| p. 41
7.2 Types of Transport Channels p. 41
7.3 Compressed Mode p. 44
8 UE Simultaneous Physical Channels combinations p. 44
9 Measurements provided by the physical layer p. 75
9.1 Model of physical layer measurements p. 76
9.2 UE Measurements p. 77
9.2.1 SFN-CFN observed time difference p. 77
9.2.2 Void
9.2.3 CPICH Ec/N0 p. 78
9.2.4 Void
9.2.5 CPICH RSCP p. 78
9.2.6 P-CCPCH RSCP p. 78
9.2.7 Timeslot ISCP p. 78
9.2.8 Void
9.2.9 SIR p. 78
9.2.10 UTRA carrier RSSI p. 79
9.2.11 GSM carrier RSSI p. 79
9.2.12 Transport channel BLER p. 79
9.2.13 UE transmitted power p. 79
9.2.14 UE Rx-Tx time difference p. 79
9.2.15 SFN-SFN Observed time difference p. 80
9.2.16 UE GPS Timing of Cell Frames for UE positioning p. 80
9.2.17 Timing Advance (TADV) for 1.28 Mcps TDD |R4| p. 80
9.2.18 UE GPS code phase |R4| p. 80
9.2.19 UE GANSS Timing of Cell Frames for UE positioning |R7| p. 81
9.2.20 UE GANSS code measurement |R7| p. 81
9.2.21 UE transmission power headroom |R9| p. 81
9.3 UTRAN Measurements p. 81
9.3.1 Received total wide band power p. 81
9.3.2 Transmitted carrier power p. 82
9.3.3 Transmitted code power p. 82
9.3.4 Void
9.3.5 Physical channel BER p. 82
9.3.6 Transport channel BER p. 82
9.3.7 RX timing deviation p. 82
9.3.8 Timeslot ISCP p. 83
9.3.9 RSCP p. 83
9.3.10 Round Trip Time p. 83
9.3.11 Void
9.3.12 Acknowledged PRACH preambles p. 83
9.3.13 Void
9.3.14 Void
9.3.15 SIR p. 84
9.3.16 PRACH Propagation Delay p. 84
9.3.17 UTRAN GPS Timing of Cell Frames for UE positioning p. 84
9.3.18 SIR ERROR p. 84
9.3.19 Received SYNC_UL Timing Deviation |R4| p. 84
9.3.20 Cell Sync Burst Timing |R4| p. 85
9.3.21 Cell Sync Burst SIR |R4| p. 85
9.3.22 SFN-SFN Observed time difference |R4| p. 85
9.3.23 Angle of Arrival (AOA) for 1.28 Mcps TDD |R5| p. 85
9.3.24 HS-SICH reception quality |R5| p. 85
9.3.25 Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission |R5| p. 86
9.3.26 UpPTS interference (1.28Mcps TDD) |R6| p. 86
9.3.27 DL Transmission Branch Load |R6| p. 86
9.3.28 Received scheduled E-DCH power share (RSEPS) |R7| p. 87
9.3.29 UTRAN GANSS Timing of Cell Frames for UE positioning |R7| p. 87
9.3.30 Common E-DCH resource usage |R8| p. 88
