9.2.3 TDD Specific Parameters

25.4233GPPRelease 17TSUTRAN Iur interface Radio Network Subsystem Application Part (RNSAP) signalling

Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM

This subclause contains parameters that are specific to TDD.

9.2.3.a Alpha Value

Used to support signalling of cell specific Alpha Value to SRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Alpha Value			ENUMERATED(0, 1/8, 2/8, 3/8, 4/8, 5/8, 6/8, 7/8, 1)

9.2.3.A Block STTD Indicator

Void.

9.2.3.1 Burst Type

Void.

9.2.3.1a Cell Capability Container TDD

The Cell Capability Container TDD indicates which functionalities a 3.84Mcps TDD cell supports.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container TDD

BIT STRING (SIZE(32))

Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.

The first bit: Delayed Activation Support Indicator.

The second bit: HS-DSCH Support Indicator.

The third bit: DSCH Support Indicator.

The fourth bit: Flexible MAC-d PDU Size Support Indicator.

The fifth: MBMS Support Indicator.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.1b Cell Capability Container TDD LCR

The Cell Capability Container TDD LCR indicates which functionalities a cell supports.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container TDD LCR

BIT STRING (SIZE(32))

The first bit: Delayed Activation Support Indicator.

The second bit: HS-DSCH Support Indicator.

The third bit: DSCH Support Indicator.

The fourth bit: Flexible MAC-d PDU Size Support Indicator.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.2 CCTrCH ID

The CCTrCH ID identifies unambiguously a CCTrCH inside a Radio Link.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

CCTrCH ID

INTEGER

(0..15)

9.2.3.2A DCH TDD Information

The DCH TDD Information IE provides information for DCHs to be established.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
DCH Information		1..<maxNrOfDCHs>			–
>Payload CRC Presence Indicator	M		Payload CRC Present Indicator 9.2.1.42		–
>UL FP Mode	M		9.2.1.67		–
>ToAWS	M		9.2.1.58		–
>ToAWE	M		9.2.1.57		–
>DCH Specific Info		1..<maxNrOfDCHs>			–
>>DCH ID	M		9.2.1.16		–
>>CCTrCH ID	M		9.2.3.2	UL CCTrCH in which the DCH is mapped.	–
>>CCTrCH ID	M		9.2.3.2	DL CCTrCH in which the DCH is mapped.	–
>>TrCH Source Statistics Descriptor	M		9.2.1.65		–
>>Transport Format Set	M		9.2.1.64	For the UL.	–
>>Transport Format Set	M		9.2.1.64	For the DL.	–
>>BLER	M		9.2.1.4	For the UL.	–
>>BLER	M		9.2.1.4	For the DL.	–
>>Allocation/Retention Priority	M		9.2.1.1		–
>>Frame Handling Priority	M		9.2.1.29		–
>>QE-Selector	C-CoorDCH		9.2.1.46A		–
>>Guaranteed Rate Information	O		9.2.1.30M		YES	ignore
>>Traffic Class	M		9.2.1.58A		YES	ignore
>>Unidirectional DCH Indicator	O		9.2.1.68B		YES	reject
>TNL QoS	O		9.2.1.56A		YES	ignore

Condition	Explanation
CoorDCH	The IE shall be present if this DCH is part of a set of coordinated DCHs (number of instances of the DCH Specific Info IE is greater than 1).

Range bound	Explanation
maxNrOfDCHs	Maximum number of DCHs for one UE.

9.2.3.2B DCH TDD Information Response

Void

9.2.3.2C DL Timeslot Information

The DL Timeslot Information IE provides information on the time slot allocation for a DL DPCH at 3.84Mcps.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
DL Timeslot Information		1..<maxNrOfTS>		–
>Time Slot	M		9.2.1.56	–
>Midamble Shift And Burst Type	M		9.2.3.4	–
>TFCI Presence	M		9.2.1.55	–
>DL Code Information	M		TDD DL Code Information 9.2.3.8C	–

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE.

9.2.3.2D DL Time Slot ISCP Info

The DL Time Slot ISCP Info IE gives interference level for each DL time slot within the Radio Link.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
DL Time Slot ISCP Info		1..<maxNrOfDLTs>		–
>Time Slot	M		9.2.1.56	–
>DL Timeslot ISCP	M		9.2.3.12	–

Range bound	Explanation
maxNrOfDLTs	Maximum number of downlink time slots per Radio Link for 3.84Mcps TDD.

9.2.3.2E DL Timeslot Information LCR

The DL Timeslot Information LCR IE provides information for DL Timeslot to be established for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
DL Timeslot Information LCR		1 .. <maxNrOfDLTsLCR>			–
>Time Slot LCR	M		9.2.3.12a		–
>Midamble Shift LCR	M		9.2.3.4C		–
>TFCI Presence	M		9.2.1.55		–
>DL Code Information LCR	M		TDD DL Code Information LCR 9.2.3.8D		–
>Maximum DL TX Power	O		DL Power 9.2.1.21A	Maximum allowed power on DPCH.	YES	ignore
>Minimum DL TX Power	O		DL Power 9.2.1.21A	Minimum allowed power on DPCH.	YES	ignore

Range bound	Explanation
maxNrOfDLTsLCR	Maximum number of Downlink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.2F DL Time Slot ISCP Info LCR

The DL Time Slot ISCP Info LCR IE provides information for DL Interference level for each time slot within the Radio Link for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
DL Time Slot ISCP Info LCR		1 .. <maxNrOfULTsLCR>			–
>Time Slot LCR	M		9.2.3.12a		–
>DL Timeslot ISCP	M		9.2.3.12		–

Range bound	Explanation
maxNrOfULTsLCR	Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.3 DPCH ID

The DPCH ID identifies unambiguously a DPCH inside a Radio Link.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DPCH ID

INTEGER

(0..239)

9.2.3.3a DSCH TDD Information

The DSCH TDD Information IE provides information for DSCHs to be established.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
DSCH TDD Information		1..<maxNoOfDSCHs>			–
>DSCH ID	M		9.2.3.3ae		–
>CCTrCH ID	M		9.2.3.2	DL CCTrCH in which the DSCH is mapped.	–
>TrCH Source Statistics Descriptor	M		9.2.1.65		–
>Transport Format Set	M		9.2.1.64		–
>Allocation/Retention Priority	M		9.2.1.1		–
>Scheduling Priority Indicator	M		9.2.1.51A		–
>BLER	M		9.2.1.4		–
>Traffic Class	M		9.2.1.58A		YES	ignore
>Binding ID	O		9.2.1.3	Shall be ignored if bearer establishment with ALCAP.	YES	ignore
>Transport Layer Address	O		9.2.1.62	Shall be ignored if bearer establishment with ALCAP.	YES	ignore
>TNL QoS	O		9.2.1.56A	Shall be ignored if bearer establishment with ALCAP.	YES	ignore

Range bound	Explanation
maxNoOfDSCHs	Maximum number of DSCHs for one UE.

9.2.3.3aa HS-DSCH TDD Information

The HS-DSCH TDD Information IE is used for initial addition of HS-DSCH information to a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-DSCH MAC-d Flows Information	M		9.2.1.30OA		–
UE Capabilities Information		1			–
>HS-DSCH Physical Layer Category	M		9.2.1.30Oa		–
>1.28 Mcps TDD uplink physical channel capability	O		9.2.3.10D	Applicable to 1.28Mcps TDD only.	YES	ignore
>Number of Supported Carriers	O		ENUMERATED ( One-one carrier, One-three carrier, Three-three carrier, One-six carrier, Tree-six carrier, Six-six carrier, …, One-Two carrier Discontiguous, Two-Two carrier Discontiguous, One-Two carrier Contiguous, Two-Two carrier Contiguous)	Applicable to 1.28Mcps TDD only. This IE indicates the number of carrier that UE can support at the same time,where “One-three carrier” means the number of supported carrier is one for the uplink, and three for the downlink. One-Two carrier Discontiguous and Two-Two carrier Discontiguous mean that the UE is capable of supporting two non-adjacent carriers. One-Two carrier Contiguous and Two-Two carrier Contiguous mean that the UE is only capable of supporting two adjacent carriers.	YES	reject
>MIMO SF Mode Supported For HS-PDSCH dual stream	O		ENUMERATED (SF1, SF1/SF16)	Applicable to 1.28Mcps TDD only.	YES	ignore
>Multi-carrier HS-DSCH Physical Layer Category	O		HS-DSCH Physical Layer Category 9.2.1.30Oa	Applicable to 1.28Mcps TDD only.	YES	ignore
>UE TS0 Capability LCR	O		ENUMERATED (TS0 Capable, TS0 Non-Capable)	Applicable to 1.28Mcps TDD only	YES	ignore
>UE RF Band Capability LCR	C-NofSupportedCarriers		9.2.3.84	Applicable to 1.28Mcps TDD only.	YES	ignore
MAC-hs Reordering Buffer Size for RLC-UM	M		9.2.1.34Ab		–
TDD ACK NACK Power Offset	M		9.2.3.7I		–
HS-DSCH MAC-d PDU Size Format	O		9.2.1.30OC	If not present, “Indexed MAC-d PDU Size” shall be used.	YES	reject
HS-SICH SIR Target	O		UL SIR 9.2.1.69	Applicable to 1.28Mcps TDD only.	YES	ignore
HS-SICH TPC step size	O		TDD TPC Uplink Step Size 9.2.3.10a	Applicable to 1.28Mcps TDD only.	YES	ignore
TSN-Length	O		9.2.3.3ai	Applicable for 1.28Mcps TDD when using multiple frequencies.	YES	reject
MIMO Activation Indicator	O		9.2.1.134		YES	reject

Condition	Explanation
NofSupportedCarriers	This IE shall be present if the Number of Supported Carriers IE is equal to "One-Two carrier Discontiguous" or "Two-Two carrier Discontiguous" and the concerned cell and the UE support more than one RF band.

9.2.3.3ab HS-DSCH TDD Information Response

The HS-DSCH TDD Information Response IE provides information for HS-DSCH that have been established or modified. It also provides additional HS-DSCH information determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-DSCH MAC-d Flow Specific Information Response		0..<maxNrOfMACdFlows>			–
>HS-DSCH MAC-d Flow ID	M		9.2.1.30O		–
>Binding ID	O		9.2.1.3		–
>Transport Layer Address	O		9.2.1.62		–
>HS-DSCH Initial Capacity Allocation	O		9.2.1.30Na		–
HS-SCCH Specific Information Response		0..<maxNrOfHSSCCHCodes>		Not applicable to 1.28 Mcps TDD or 7.68Mcps TDD.	GLOBAL	reject
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type	M		9.2.3.4		–
>TDD Channelisation Code	M		9.2.3.8		–
>HS-SICH Information		1			–
>>HS-SICH ID	M		9.2.3.3ad		–
>>Time Slot	M		9.2.1.56		–
>>Midamble Shift And Burst Type	M		9.2.3.4		–
>>TDD Channelisation Code	M		9.2.3.8		–
HS-SCCH Specific Information Response LCR		0..<maxNrOfHSSCCHCodes>		Not applicable to 3.84 Mcps TDD or 7.68Mcps TDD.	GLOBAL	reject
>Time Slot LCR	M		9.2.3.12a		–
>Midamble Shift LCR	M		9.2.3.4C		–
>First TDD Channelisation Code	M		TDD Channelisation Code 9.2.3.8		–
>Second TDD Channelisation Code	M		TDD Channelisation Code 9.2.3.8		–
>HS-SICH Information LCR		1			–
>>HS-SICH ID	M		9.2.3.3ad		–
>>Time Slot LCR	M		9.2.3.12a		–
>>Midamble Shift LCR	M		9.2.3.4C		–
>>TDD Channelisation Code	M		9.2.3.8		–
>Used Frequency	O		UARFCN 9.2.1.66	Applicable for 1.28Mcps TDD when using multiple frequencies. This IE indicates the frequency which is actually used by the HS-SCCH.	YES	reject
>UARFCN	O		9.2.1.66	Corresponds to Nt (3GPP TS 25.105). Applicable for 1.28Mcps TDD when using multiple frequencies. See note1 below.	YES	ignore
HS-SCCH Specific Information Response 7.68 Mcps		0..<maxNrOfHSSCCHCodes>		Applicable to 7.68 Mcps TDD only.	YES	ignore
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23		–
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25		–
>HS-SICH Information		1			–
>>HS-SICH ID	M		9.2.3.3ad		–
>>Time Slot	M		9.2.1.56		–
>>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23		–
>>TDD Channelisation Code 7.68Mcps	M		9.2.3.25		–
HS-PDSCH Timeslot Specific Information Response		0..<maxNrOfDLTs>		Not Applicable to 1.28Mcps TDD or 7.68Mcps TDD.	GLOBAL	reject
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type	M		9.2.3.4		–
HS-PDSCH Timeslot Specific Information Response LCR		0..<maxNrOfDLTsLCR>		Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD.	GLOBAL	reject
>Time Slot LCR	M		9.2.3.12a		–
>Midamble Shift LCR	M		9.2.3.4C		–
HS-PDSCH Timeslot Specific Information Response 7.68Mcps		0..<maxNrOfDLTs>		Applicable to 7.68Mcps TDD only.	YES	ignore
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23		–
HARQ Memory Partitioning	O		9.2.1.116		–
User Plane Congestion Fields Inclusion	O		9.2.1.70C		YES	ignore
HS-SCCH Specific Information Response LCR per UARFCN		0..<maxHSDPAFrequency-1>		Applicable for 1.28Mcps TDD.	GLOBAL	reject
>HS-SCCH Specific Information Response LCR		1..<maxNrOfHSSCCHCodes>			–
>>Time Slot LCR	M		9.2.3.12a		–
>>Midamble Shift LCR	M		9.2.3.4C		–
>>First TDD Channelisation Code	M		TDD Channelisation Code 9.2.3.8		–
>>Second TDD Channelisation Code	M		TDD Channelisation Code 9.2.3.8		–
>>HS-SICH Information LCR		1			–
>>>HS-SICH ID	M		9.2.3.3ad
>>>Time Slot LCR	M		9.2.3.12a		–
>>>Midamble Shift LCR	M		9.2.3.4C		–
>>>TDD Channelisation Code	M		9.2.3.8		–
>>Used Frequency	O		UARFCN 9.2.1.66	Applicable for 1.28Mcps TDD when using multiple frequencies. This IE indicates the frequency which is actually used by the HS-SCCH.	YES	reject
>UARFCN	O		9.2.1.66	Corresponds to Nt （3GPP TS 25.105）. Applicable for 1.28Mcps TDD when using multiple frequencies. See note 1 below.	YES	ignore
>HARQ Memory Partitioning per UARFCN		0..<maxHSDPAFrequency-1>
>>HARQ Memory Partitioning	O		9.2.1.116		–
>UARFCN	O		9.2.1.66	Corresponds to Nt （3GPP TS 25.105）. Applicable for 1.28Mcps TDD when using multiple frequencies. See note 1 below.	YES	ignore
>TS0 HS-PDSCH Indication LCR	O		9.2.3.74	1.28Mcps TDD only.	YES	ignore
Multi-Carrier number	O		INTEGER(1.. maxHSDPAFrequency)	Applicable for 1.28Mcps TDD when using multiple frequencies.	YES	ignore
MIMO SF Mode for HS-PDSCH dual stream	O		ENUMERATED (SF1, SF1/SF16)	Applicable for 1.28Mcps TDD when MIMO is configured.	YES	reject
MIMO Reference Signal Information	O	0..<maxNrOfHSSCCHCodes>		Applicable for 1.28Mcps TDD when MIMO is configured.	YES	reject
>HS-SICH Reference Signal Information	M		9.2.3.72		YES
Out-of-sync Detection Window	O		ENUMERATED (40, 80, 160, 320, 640, …)	Unit: ms Applicable to 1.28Mcps TDD.	YES	reject
Note 1: This information element is a simplified representation of the ASN.1 description.

Range bound	Explanation
maxNrOfMACdFlows	Maximum number of MAC-d flows.
maxNrOfHSSCCHCodes	Maximum number of HS-SCCH codes.
maxNrOfDLTs	Maximum number of downlink time slots per Radio Link for 3.84Mcps TDD.
maxNrOfDLTsLCR	Maximum number of Downlink time slots per Radio Link for 1.28Mcps TDD.
maxHSDPAFrequency	Maximum number of Frequency that UE can support HSDPA.

9.2.3.3ac HS-DSCH TDD Update Information

The HS-DSCH TDD Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.

IE/Group name	Presence	Range	IE Type and Reference	Semantic Description	Criticality	Assigned Criticality
HS-SCCH Code Change Indicator	O		9.2.1.30R		–
TDD ACK NACK Power Offset	O		9.2.3.7I		–

9.2.3.3ad HS-SICH ID

The HS-SICH ID identifies unambiguously a HS-SICH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HS SICH ID			INTEGER (0..31)	For 1.28Mcps TDD, the IE is INTEGER (0..255). In ASN.1, it is presented by another IE for the value beyond the 31.

9.2.3.3ae DSCH ID

The DSCH ID is the identifier of an active downlink shared channel. It is unique for each active DSCH among the active DSCHs simultaneously allocated for the same UE.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DSCH ID

INTEGER

(0..255)

9.2.3.3af DSCH Initial Window Size

Indicates the initial number of MAC-c/sh SDUs that may be transmitted before new credits are received from the DRNC.

IE/Group Name

Presence

Range

IE type and reference

Semantics description

DSCH Initial Window Size

INTEGER (1..255)

Number of MAC-c/sh SDUs:

255 = Unlimited number of MAC-c/sh SDUs.

9.2.3.3ag DSCH Flow Control Information

The DSCH Flow Control Information IE provides flow control information for each scheduling priority class for the DSCH FP over Iur.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality	Assigned Criticality
DSCH Flow Control Information		1..16		–
>DSCH Scheduling Priority	M		Scheduling Priority Indicator 9.2.1.51A	–
>MAC-c/sh SDU Length		1..<maxNrOfMACcshSDU-Length>		–
>>MAC-c/sh SDU Length	M		9.2.1.34	–
>DSCH Initial Window Size	O		9.2.3.3af	YES	ignore

Range bound	Explanation
maxNrOfMACcshSDU-Length	Maximum number of different MAC-c/sh SDU lengths.

9.2.3.3ah DSCH-RNTI

DSCH-RNTI is the UE identifier allocated by DRNS to be used over the radio interface by Ues having one or several DSCHs and/or USCHs. It is unique within a cell.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
DSCH-RNTI			INTEGER(0..65535)

9.2.3.3ai TSN-Length

The IE indicates the TSN length.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TSN-Length			ENUMERATED (tsn-6bits, tsn-9bits)

9.2.3.3A Maximum Number of Timeslots

Defines the maximum number of timeslots the UE has the capability of receiving or transmitting. [3.84Mcps TDD and 7.68Mcps TDD – in a frame] [1.28Mcps TDD – in a subframe]

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of Timeslots

INTEGER

(1..14)

For 1.28Mcps TDD the values 7 through 14 are not used.

9.2.3.3B Maximum Number of UL Physical Channels per Timeslot

Defines the maximum number of physical channels [3.84Mcps TDD and 7.68Mcps TDD – per frame] [1.28Mcps TDD – per subframe] that the UE is capable to transmit.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of UL Physical Channels per Timeslot

INTEGER

(1..2)

9.2.3.3C Maximum Number of DL Physical Channels

Defines the maximum number of physical channels [3.84Mcps TDD – per frame] [1.28Mcps TDD – per subframe] that the UE is capable to receive.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of DL Physical Channels

INTEGER

(1..224)

For 1.28Mcps TDD the values 97 through 224 are not used.

9.2.3.3D Maximum Number of DL Physical Channels per Timeslot

Defines the maximum number of physical channels per timeslot that the UE is capable to receive.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of DL Physical Channels per Timeslot

INTEGER

(1..16)

9.2.3.4 Midamble Shift And Burst Type

This information element indicates burst type and midamble allocation.

Three different midamble allocation schemes exist:

– Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);

– Common midamble: the midamble is allocated by layer 1 depending on the number of channelisation codes (possible in DL only);

– UE specific midamble: a UE specific midamble is explicitly assigned (DL and UL).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Burst Type
>Type 1
>>Midamble Configuration Burst Type 1 And 3	M		ENUMERATED(4, 8, 16)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, Common midamble, UE specific midamble)
>>Midamble Shift Long	C-UE		INTEGER(0..15)
>Type 2
>>Midamble Configuration Burst Type 2	M		ENUMERATED (3, 6)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, Common midamble, UE specific midamble)
>>Midamble Shift Short	C-UE		INTEGER (0..15)
>Type 3				UL only
>>Midamble Configuration Burst Type 1 And 3	M		ENUMERATED (4, 8, 16)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, UE specific midamble)
>>Midamble Shift Long	C-UE		INTEGER(0..15)

Condition	Explanation
UE	The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.4A Minimum Spreading Factor

Defines the minimum spreading factor the UE has the capability of receiving or transmitting.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Minimum Spreading Factor

INTEGER

(1..16)

9.2.3.4B IPDL TDD parameters

The IPDL TDD Parameters IE provides the information for the IPDL Configuration applied in 3.84Mcps TDD mode.

IE/Group name	Presence	Range	IE Type and Reference	Semantics Description
IP Spacing TDD	M		ENUMERATED(30,40,50, 70, 100,…)	See TS 25.224 [22].
IP Start	M		INTEGER(0..4095)	See TS 25.224 [22].
IP Slot	M		INTEGER(0..14)	See TS 25.224 [22].
IP P-CCPCH	M		ENUMERATED(Switch off 1 frame, Switch off 2 frames)	See TS 25.224 [22].
Burst mode parameters	O		9.2.1.4B

9.2.3.4Bb IPDL TDD parameters LCR

The IPDL TDD Parameters LCR IE provides the information for the IPDL Configuration applied in 1.28Mcps TDD mode.

IE/Group name	Presence	Range	IE Type and Reference	Semantics Description
IP Spacing TDD	M		ENUMERATED(30,40,50, 70, 100,…)	See TS 25.224 [22].
IP Start	M		INTEGER(0..4095)	See TS 25.224 [22].
IP_Sub	M		ENUMERATED(First,Second,Both)	See TS 25.224 [22].
Burst mode parameters	O		9.2.1.4B

9.2.3.4C Midamble Shift LCR

This information element indicates midamble allocation in 1.28Mcps TDD.

Three different midamble allocation schemes exist:

– Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);

– Common midamble: the midamble is allocated by layer 1 depending on the number of channelisation codes (possible in DL only);

– UE specific midamble: a UE specific midamble is explicitly assigned (DL and UL).

IE/Group name	Presence	Range	IE Type and Reference	Semantics Description
Midamble Allocation Mode	M		ENUMERATED(Default midamble, Common midamble, UE specific midamble,…)
Midamble Shift Long	C-UE		INTEGER(0..15)
Midamble Configuration LCR	M		ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, …)	As defined in TS 25.221 [12].

Condition	Explanation
UE	The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.4D Neighbouring TDD Cell Information LCR

Void

9.2.3.5 Primary CCPCH RSCP

Received Signal Code Power is the received power on PCCPCH of the target cell after despreading. The reference point for the RSCP is the antenna connector at the UE, see TS 25.225 [14].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Primary CCPCH RSCP

INTEGER(

0..91)

According to mapping of the non-negative values in TS 25.123 [24].

9.2.3.5a Primary CCPCH RSCP Delta

Primary CCPCH RSCP Delta is the offset used to report the negative reporting range of P-CCPCH RSCP as per TS 25.123 [24].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Primary CCPCH RSCP Delta

INTEGER(

-5..-1,…)

If present, the actual value of Primary CCPCH RSCP = Primary CCPCH RSCP Delta.

9.2.3.5A PRACH Midamble

Void.

9.2.3.5B RB Identity

The RB Identity is the identifier of a radio bearer. It is unique for each active Radio bearer among the active radio bearers simultaneously allocated for the same UE.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

RB Identity

INTEGER

(0..31)

In line with TS 25.331 [16], ch. 10.3.4.11.

9.2.3.6 Repetition Length

The Repetition Length represents the number of consecutive Radio Frames inside a Repetition Period in which the same Time Slot is assigned to the same Physical Channel see TS 25.331 [16].

[1.28Mcps TDD- When applied to configure the E-DCH Non-scheduled Grant Information, the Repetition Length represents the number of consecutive Subframes, i.e. 5ms inside a Repetition Period in which the same Time Slot is assigned to the same Physical Channel see TS 25.331 [16].]

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Repetition Length			INTEGER(1..63)

9.2.3.7 Repetition Period

The Repetition Period represents the number of consecutive Radio Frames after which the same assignment scheme of Time Slots to a Physical Channel is repeated. This means that if the Time Slot K is assigned to a physical channel in the Radio Frame J, it is assigned to the same physical channel also in all the Radio Frames J+n*Repetition Period (where n is an integer) see TS 25.331 [16].

[1.28Mcps TDD- When applied to configure the E-DCH Non-scheduled Grant Information, the Repetition Period represents the number of consecutiveSubframes, i.e. 5ms after which the same assignment scheme of Time Slots to a Physical Channel is repeated see TS 25.331 [16].]

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Repetition Period			ENUMERATED(1,2,4,8,16,32,64)

9.2.3.7A Rx Timing Deviation

Measured Rx Timing Deviation as a basis for timing advance, either measured directly from a RACH burst, or calculated from the Rx Timing Deviation measurement on the USCH by adding the current Timing Advance value. For 1.28Mcps TDD this IE must be set to 0.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Rx Timing Deviation

INTEGER

(0..127)

As specified in TS 25.435 [5], ch. 6.2.7.6.

9.2.3.7B Secondary CCPCH Info TDD

The Secondary CCPCH Info TDD IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality
TFCS	M		9.2.1.63	For the DL.	–
TFCI Coding	M		9.2.3.11		–
Secondary CCPCH		0..<maxNrOfSCCPCHs>			–
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type	M		9.2.3.4		–
>TFCI Presence	M		9.2.1.55		–
>Secondary CCPCH TDD Code Information	M		9.2.3.7C		–
>TDD Physical Channel Offset	M		9.2.3.9		–
>Repetition Length	M		9.2.3.6		–
>Repetition Period	M		9.2.3.7		–
FACH		0..maxNrOfFACHs			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–
PCH		0..1			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–

Range bound	Explanation
maxNrOfSCCPCHs	Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs	Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.7C Secondary CCPCH TDD Code Information

The Secondary CCPCH TDD Code Information IE provides TDD Channelisation Code information for all SCCPCHs of one Time Slot.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Secondary CCPCH TDD Code Information		1..<maxNrOfSCCPCHs>			–
>TDD Channelisation Code	M		9.2.3.8		–

Range bound	Explanation
maxNrOfSCCPCHs	Maximum number of SCCPCHs for one CCTrCH.

9.2.3.7D Special Burst Scheduling

The number of frames between special burst transmissions during DTX.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Special Burst Scheduling			INTEGER(1, 2, .., 256)	Number of frames between special burst transmissions during DTX.

9.2.3.7E Synchronisation Configuration

The Synchronisation Configuration parameters that are used by the DRNS in the Radio Link Failure/Restore procedure.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
N_INSYNC_IND	M		INTEGER(1, 2, .., 256)
N_OUTSYNC_IND	M		INTEGER(1, 2, .., 256)
T_RLFAILURE	M		ENUMERATED(0, 0.1, 0.2, .., 25.5)	Unit: seconds.

9.2.3.7F Secondary CCPCH Info TDD LCR

The Secondary CCPCH Info TDD LCR IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality
TFCS	M		9.2.1.63	For the DL.	–
TFCI Coding	M		9.2.3.11		–
Secondary CCPCH		0..<maxNrOfSCCPCHs>			–
>Time Slot LCR	M		9.2.3.12a		–
>Midamble Shift LCR	M		9.2.3.4C		–
>TFCI Presence	M		9.2.1.55		–
>Secondary CCPCH TDD Code Information LCR	M		9.2.3.7G		–
>TDD Physical Channel Offset	M		9.2.3.9		–
>Repetition Length	M		9.2.3.6		–
>Repetition Period	M		9.2.3.7		–
FACH		0..<maxNrOfFACHs>			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–
PCH		0..1			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–

Range bound	Explanation
maxNrOfSCCPCHs	Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs	Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.7G Secondary CCPCH TDD Code Information LCR

The Secondary CCPCH TDD Code Information LCR IE provides LCR TDD Channelisation Code information for all SCCPCHs of one Time Slot.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
Secondary CCPCH TDD Code Information		1..<maxNrOfSCCPCHs>		–
>TDD Channelisation Code LCR	M		9.2.3.8a	–
>SCCPCH Time Slot Format LCR	M		TDD DL DPCH Time Slot Format LCR 9.2.3.8E	–

Range bound	Explanation
maxNrOfSCCPCHs	Maximum number of SCCPCHs for one CCTrCH.

9.2.3.7H Support of 8PSK

The Support of 8PSK IE indicates whether 8PSK is supported or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Support of 8PSK			ENUMERATED(supported)

9.2.3.7I TDD ACK NACK Power Offset

The TDD ACK NACK Power Offset IE indicates Power offset used in the UL in the HS-SICH between transmissions carrying positive and negative acknowledgements as per TS 25.331 [16].

IE/Group Name

Presence

Range

IE type and reference

Semantics description

TDD ACK NACK Power Offset

INTEGER (-7..8,…)

Unit: dB.

Range: -7..+8 dB.

Step: 1 dB.

9.2.3.8 TDD Channelisation Code

The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code that can have a spreading factor of 1, 2, 4, 8 or 16.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TDD Channelisation Code			ENUMERATED((1/1), (2/1), (2/2), (4/1), .. (4/4), (8/1), .. (8/8), (16/1), .. (16/16),… )

9.2.3.8a TDD Channelisation Code LCR

The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In 1.28Mcps TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code, that can have a spreading factor of 1, 2, 4, 8 or 16 and there is a choice between QPSK and 8PSK modulation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TDD Channelisation Code	M		ENUMERATED((1/1), (2/1), (2/2), (4/1),..(4/4), (8/1), .. (8/8), (16/1).. (16/16) ,… )
Modulation	M		ENUMERATED(QPSK, 8PSK, …)	Modulation options for 1.28Mcps TDD in contrast to 3.84Mcps TDD.

9.2.3.8A TDD DPCH Offset

The Offset represents the phase information for the allocation of a group of dedicated physical channels. The Offset Type IE = “No Initial Offset” is used when a starting offset is not required and the TDD Physical channel offset for each DPCH in the CCTrCH shall be directly determined from the TDD DPCH Offset. The Offset Type IE = “Initial Offset” is used when a starting offset is required. The TDD DPCH Offset shall map to the CFN and the TDD Physical Channel Offset for each DPCH in this CCTrCH shall calculated by TDD DPCH Offset mod Repetition period, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description

CHOICE Offset Type
>Initial Offset
>>TDD DPCH Offset Value	M		INTEGER (0..255)
>No Initial Offset
>>TDD DPCH Offset Value	M		INTEGER (0..63)

9.2.3.8B TDD DCHs To Modify

The TDD DCHs To Modify IE provides information for DCHs to be modified.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
TDD DCHs To Modify		1..<maxNrOfDCHs>			–
>UL FP Mode	O		9.2.1.67		–
>ToAWS	O		9.2.1.58		–
>ToAWE	O		9.2.1.57		–
>Transport Bearer Request Indicator	M		9.2.1.61		–
>DCH Specific Info		1..<maxNrOfDCHs>			–
>>DCH ID	M		9.2.1.16		–
>>CCTrCH ID	O		9.2.3.2	UL CCTrCH in which the DCH is mapped.	–
>>CCTrCH ID	O		9.2.3.2	DL CCTrCH in which the DCH is mapped.	–
>>Transport Format Set	O		9.2.1.64	For the UL.	–
>>Transport Format Set	O		9.2.1.64	For the DL.	–
>>Allocation/Retention Priority	O		9.2.1.1		–
>>Frame Handling Priority	O		9.2.1.29		–
>>Guaranteed Rate Information	O		9.2.1.30M		YES	ignore
>>Traffic Class	O		9.2.1.58A		YES	ignore
>TNL QoS	O		9.2.1.56A		YES	ignore

Range bound	Explanation
maxNrOfDCHs	Maximum number of DCHs for one UE.

9.2.3.8C TDD DL Code Information

The TDD DL Code Information IE provides TDD DL Code information for all DPCHs of one DL Time Slot.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
TDD DL Code Information		1..<maxNrOfDPCHs>		–
>DPCH ID	M		9.2.3.3	–
>TDD Channelisation Code	M		9.2.3.8	–

Range bound	Explanation
maxNrOfDPCHs	Maximum number of DPCHs for one CCTrCH.

9.2.3.8D TDD DL Code Information LCR

The TDD DL Code Information LCR IE provides DL Code information for the RL for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
TDD DL Code Information LCR		1 .. <maxNrOfDPCHsLCR>			–
>DPCH ID	M		9.2.3.3		–
>TDD Channelisation Code LCR	M		9.2.3.8a		–
>TDD DL DPCH Time Slot Format LCR	M		9.2.3.8E		–

Range bound	Explanation
maxNrOfDPCHsLCR	Maximum number of DPCH in one CCTrCH for 1.28Mcps TDD.

9.2.3.8E TDD DL DPCH Time Slot Format LCR

TDD DL DPCH Time Slot Format LCR indicates the time slot formats used in DL DPCH for 1.28Mcps TDD (see TS 25.221 [12]).

IE/Group Name	Presence	Range	IE type and reference	Semantics description
CHOICE Modulation
>QPSK
>>QPSK TDD DL DPCH TimeSlot Format LCR	M		INTEGER (0..24,…)
>8PSK
>>8PSK TDD DL DPCH TimeSlot Format LCR	M		INTEGER (0..24,…)

9.2.3.9 TDD Physical Channel Offset

The TDD Physical Channel Offset represents the phase information for the allocation of a non DPCH physical channel. (CFN mod Repetition Period = TDD Physical Channel Offset) see TS 25.331 [16].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

TDD Physical Channel Offset

INTEGER

(0..63)

9.2.3.10 TDD TPC Downlink Step Size

This parameter indicates step size for the DL power adjustment (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TDD TPC Downlink Step Size			ENUMERATED(1, 2, 3,…)	Unit: dB.

9.2.3.10a TDD TPC Uplink Step Size

This parameter indicates step size for the UL power adjustment (see TS 25.224 [22]).

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

TDD TPC Uplink Step Size

ENUMERATED

(1, 2, 3,…)

Unit: dB.

9.2.3.10A TDD UL Code Information

The TDD UL Code Information IE provides TDD UL Code information for all DPCHs of one UL Time Slot.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
TDD UL Code Information		1..<maxNrOfDPCHs>		–
>DPCH ID	M		9.2.3.3	–
>TDD Channelisation Code	M		9.2.3.8	–

Range bound	Explanation
maxNrOfDPCHs	Maximum number of DPCHs for one CCTrCH.

9.2.3.10B TDD UL Code Information LCR

The TDD UL Code Information LCR IE provides information for UL Code to be established for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
TDD UL Code Information LCR		1 .. <maxNrOfDPCHsLCR>			–
>DPCH ID	M		9.2.3.3		–
>TDD Channelisation Code LCR	M		9.2.3.8a		–
>TDD UL DPCH Time Slot Format LCR	M		9.2.3.10C		–

Range bound	Explanation
maxNrOfDPCHsLCR	Maximum number of DPCH in one CCTrCH for 1.28Mcps TDD.

9.2.3.10C TDD UL DPCH Time Slot Format LCR

TDD UL DPCH Time Slot Format LCR indicates the time slot formats used in UL DPCH for 1.28Mcps TDD (see TS 25.221 [12]).

IE/Group Name	Presence	Range	IE type and reference	Semantics description
CHOICE Modulation
>QPSK
>>QPSK TDD UL DPCH Time Slot Format LCR	M		INTEGER (0..69,…)
>8PSK
>>8PSK TDD UL DPCH Time Slot Format LCR	M		INTEGER (0..24,…)

9.2.3.10D 1.28 Mcps TDD uplink physical channel capability

1.28 Mcps TDD uplink physical channel capability IE defines the UE uplink physical channel capability for 1.28 Mcps TDD.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of timeslots per subframe

INTEGER

(1..6)

Maximum number of physical channels per timeslot

ENUMERATED

(1,2,3,4…)

9.2.3.11 TFCI Coding

The TFCI Coding describes how the TFCI bits are coded. By default 1 TFCI bit is coded with 4 bits, 2 TFCI bits are coded with 8 bits, 3-5 TFCI bits are coded with 16 bits and 6-10 TFCI bits are coded with 32 bits.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TFCI Coding			ENUMERATED(4, 8, 16, 32,…)

9.2.3.12 DL Timeslot ISCP

DL Timeslot ISCP is the measured interference in a downlink timeslot at the UE, see TS 25.225 [14].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DL Timeslot ISCP

INTEGER(

0..91)

According to mapping in TS 25.123 [24].

9.2.3.12a Time Slot LCR

The Time Slot LCR is the number of the traffic time slot within a 5 ms subframe of LCR TDD.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Time Slot LCR

INTEGER

(0..6)

9.2.3.12A Timing Advance Applied

Defines the need for Timing Advance functions such as Rx Timing Deviation measurement in a particular cell.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timing Advance Applied			ENUMERATED(Yes, No)

9.2.3.13 Transport Format Management

Defines whether the cell transmits the transport format information via broadcast or whether the transport format information is transmitted to the UE using dedicated RRC procedures

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Format Management			ENUMERATED(Cell Based, UE Based,…)

9.2.3.13A UL Timeslot ISCP

UL Timeslot ISCP is the measured interference in a uplink timeslot at the DRNS, see TS 25.225 [14].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UL Timeslot ISCP

INTEGER(

0..127)

According to mapping in TS 25.123 [24].

9.2.3.13B UL PhysCH SF Variation

Indicates whether variation of SF in UL is supported by Radio Link or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UL PhysCH SF Variation			ENUMERATED(SF_Variation_supported, SF_Variation_NOT_supported)

9.2.3.13C UL Timeslot Information

The UL Timeslot Information IE provides information on the time slot allocation for a UL DPCH.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
UL Timeslot Information		1..<maxNrOfTS>		–
>Time Slot	M		9.2.1.56	–
>Midamble Shift And Burst Type	M		9.2.3.4	–
>TFCI Presence	M		9.2.1.55	–
>UL Code Information	M		TDD UL Code Information 9.2.3.10A	–

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE.

9.2.3.13D UL Time Slot ISCP Info

The UL Time Slot ISCP Info IE gives interference level for each UL time slot within the Radio Link.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
UL Time Slot ISCP Info		1 .. <maxNrOfULTs>		–
>Time Slot	M		9.2.1.56	–
>UL Timeslot ISCP	M		9.2.3.13A	–

Range bound	Explanation
maxNrOfULTs	Maximum number of uplink time slots per Radio Link.

9.2.3.13E TSTD Indicator

Indicates if TSTD shall be active or not for the DL DPCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TSTD Indicator			ENUMERATED(active, inactive)

9.2.3.13F TSTD Support Indicator

Indicates if UE support TSTD or not for DL DPCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TSTD Support Indicator			ENUMERATED(TSTD supported, TSTD not supported)

9.2.3.13Fa UE Measurement Hysteresis Time

The UE Measurement Hysteresis Time provides the duration during which a reporting criterion has to be fulfilled for the UE Measurement Reporting procedure to be triggered, see TS 25.331 [16]..

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UE Measurement Hysteresis Time

INTEGER(0..15)

Unit: dB.

Range: 0..7.5 dB.

Step: 0.5 dB.

9.2.3.13Fb UE Measurement Parameter Modification Allowed

Indicates if the SRNC may modify the UE measurement parameters based on its existing measurement schedule.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UE Measurement Parameter Modification Allowed			ENUMERATED (Parameter Modification Allowed, …)

9.2.3.13Fc UE Measurement Report Characteristics

The UE Measurement Report Characteristics, defines how the reporting shall be performed. For definition of the event criteria see TS 25.331 [16].

IE/Group Name	Presence	IE Type and Reference	Semantics Description
CHOICE UE Report Characteristics
>Periodic
>>Amount of Reporting	M	ENUMERATED(1, 2, 4, 8, 16, 32, 64, infinity)
>>Reporting Interval	M	ENUMERATED (250, 500, 1000, 2000, 3000, 4000, 6000, 8000, 12000, 16000, 20000, 24000, 28000, 32000, 64000)	Indicates the interval of periodical report interval in milliseconds.
>Event 1h
>>UE Measurement Threshold	M	9.2.3.13Fd	The threshold for which the DRNS shall trigger a measurement report.
>>UE Measurement Time to Trigger	M	9.2.3.13Fg
>>Hysteresis	M	UE Measurement Hysteresis Time 9.2.3.13Fa
>Event 1i
>>UE Measurement Threshold	M	9.2.3.13Fd	The threshold for which the DRNS shall trigger a measurement report.
>>UE Measurement Time to Trigger	M	9.2.3.13Fg
>>Hysteresis	M	UE Measurement Hysteresis Time 9.2.3.13Fa
>Event 6a
>>UE Measurement Threshold	M	9.2.3.13Fd
>>UE Measurement Time to Trigger	M	9.2.3.13Fg
>Event 6b
>>UE Measurement Threshold	M	9.2.3.13Fd
>>UE Measurement Time to Trigger	M	9.2.3.13Fg
>Event 6c
>>UE Measurement Time to Trigger	M	9.2.3.13Fg
>Event 6d
>>UE Measurement Time to Trigger	M	9.2.3.13Fg

9.2.3.13Fd UE Measurement Threshold

The Measurement Threshold defines which threshold that shall trigger Event 1h, 1i, 6a or 6b, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE UE Measurement Threshold
>Timeslot ISCP
>>Timeslot ISCP	M		INTEGER (-115..-25)	In dBm.
>UE Tx Power
>>UE Transmitted Power	M		INTEGER(-50..33)	In dBm.

9.2.3.13Fe UE Measurement Timeslot Information HCR

The UE Measurement Timeslot Information HCR IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference
UE Measurement Timeslot Information HCR		1..<maxNrOfTS>
>Time Slot	M		9.2.1.56
>Burst Type	M		ENUMERATED(Type1, Type 2, Type 3,…)

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE for 3.84Mcps TDD.

9.2.3.13Ff UE Measurement Timeslot Information LCR

The UE Measurement Timeslot Information LCR IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UE Measurement Timeslot Information LCR		1 .. <maxNrOfTsLCR>
>Time Slot LCR	M		9.2.3.12a

Range bound	Explanation
maxNrOfTsLCR	Maximum number of Timeslots for a UE for 1.28Mcps TDD.

9.2.3.13Fg UE Measurement Time to Trigger

The UE time to trigger indicates the period of time between the timing of event detection and the timing of sending Measurement Report, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UE Measurement Time to trigger	M		ENUMERATED(0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000)	Time in ms.

9.2.3.13Fh UE Measurement Type

The UE Measurement Type identifies the type of measurement that shall be performed see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UE Measurement Type	M		ENUMERATED(Primary CCPCH RSCP , DL Timeslot ISCP, UE Transmitted Power,…)

9.2.3.13Fi UE Measurement Value

The UE Measurement Value shall be the most recent value for this measurement, for which the reporting criteria were met.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE UE Measurement Value	M
>UE Transmitted Power
>>UE Transmitted Power list HCR		0..<maxNrOfTS>		Mandatory for 3.84Mcps TDD, not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
>>>Time Slot	M		9.2.1.56
>>>UE Transmitted Power	M		INTEGER (0..104)	According to mapping in TS 25.123 [24]. Values 0..20 are not used.
>>UE Transmitted Power list LCR		0..< maxNrOfTsLCR>		Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
>>>Time Slot LCR	M		9.2.3.12a
>>>UE Transmitted Power	M		INTEGER (0..104)	According to mapping in TS 25.123 [24]. Values 0..20 are not used.
>>UE Transmitted Power list 768		0..<maxNrOfTS>		Mandatory for 7.68Mcps TDD, not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
>>>Time Slot	M		9.2.1.56
>>>UE Transmitted Power	M		INTEGER (0..104)	According to mapping in TS 25.123 [24]. Values 0..20 are not used.
>P-CCPCH RSCP
>>Primary CCPCH RSCP	O		9.2.3.5	According to mapping in TS 25.123 [24].
>>Primary CCPCH RSCP Delta	O		9.2.3.5a	According to mapping in TS 25.123 [24].
>DL Timeslot ISCP
>>Timeslot list HCR		0..<maxNrOfTS>		Mandatory for 3.84Mcps TDD, not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
>>>Time Slot	M		9.2.1.56
>>>Timeslot ISCP	M		DL Timeslot ISCP 9.2.3.12
>>Timeslot list LCR		0..<maxNrOfTsLCR>		Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
>>>Time Slot LCR	M		9.2.3.12a
>>>Timeslot ISCP	M		DL Timeslot ISCP 9.2.3.12
>>Timeslot list 768		0..<maxNrOfTS>		Mandatory for 7.68Mcps TDD, not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
>>>Time Slot	M		9.2.1.56
>>>Timeslot ISCP	M		DL Timeslot ISCP 9.2.3.12

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfTsLCR	Maximum number of Timeslots for a UE for 1.28Mcps TDD.

9.2.3.13Fj UE Measurement Value Information

The UE Measurement Value Information IE provides information both on whether or not the UE Measurement Value is provided in the message and if provided also the UE Measurement Value itself.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Measurement Availability Indicator	M
>Measurement Available
>>UE Measurement Value	M		9.2.3.13Fi
>Measurement not Available			NULL

9.2.3.13G UL Timeslot Information LCR

The UL Timeslot Information LCR IE provides information on the timeslot allocation for an UL DPCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UL Timeslot Information LCR		1 .. <maxNrOfULTsLCR>			–
>Time Slot LCR	M		9.2.3.12a		–
>Midamble Shift LCR	M		9.2.3.4C		–
>TFCI Presence	M		9.2.1.55		–
>UL Code Information LCR	M		TDD UL Code Information LCR 9.2.3.10B
>PLCCH Information	O		9.2.3.17		YES	ignore

Range bound	Explanation
maxNrOfULTsLCR	Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.13H UL Time Slot ISCP Info LCR

The UL Time Slot ISCP Info LCR IE provides information for UL Interference level for each time slot within the Radio Link for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UL Time Slot ISCP Info		1 .. <maxNrOfULTsLCR>			–
>Time Slot LCR	M		9.2.3.12a		–
>UL Timeslot ISCP	M		9.2.3.26A		–

Range bound	Explanation
maxNrOfULTsLCR	Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.13I Uplink Synchronisation Frequency

The Uplink Synchronisation Frequency IE specifies the frequency of the adjustment of the uplink transmission timing.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Uplink synchronisation frequency			INTEGER (1..8)	Unit: subframe, step: 1.

9.2.3.13J Uplink Synchronisation Step Size

The Uplink Synchronisation Step Size IE specifies the step size to be used for the adjustment of the uplink transmission timing.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Uplink synchronisation step size			INTEGER (1..8)	Unit: 1/8 chip, step: 1.

9.2.3.13K Uplink Timing Advance Control LCR

The Uplink Timing Advance Control LCR indicates the parameters which are used to support Uplink Synchronisation for the UE in 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SYNC UL codes bitmap	M		BITSTRING (8)	Each bit indicates the availability of a SYNC_UL code.
FPACH info		1
>Time Slot LCR	M		9.2.3.12a
>TDD Channelisation Code LCR	M		9.2.3.8a
>Midamble Shift LCR	M		9.2.3.4C
>WT	M		INTEGER (1..4)	Maximum number of subframes to wait for transmission of FPACH.
PRXupPCHdes	M		INTEGER (-120 .. –58, …)	Desired UpPCH receive power. Unit: dBm. Step size: 1.
SYNC UL procedure parameters		1
>Maximum Sync UL transmissions	M		ENUMERATED (1,2,4,8,…)
>Power Ramp Step	M		INTEGER (0..3, …)
Mmax	M		INTEGER (1..32)	Maximum number of synchronisation attempts.

9.2.3.13L USCH ID

The USCH ID is the identifier of an uplink shared channel. It is unique among the USCHs simultaneously allocated for the same UE.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

USCH ID

INTEGER

(0..255)

9.2.3.14 USCH Information

The USCH Information IE provides information for USCHs to be established.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
USCH Information		1 to <maxNoOfUSCHs>			–
>USCH ID	M		9.2.3.13L		–
>CCTrCH ID	M		9.2.3.2	UL CCTrCH in which the USCH is mapped	–
>TrCH Source Statistics Descriptor	M		9.2.1.65		–
>Transport Format Set	M		9.2.1.64	For USCH.	–
>Allocation/Retention Priority	M		9.2.1.1		–
>Scheduling Priority Indicator	M		9.2.1.51A		–
>RB Info		1..<maxNoOfRB>		All Radio Bearers using this USCH.	–
>>RB Identity	M		9.2.3.5B		–
>Traffic Class	M		9.2.1.58A		YES	ignore
>Binding ID	O		9.2.1.3	Shall be ignored if bearer establishment with ALCAP.	YES	ignore
>Transport Layer Address	O		9.2.1.62	Shall be ignored if bearer establishment with ALCAP.	YES	ignore
>TNL QoS	O		9.2.1.56A		YES	ignore

Range bound	Explanation
maxNoOfUSCHs	Maximum number of USCHs for one UE.
maxNoOfRB	Maximum number of Radio Bearers for one UE.

9.2.3.16 Support of PLCCH

The Support of PLCCH IE indicates whether PLCCH is supported or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Support of PLCCH			ENUMERATED(supported)

9.2.3.17 PLCCH Information

The PLCCH Information IE carres a PLCCH assignment for a timeslot of an UL DCH-type CCTrCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TDD Channelisation Code	M		9.2.3.8	Only QPSK modulation is used with PLCCH.
Time Slot LCR	M		9.2.3.12a
Midamble Shift LCR	M		9.2.3.4C
PLCCH Sequence Number	M		9.2.3.18

9.2.3.18 PLCCH Sequence Number

This sequence number represents a portion of a PLCCH used to signal TPC / SS bits to a single UE. A value of zero indicates that the PLCCH assignment has been deleted.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
PLCCH Sequence Number			INTEGER (0..14)

9.2.3.19 Minimum Spreading Factor 7.68Mcps

Defines the minimum spreading factor the UE has the capability of receiving or transmitting for 7.68Mcps TDD.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Minimum Spreading Factor 768

INTEGER

(1..32)

9.2.3.20 Maximum Number of DL Physical Channels 7.68Mcps

Defines the maximum number of physical channels for 7.68Mcps TDD – per frame that the UE is capable to receive.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of DL Physical Channels 768

INTEGER

(1..448)

9.2.3.21 Maximum Number of DL Physical Channels per Timeslot 7.68Mcps

Defines the maximum number of physical channels per timeslot that the UE is capable to receive for 7.68 Mcps TDD.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Maximum Number of DL Physical Channels per Timeslot 768

INTEGER

(1..32)

9.2.3.22 Secondary CCPCH Info 7.68Mcps TDD

The Secondary CCPCH Info 7.68Mcps TDD IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality
TFCS	M		9.2.1.63	For the DL.	–
TFCI Coding	M		9.2.3.11		–
Secondary CCPCH		0..<maxNrOfSCCPCHs768>			–
>Time Slot	M		9.2.1.56		–
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23		–
>TFCI Presence	M		9.2.1.55		–
>Secondary CCPCH TDD Code Information 7.68Mcps	M		9.2.3.24		–
>TDD Physical Channel Offset	M		9.2.3.9		–
>Repetition Length	M		9.2.3.6		–
>Repetition Period	M		9.2.3.7		–
FACH		0..maxNrOfFACHs			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–
PCH		0..1			–
>TFS	M		Transport Format Set 9.2.1.64	For the DL.	–

Range bound	Explanation
maxNrOfSCCPCHs768	Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs	Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.23 Midamble Shift And Burst Type 7.68Mcps

This information element indicates burst type and midamble allocation for 7.68Mcps TDD.

Three different midamble allocation schemes exist:

– Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);

– Common midamble: the midamble is allocated by layer 1 depending on the number of channelisation codes (possible in DL only);

– UE specific midamble: a UE specific midamble is explicitly assigned (DL and UL).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Burst Type
>Type 1
>>Midamble Configuration Burst Type 1 And 3	M		ENUMERATED(4, 8, 16)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, Common midamble, UE specific midamble)
>>Midamble Shift Long	C-UE		INTEGER(0..15)
>Type 2
>>Midamble Configuration Burst Type 2	M		ENUMERATED (4, 8)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, Common midamble, UE specific midamble)
>>Midamble Shift Short	C-UE		INTEGER (0..7)
>Type 3				UL only.
>>Midamble Configuration Burst Type 1 And 3	M		ENUMERATED (4, 8, 16)	As defined in TS 25.221 [12].
>>Midamble Allocation Mode	M		ENUMERATED(Default midamble, UE specific midamble)
>>Midamble Shift Long	C-UE		INTEGER(0..15)

Condition	Explanation
UE	The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.24 Secondary CCPCH TDD Code Information 7.68Mcps

The Secondary CCPCH TDD Code Information 7.68Mcps IE provides TDD Channelisation Code information for all SCCPCHs of one Time Slot for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Secondary CCPCH TDD Code Information 7.68Mcps		1..<maxNrOfSCCPCHs768>			–
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25		–

Range bound	Explanation
maxNrOfSCCPCHs768	Maximum number of SCCPCHs for one CCTrCH.

9.2.3.25 TDD Channelisation Code 7.68Mcps

The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In 7.68Mcps TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code that can have a spreading factor of 1, 2, 4, 8, 16 or 32.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TDD Channelisation Code			ENUMERATED((1/1), (2/1), (2/2), (4/1), .. (4/4), (8/1), .. (8/8), (16/1), .. (16/16), (32/1), .. (32,32),… )

9.2.3.26 UL Timeslot Information 7.68Mcps

The UL Timeslot Information IE provides information on the time slot allocation for a UL DPCH for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
UL Timeslot Information		1..<maxNrOfTS>		–
>Time Slot	M		9.2.1.56	–
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23	–
>TFCI Presence	M		9.2.1.55	–
>UL Code Information 7.68Mcps	M		TDD UL Code Information 7.68Mcps 9.2.3.27	–

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE.

9.2.3.27 TDD UL Code Information 7.68Mcps

The TDD UL Code Information 7.68Mcps IE provides TDD UL Code information for all DPCHs of one UL Time Slot for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
TDD UL Code Information		1..<maxNrOfDPCHs768>		–
>DPCH ID	M		9.2.3.3	–
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25	–

Range bound	Explanation
maxNrOfDPCHs768	Maximum number of DPCHs for one CCTrCH.

9.2.3.28 DL Timeslot Information 7.68Mcps

The DL Timeslot Information 7.68Mcps IE provides information on the time slot allocation for a DL DPCH for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
DL Timeslot Information		1..<maxNrOfTS>		–
>Time Slot	M		9.2.1.56	–
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23	–
>TFCI Presence	M		9.2.1.55	–
>DL Code Information 7.68Mcps	M		TDD DL Code Information 7.68Mcps 9.2.3.29	–

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE.

9.2.3.29 TDD DL Code Information 7.68Mcps

The TDD DL Code Information IE provides TDD DL Code information for all DPCHs of one DL Time Slot for 7.68Mpcs TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
TDD DL Code Information		1..<maxNrOfDPCHs768>		–
>DPCH ID	M		9.2.3.3	–
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25	–

Range bound	Explanation
maxNrOfDPCHs768	Maximum number of DPCHs for one CCTrCH.

9.2.3.30 Rx Timing Deviation 7.68Mcps

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Rx Timing Deviation

INTEGER

(0..1023)

As specified in TS 25.435 [5].

9.2.3.31 Cell Capability Container 7.68 Mcps TDD

The Cell Capability Container 7.68 McpsTDD indicates which functionalities a cell supports.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container TDD

BIT STRING (SIZE(32))

The first bit: Delayed Activation Support Indicator.

The second bit: HS-DSCH Support Indicator.

The third bit: DSCH Support Indicator.

The fourth bit: Flexible MAC-d PDU Size Support Indicator.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.32 Neighbouring TDD Cell Measurement Information 7.68Mcps

This IE provides information on the 7.68Mcps TDD neighbouring cells used for the purpose of Measurements. Since the measurement can be performed on every time slot and midamble shift, the Time slot IE and Midamble shift and burst type IE shall be included if available.

IE/Group Name	Presence	IE Type and Reference	Semantics Description
UTRAN Cell Identifier	M	9.2.1.71
UARFCN	M	9.2.1.66	Corresponds to Nt TS 25.105 [7].
Cell Parameter ID	M	9.2.1.8
Time Slot	O	9.2.1.56
Midamble Shift And Burst Type 7.68Mcps	O	9.2.3.23

9.2.3.33 UE Measurement Timeslot Information 7.68Mcps

The UE Measurement Time Slot Information IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference
UE Measurement Timeslot Information		1..<maxNrOfTS>
>Time Slot	M		9.2.1.56
>Burst Type	M		ENUMERATED(Type1, Type 2, Type 3,…)

Range bound	Explanation
maxNrOfTS	Maximum number of Timeslots for a UE for 7.68Mcps TDD.

9.2.3.34 DPCH ID 7.68Mcps

The DPCH ID 7.68Mcps identifies unambiguously a DPCH inside a downlink Radio Link for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DPCH ID			INTEGER (0..479)

9.2.3.35 Rx Timing Deviation 3.84Mcps Extended

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Rx Timing Deviation

INTEGER

(0..511)

As specified in TS 25.435 [5].

9.2.3.36 E-PUCH Information

The E-PUCH Information IE provides parameters to configure the E-PUCH physical channel for 3.84Mcps TDD and 7.68 Mcps TDD.

IE/Group Name	Presence	IE Type and Reference	Semantics Description
Minimum code rate	M	INTEGER (0..63)	Unit: – Range: 0.055 ..1. Step: 0.015.
Maximum code rate	M	INTEGER (0..63)	Unit: – Range: 0.055 ..1. Step: 0.015.
HARQ Info for E-DCH	M	ENUMERATED (rv0, rvtable)	“rv0” indicates that the UE will only use E_DCH RV index 0. “rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.211 [8].
N_E-UCCH	M	INTEGER (1..12)	Number of slots that are required to carry TPC and TFCI (consecutively allocated slots beginning with the first).

9.2.3.36a E-PUCH Information LCR

The E-PUCH Information LCR IE provides parameters to configure the E-PUCH physical channel for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Minimum code rate	M		INTEGER (0..63)	Unit: – Range: 0.055 ..1. Step: 0.015.	–
Maximum code rate	M		INTEGER (0..63)	Unit: – Range: 0.055..1. Step: 0.015.	–
HARQ Info for E-DCH	M		ENUMERATED (rv0, rvtable)	“rv0” indicates that the UE will only use E_DCH RV index 0. “rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.211 [8].	–
PRXdes_base	M		INTEGER (-112..-50)	dBm. Reference Desired RX power level for E-PUCH.	–
E-PUCH TPC Step Size	M		TDD TPC Uplink Step Size 9.2.3.10a		–
N_E-UCCH	M		INTEGER (1..8)	Number of E-UCCH and TPC instances within an E-DCH TTI. Details are described in TS 25.221 [12].	–
E-PUCH Power Control GAP	O		INTEGER (1..255)	Unit: Number of subframes. Reference to E-PUCH Power Control for 1.28Mcps TDD in TS 25.224 [22]. If it is not present, UE shall deem it to be infinite in which case closed loop power control shall always be used.	YES	ignore

9.2.3.37 E-TFCS Information TDD

Whereas the related E-DCH Transport Block sizes are standardised in TS 25.425 [32] this IE gives details on the Reference Betas.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Reference Beta Information QPSK		1..<maxNrOfRefBetas>
>Reference Code Rate	M		INTEGER (0..10)	Unit: – Range: 0..1. Step: 0.1.
>Reference Beta	M		INTEGER( -15..16)	Unit: – Range: -15..+16. Step: 1 dB.
Reference Beta Information 16QAM		1..<maxNrOfRefBetas>
>Reference Code Rate	M		INTEGER (0..10)	Unit: – Range: 0..1. Step: 0.1.
>Reference Beta	M		INTEGER( -15..16)	Unit: – Range: -15..+16. Step: 1 dB.

Range Bound	Explanation
maxNrOfRefBetas	Maximum number of signalled reference betas.

9.2.3.38 E-DCH MAC-d Flows Information TDD

The E-DCH MAC-d Flows Information TDD IE is used for the establishment of E-DCH MAC-d flows for TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>Allocation/Retention Priority	M		9.2.1.1		–
>TNL QoS	O		9.2.1.56A		–
>Binding ID	O		9.2.1.3	Shall be ignored if bearer establishment with ALCAP.	–
>Transport Layer Address	O		9.2.1.62	Shall be ignored if bearer establishment with ALCAP.	–
>Payload CRC Presence Indicator	M		Payload CRC Present Indicator 9.2.1.42		–
>Maximum Number of Retransmissions for E-DCH	M		9.2.1.100		–
>E-DCH HARQ Power Offset TDD	M		9.2.3.49		–
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89		–
>E-DCH Grant Type	M		9.2.3.43		–
>E-DCH Logical Channel Information	M		9.2.1.92		–
>E-DCH MAC-d Flow Retransmission Timer	O		9.2.3.49a	Mandatory for LCR TDD. Not applicable for 3.84Mcps TDD and 7.68Mcps TDD.	YES	YES
>Traffic Class	M		9.2.1.58A		YES	ignore

Range Bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.3.39 E-DCH Non-scheduled Grant Information TDD

The E-DCH Non-scheduled Grant Information TDD IE is used to specify the details of an non-scheduled grant for 3.84Mcps and 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timeslot Resource Related Information	M		9.2.3.44
Power Resource Related Information	M		9.2.3.45
Repetition Period	M		9.2.3.7
Repetition Length	M		9.2.3.6
TDD E-PUCH Offset	M		E-PUCH Offset 9.2.3.46
TDD Channelisation Code	M		9.2.3.8

9.2.3.39a E-DCH Non-scheduled Grant Information LCR TDD

The E-DCH Non-scheduled Grant Information LCR TDD IE is used to specify the details of an non-scheduled grant for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timeslot Resource Related Information LCR	M		9.2.3.44a
Power Resource Related Information	M		9.2.3.45
Repetition Period	M		9.2.3.7
Repetition Length	M		9.2.3.6
Subframe Number	M		ENUMERATED (0,1)	Used to indicate from which subframe of the Radio Frame indicated by TDD E-PUCH Offset IE the physical resources are assigned to the E-DCH Non-scheduled Grant.
TDD E-PUCH Offset	M		E-PUCH Offset 9.2.3.46
TDD Channelisation Code	M		9.2.3.8

9.2.3.40 E-DCH TDD Information

The E-DCH TDD Information specifies the details of the maximum bit rate and processing overload level.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH TDD Maximum Bitrate	O		9.2.3.47
E-DCH Processing Overload Level	O		9.2.1.95
E-DCH Power Offset for Scheduling Info	O		9.2.1.96

9.2.3.40a E-DCH TDD Information LCR

The E-DCH TDD Information LCR IE specifies the details of UE physical layer category, Node B processing overload level and power offset, Maximum Number of Retransmission and E-DCH Retransmission timer for scheduling info. The E-AGCH Inactivity Monitor Threshold IE is used for E-AGCH channel monitoring control for scheduled transmission.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH Physical Layer Category LCR	O		9.2.3.54	If the Extended E-DCH Physical Layer Category LCR IE is included in the E-DCH TDD Information LCR IE, the E-DCH Physical Layer Category LCR IE shall be ignored. In case of multi-carrier E-DCH, this IE indicates the capability for each carrier.	–
E-DCH Processing Overload Level	O		9.2.1.95		–
E-DCH Power Offset for Scheduling Info	O		9.2.1.96		–
Extended E-DCH Physical Layer Category LCR	O		9.2.3.54A	The Extended E-DCH Physical Layer Category LCR IE shall be used if the E-DCH Physical Layer Category has a value larger than 5. In case of multi-carrier E-DCH, this IE indicates the capability for each carrier.	YES	reject
Maximum Number of Retransmission for Scheduling Info LCR	O		Maximum Number of Retransmissions for E-DCH 9.2.1.100		YES	ignore
E-DCH Retransmission timer for Scheduling Info LCR	O		E-DCH MAC-d Flow Retransmission Timer 9.2.3.49a		YES	ignore
E-AGCH Inactivity Monitor Threshold	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, spare5, …, infinity)	Units of subframes.	YES	ignore
SNPL Carrier Group Indicator	O		INTEGER (1..3)	Applicable to 1.28Mcps TDD in multi-carrier E-DCH operation only. The absence of this IE indicates the corresponding frequency belongs to a separate SNPL carrier group which only contains this carrier. The SNPL carrier group is defined in [16].	YES	reject
Multi-Carrier E-DCH Physical Layer Category LCR	O		9.2.3.54B	Applicable to 1.28Mcps TDD in multi-carrier E-DCH operation only.	YES	reject
UE TS0 Capability LCR	O		ENUMERATED (TS0 Capable, TS0 Non-Capable)	Applicable to 1.28Mcps TDD only.	YES	ignore

9.2.3.41 E-DCH TDD Information Response

The E-DCH TDD Information Response IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the Node B.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>E-DCH MAC-d Flow ID	M		9.2.1.91
>Binding ID	O		9.2.1.3
>Transport Layer Address	O		9.2.1.62
E-AGCH Specific Information Response		0..<maxNrOfEAGCHCodes>
>Time Slot	M		9.2.1.56
>Midamble Shift And Burst Type	M		9.2.3.4
>TDD Channelisation Code	M		9.2.3.8
E-HICH Information Response		0..1
>Time Slot	M		9.2.1.56
>Midamble Shift And Burst Type	M		9.2.3.4
>TDD Channelisation Code	M		9.2.3.8
>E-HICH Time Offset	M		9.2.3.48
E-DCH Non-scheduled Grant Information TDD	O		9.2.3.39
E-RNTI	O		9.2.1.94

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of MAC-d flows.
maxNrOfEAGCHCodes	Maximum number of E-AGCHs assigned to one UE.

9.2.3.41a E-DCH TDD Information Response 1.28Mcps

Only for 1.28Mcps TDD. The E-DCH TDD Information Response 1.28Mcps IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the Node B.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>E-DCH MAC-d Flow ID	M		9.2.1.91
>Binding ID	O		9.2.1.3
>Transport Layer Address	O		9.2.1.62
E-AGCH Specific Information Response		0..<maxNrOfEAGCHCodes>
>Time Slot LCR	M		9.2.3.12a
>Midamble Shift LCR	M		9.2.3.4C
>TDD Channelisation Code	M		9.2.3.8
E-HICH Scheduled specific Information Response		0..1
>Scheduled		0..< maxNrOfEHICHCodes>
>>EI	M		INTEGER (0..3)	E-HICH indication which is used to indicate UE on which E-HICH the feedback info is carried.
>>Time Slot LCR	M		9.2.3.12a
>>Midamble Shift LCR	M		9.2.3.4C
>>TDD Channelisation Code	M		9.2.3.8
>Non-Scheduled		0..1
>>Time Slot LCR	M		9.2.3.12a
>>Midamble Shift LCR	M		9.2.3.4C
>>TDD Channelisation Code	M		9.2.3.8
>>Signature Sequence Group Index	M		INTEGER (0..19)
>E-HICH Time Offset LCR	M		9.2.3.48a
E-DCH Non-scheduled Grant Information LCR TDD	O		9.2.3.39a
E-RNTI	O		9.2.1.94

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of MAC-d flows.
maxNrOfEAGCHCodes	Maximum number of E-AGCHs assigned to one UE.
maxNrOfEHICHCodes	Maximum number of E-HICHs assigned to one UE.

9.2.3.42 E-DCH TDD Information to Modify

The E-DCH MAC-d Flows Information TDD IE is used for the establishment of E-DCH MAC-d flows for TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>Allocation/Retention Priority	O		9.2.1.1		–
>Transport Bearer Request Indicator	M		9.2.1.61		–
>Binding ID	O		9.2.1.3	Shall be ignored if bearer establishment with ALCAP.	–
>Transport Layer Address	O		9.2.1.62	Shall be ignored if bearer establishment with ALCAP.	–
>TNL QoS	O		9.2.1.56A		–
>Maximum Number of Retransmissions for E-DCH	O		9.2.1.100		–
>E-DCH HARQ Power Offset TDD	O		9.2.3.49		–
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89		–
>E-DCH Grant Type	O		9.2.3.43		–
>E-DCH Logical Channel To Add	O		E-DCH Logical Channel Information 9.2.1.92		–
>E-DCH Logical Channel To Modify	O		9.2.1.93		–
>E-DCH Logical Channel To Delete		0..< maxNoOfLogicalChannels>			–
>>Logical Channel ID	M		9.2.1.97		–
>E-DCH MAC-d Flow Retransmission Timer	O		9.2.3.49a	Applicable for 1.28Mcps TDD only.	YES	ignore
>Traffic Class	O		9.2.1.58A		YES	ignore
MAC-e Reset Indicator	O		9.2.1.99		–
E-DCH MAC-d PDU Size Format	O		9.2.1.91A		YES	reject
UE TS0 Capability LCR	O		ENUMERATED (TS0 Capable, TS0 Non-Capable)	Applicable to 1.28Mcps TDD only.	YES	ignore

Range Bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.
maxNoOfLogicalChannels	Maximum number of logical channels.

9.2.3.43 E-DCH Grant Type

The E-DCH Grant Type identifies whether a MAC-d flow is scheduled or non-scheduled.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Grant Type			ENUMERATED (Scheduled, Non-scheduled)

9.2.3.44 Timeslot Resource Related Information

The Timeslot Resource Related Information is a bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timeslot Resource Related Information			BIT STRING (SIZE(13))

9.2.3.44a Timeslot Resource Related Information LCR

The Timeslot Resource Related Information LCR IE is a bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timeslot Resource Related Information LCR			BIT STRING (SIZE(5))

9.2.3.45 Power Resource Related Information

The Power Resource Related Information specifies the maximum allowed E-PUCH power resource (dB relative to P_e-base) that the UE may use for non-scheduled transmissions.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Power Resource Related Information			INTEGER (1..32)

9.2.3.46 E-PUCH Offset

The E-PUCH Offset represents the CFN offset at which an non-scheduled E-DCH grant begins.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-PUCH Offset			INTEGER (0..255)

9.2.3.47 E-DCH TDD Maximum Bitrate

The E-DCH TDD Maximum Bitrate parameter indicates the Maximum Bitrate for an E-DCH in TDD mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH TDD Maximum Bitrate			INTEGER (0..9201,…)	Bitrate on transport block level. Unit is kbits per second.

9.2.3.48 E-HICH Time Offset

The E-HICH Time Offset ( aka n_E-HICH (TS 25.221 [12]))is determined by the Node B.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-HICH Time Offset			INTEGER (4..44)

9.2.3.48a E-HICH Time Offset LCR

The E-HICH Time Offset LCR IE(aka n_E-HICH (TS 25.221 [12]))is determined by the Node B.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-HICH Time Offset LCR			INTEGER (4..15)

9.2.3.49 E-DCH HARQ Power Offset TDD

The E-DCH HARQ Power Offset TDD is the power offset measured in dB.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH HARQ Power Offset TDD			INTEGER (0..6)

9.2.3.49a E-DCH MAC-d Flow Retransmission Timer

The E-DCH MAC-d Flow Retransmission Timer IE is used in the E-DCH retransmission control as defined in TS 25.425 [32].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-DCH MAC-d Flow Retransmission Timer

ENUMERATED (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160, 200, 240, 280, 320, 400, 480, 560,…)

Unit: ms.

Node B may use this value to stop the re-transmission of the corresponding MAC-e PDU.

9.2.3.50 E-DCH Non-scheduled Grant Information 7.68Mcps TDD

The E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE is used to specify the details of an non-scheduled grant for TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Timeslot Resource Related Information	M		9.2.3.44
Power Resource Related Information	M		9.2.3.45
Repetition Period	M		9.2.3.7
Repetition Length	M		9.2.3.6
TDD E-PUCH Offset	M		E-PUCH Offset 9.2.3.46
TDD Channelisation Code 7.68Mcps	M		9.2.3.25

9.2.3.51 E-DCH TDD Information 7.68Mcps

The E-DCH TDD Information 7.68Mcps specifies the details of the maximum bit rate and processing overload level for 7.68Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH TDD Maximum Bitrate 7.68Mcps	O		9.2.3.53
E-DCH Processing Overload Level	O		9.2.1.95
E-DCH Power Offset for Scheduling Info	O		9.2.1.96

9.2.3.52 E-DCH TDD Information Response 7.68Mcps

The E-DCH TDD Information Response 7.68Mcps IE provides information for E-DCH MAC-d flows that have been established or modified for 7.68Mcps TDD. It also provides additional E-DCH information determined within the Node B.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>E-DCH MAC-d Flow ID	M		9.2.1.91
>Binding ID	O		9.2.1.3
>Transport Layer Address	O		9.2.1.62
E-AGCH Specific Information Response 7.68Mcps		0..<maxNrOfEAGCHCodes>
>Time Slot	M		9.2.1.56
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25
E-HICH Information Response 7.68Mcps		0..1
>Time Slot	M		9.2.1.56
>Midamble Shift And Burst Type 7.68Mcps	M		9.2.3.23
>TDD Channelisation Code 7.68Mcps	M		9.2.3.25
>E-HICH Time Offset	M		9.2.3.48
E-DCH Non-scheduled Grant Information 7.68Mcps TDD	O		9.2.3.50
E-RNTI	O		9.2.1.94

Range Bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.
maxNrOfEAGCHCodes	Maximum number of E-AGCHs assigned to one UE.

9.2.3.53 E-DCH TDD Maximum Bitrate 7.68Mcps

The E-DCH TDD Maximum Bitrate 7.68Mcps parameter indicates the Maximum Bitrate for an E-DCH in 7.68Mcps TDD mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH TDD Maximum Bitrate 7.68Mcps			INTEGER (0..17713,…)	Bitrate on transport block level. Unit is kbits per second.

9.2.3.54 E-DCH Physical Layer Category LCR

Only for 1.28Mcps TDD. The E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in LCR TDD mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Physical Layer Category LCR			INTEGER (1..5)	As defined in TS 25.306 [42].

9.2.3.54A Extended E-DCH Physical Layer Category LCR

Only for 1.28Mcps TDD. The Extended E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in LCR TDD mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Extended E-DCH Physical Layer Category LCR			INTEGER(6,…)	As defined in TS 25.306 [42].

9.2.3.54B Multi-Carrier E-DCH Physical Layer Category LCR

Only for 1.28Mcps TDD. The Multi-Carrier E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in multi-carrier E-DCH operation mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multi-Carrier E-DCH Physical Layer Category LCR			INTEGER (1..8,…)	As defined in [42].

9.2.3.55 UpPCH Information LCR

Only for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UpPCH Information LCR		1..<maxFrequencyinCell>			EACH	ignore
>UARFCN	O		9.2.1.66		–
>UpPCH Position LCR	O		9.2.3.56		–

Range Bound	Explanation
maxFrequencyinCell	Maximum number of Frequency that can be defined in a Cell.

9.2.3.56 UpPCH Position LCR

Only for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UpPCH Position LCR			INTEGER (1..127)

9.2.3.57 Common E-DCH MAC-d Flow ID

The Common E-DCH MAC-d Flow ID IE is the unique identifier for one MAC-d flow on E-DCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Common E-DCH MAC-d Flow ID

INTEGER

(0..255)

9.2.3.58 Common E-DCH MAC-d Flow Specific Information LCR

The Common E-DCH MAC-d Flow Specific Information LCR IE provides information associated to Common E-DCH MAC-d Flow used for Common E-DCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Common E-DCH MAC-d Flow Specific Information LCR		1..<maxNrOfEDCHMACdFlowsLCR>
>Common E-DCH MAC-d Flow ID	M		9.2.3.57
>Maximum Number of Retransmissions for E-DCH	M		9.2.1.100
>E-DCH HARQ Power Offset TDD	M		9.2.3.49
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89
>Common E-DCH Logical Channel information	M	1..<maxNoOfLogicalChannels>
>>Logical Channel ID	M		9.2.1.97
>>Maximum MAC-d PDU Size Extended	M		MAC PDU Size Extended 9.2.1.34D

Range bound	Explanation
maxNrOfEDCHMACdFlowsLCR	Maximum number of E-DCH MAC-d Flows for 1.28Mcps TDD.
maxNoOfLogicalChannels	Maximum number of logical channels.

9.2.3.59 MAC-es Maximum Bit Rate LCR

The MAC-es Maximum Bit Rate LCR IE indicates the maximum number of bits per second to be delivered over the air interface.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MAC-es Maximum Bit Rate LCR			INTEGER (0.. 256,000,000,…)	Unit: bit/s.

9.2.3.60 Idle Interval Information

The Idle Interval Information IE indicates the idle interval used for E-UTRAN measurements by a multi-RAT UE in CELL_DCH state. See TS 36.133 [64].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
K	M		INTEGER (2..3)	The actual idle interval period = 2^k.
Offset	M		INTEGER (0..7)	The idle interval position in the period.

9.2.3.61 Continuous Packet Connectivity DRX Information LCR

The Continuous Packet Connectivity DRX Information LCR IE defines the parameters used for Continuous Packet Connectivity DRX operation for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Enabling Delay	M		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)	Units of radio frames.	–
HS-SCCH DRX Information		1
>UE DRX Cycle	M		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>Inactivity Threshold for UE DRX Cycle	O		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>UE DRX Offset	M		INTEGER (0..63)	Units of subframes. Offset of the UE DRX cycles at the given TTI.	–
>Inactivity Threshold for UE DRX Cycle Ext	O		ENUMERATED(128,256,512,…)	Units of subframes.	YES	ignore
E-AGCH DRX Information		0..1
CHOICE E-AGCH DRX information type	M
>Same as HS-SCCH			NULL	Indicate the E-AGCH DRX Cycle and Offset are the same as the HS-SCCH DRX Cycle and Offset, and the E-AGCH Inactivity Monitor Threshold is absent.	–
>E-AGCH DRX parameters
>>E-AGCH DRX cycle	M		ENUMERATED (1, 2, 4, 8, 16 ,32 ,64,…)	Units of subframes.	–
>>E-AGCH Inactivity Monitor Threshold	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)	Units of subframes.	–
>>E-AGCH DRX Offset	M		INTEGER (0.. 63)	Units of subframes. Offset of the E-AGCH DRX cycles.	–

9.2.3.62 Continuous Packet Connectivity DRX Information To Modify LCR

The Continuous Packet Connectivity DRX Information To Modify LCR IE is used for modification of Continuous Packet Connectivity DRX information in a Node B Communication Context. The Continuous Packet Connectivity DRX Information To Modify LCR IE shall include at least one of the following IE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Enabling Delay	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)	Units of radio frames.	–
CHOICE DRX Information To Modify	O
>Modify
>>HS-SCCH DRX Information		0..1
>>>UE DRX Cycle	M		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>>>Inactivity Threshold for UE DRX Cycle	O		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>>>UE DRX Offset	M		INTEGER (0..63)	Units of subframes. Offset of the UE DRX cycles at the given TTI.	–
>>>Inactivity Threshold for UE DRX Cycle Ext	O		ENUMERATED(128,256,512,…)	Units of subframes.	YES	ignore
>>E-AGCH DRX Information		0..1
>>>CHOICE E-AGCH DRX information type	M				–
>>>>Same as HS-SCCH			NULL	Indicate the E-AGCH DRX Cycle and Offset are the same as the HS-SCCH DRX Cycle and Offset, and the E-AGCH Inactivity Monitor Threshold is absent.	–
>>>>E-AGCH DRX parameters
>>>>>E-AGCH DRX cycle	M		ENUMERATED (1,2,4,8,16,32,64,…)	Units of subframes.	–
>>>>>E-AGCH Inactivity Monitor Threshold	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)	Units of subframes.	–
>>>>>E-AGCH DRX Offset	M		INTEGER (0.. 63)	Units of subframes. Offset of the E-AGCH DRX cycles.	–
>Deactivate			NULL		–

9.2.3.63 Continuous Packet Connectivity DRX Information Response LCR

DRNS uses the Continuous Packet Connectivity DRX Information Response LCR IE to inform the SRNS the parameters used for Continuous Packet Connectivity DRX operation for 1.28 Mcps TDD (see TS 25.224 [22]). Continuous Packet Connectivity DRX related parameters shall be configured by SRNS. For the parameters which can be accepted by DRNS, the DRNS shall not included the related IEs in the Continuous Packet Connectivity DRX Information Response LCR IE. For the parameters which can be not accepted by DRNS, the DRNS shall included the related IEs in the Continuous Packet Connectivity DRX Information Response LCR IE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Enabling Delay	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)	Units of radio frames.	–
HS-SCCH DRX Information		0..1
>UE DRX Cycle	O		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>Inactivity Threshold for UE DRX Cycle	O		ENUMERATED(1,2,4,8,16,32,64,…)	Units of subframes.	–
>UE DRX Offset	O		INTEGER (0..63)	Units of subframes. Offset of the UE DRX cycles at the given TTI.	–
>Inactivity Threshold for UE DRX Cycle Ext	O		ENUMERATED(128,256,512,…)	Units of subframes. This IE can only be used when the Inactivity Threshold for UE DRX Cycle Ext is included in the request message, otherwise, the IE shall not be used.	YES	ignore
E-AGCH DRX Information		0..1
CHOICE E-AGCH DRX information type	M
>Same as HS-SCCH			NULL	Indicate the E-AGCH DRX Cycle and Offset are the same as the HS-SCCH DRX Cycle and Offset, and the E-AGCH Inactivity Monitor Threshold is absent.	–
>E-AGCH DRX parameters
>>E-AGCH DRX cycle	O		ENUMERATED (1,2,4,8,16,32,64,…)	Units of subframes.	–
>>E-AGCH Inactivity Monitor Threshold	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)	Units of subframes.	–
>>E-AGCH DRX Offset	O		INTEGER (0.. 63)	Units of subframes. Offset of the E-AGCH DRX cycles.	–

9.2.3.64 HS-DSCH Semi-Persistent scheduling Information LCR

The HS-DSCH Semi-Persistent scheduling Information LCR IE defines the parameters used for HS-DSCH semi-Persistent scheduling for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Block Size List		1..< maxNoOfTBSs-Mapping-HS-DSCH-SPS >
>Transport Block Size maping Index	M		INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)	Corresponds to the Transport-block size information field carried on HS-SCCH (see TS 25.222 [46]).
>Transport Block Size Index	M		INTEGER (1.. maxNoOfHS-DSCH-TBSsLCR)	Corresponds to the TB index in the related Transport Block Size table (see TS 25.425 [32]).
Repetition Period list		1..<maxNoOfRepetition-Period-LCR>
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR-1)	Corresponds to the Resource repetition period index field carried on HS-SCCH (see TS 25.222 [46]).
>Repetition Period	M		ENUMERATED (1, 2, 4, 8, 16, 32, 64,…)	Units of subframes.
>Repetition Length	O		INTEGER (1..63))	Absence means Repetition Length equal to 1.
HS-DSCH Semi-Persistent Resource Reservation Indicator	O		ENUMERATED(Reserve)	Reserve means the HS-DSCH Semi-Persistent Resource is required to be reserved and be informed via response message.
HS-DSCH Semi-Persistent scheduling operation Indicator		1
*>CHOICE configuration*
>>Logical Channel level			BIT STRING (SIZE(16))	Available when MAC-ehs is configured. Indicates the logical channels for which the HS-DSCH Semi-Persistent operation is intended to be used. Bit 0 is for logical channel 0, Bit 1 is for logical channel 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
>>Priority Queue level			BIT STRING (SIZE(8))	Indicates the Priority Queues for which the HS-DSCH Semi-Persistent operation is intended to be used. Bit 0 is for priority queue 0, Bit 1 is for priority queue 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.

Range Bound	Explanation
maxNoOfHS-DSCH-TBSsLCR	Maximum number of HS-DSCH Transport Block Sizes.
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.
maxNoOfTBSs-Mapping-HS-DSCH-SPS	Maximum number of Transport Block Size mapping index on HS-SCCH.

9.2.3.65 HS-DSCH Semi-Persistent scheduling Information to modify LCR

The HS-DSCH Semi-Persistent scheduling Information to modify LCR IE is used for the modification of HS-DSCH Semi-Persistent scheduling information for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Block Size List		0..< maxNoOfTBSs-Mapping-HS-DSCH-SPS >
>Transport Block Size maping Index	M		INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)	Corresponds to the Transport-block size information field carried on HS-SCCH (see TS 25.222 [46]).
>Transport Block Size Index	M		INTEGER (1.. maxNoOfHS-DSCH-TBSsLCR)	Corresponds to the TB index in the related Transport Block Size table (see TS 25.425 [32]).
Repetition Period list		0..<maxNoOfRepetition-Period-LCR>
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR)	Corresponds to the Resource repetition period index field carried on HS-SCCH (see TS 25.222 [46]).
>Repetition Period	M		ENUMERATED (1, 2, 4, 8, 16, 32, 64,…)	Units of subframes.
>Repetition Length	O		INTEGER (1..63))	Absence means Repetition Length equal to 1.
HS-DSCH Semi-Persistent Resource Reservation Indicator	O		ENUMERATED(Reserve)	Reserve means the Semi-Persistent HS-DSCH Resource is required to be reserved and be informed via response message.
HS-DSCH Semi-Persistent scheduling operation Indicator		0..1
>CHOICE configuration
>>Logical Channel level			BIT STRING (SIZE(16))	Available when MAC-ehs is configured. Indicates the logical channels for which the HS-DSCH Semi-Persistent operation is intended to be used. Bit 0 is for logical channel 0, Bit1 is for logical channel 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
>>Priority Queue level			BIT STRING (SIZE(8))	Indicates the Priority Queues for which the HS-DSCH Semi-Persistent operation is intended to be used. Bit 0 is for prority queue 0, Bit1 is for priority queue 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.

Range Bound	Explanation
maxNoOfHS-DSCH-TBSsLCR	Maximum number of HS-DSCH Transport Block Sizes.
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.
maxNoOfTBSs-Mapping-HS-DSCH-SPS	Maximum number of Transport Block Size mapping index on HS-SCCH.

9.2.3.66 E-DCH Semi-Persistent scheduling Information LCR

The E-DCH Semi-Persistent scheduling Information LCR IE defines the parameters used for E-DCH semi-Persistent scheduling for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Repetition Period list		1..<maxNoOfRepetition-Period-LCR>
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR-1)
>Repetition Period	M		ENUMERATED (1, 2, 4, 8, 16, 32, 64,…)	Units of subframes.
>Repetition Length	O		INTEGER (1..63))	Absence means Repetition Length equal to 1.
E-DCH Semi-Persistent scheduling Indicator	M		BIT STRING (SIZE(16))	Indicates the logical channels for which the E-DCH Semi-Persistent operation is intended to be used. Bit 0 is for logical channel 0, Bit1 is for logical channel 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
E-DCH Semi-Persistent Resource Reservation Indicator	O		ENUMERATED(Reserve)	Reserve means the E-DCH Semi-Persistent Resource is required to be reserved and be informed via response message.

Range Bound	Explanation
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.67 E-DCH Semi-Persistent scheduling Information to modify LCR

The E-DCH Semi-Persistent scheduling Information to modify LCR IE is used for the modification of E-DCH Semi-Persistent scheduling information for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Repetition Period list		0..<maxNoOfRepetition-Period-LCR>
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR-1)
>Repetition Period	M		ENUMERATED (1, 2, 4, 8, 16, 32, 64,…)	Units of subframes.
>Repetition Length	O		INTEGER (1..63))	Absence means Repetition Length equal to 1.
E-DCH Semi-Persistent scheduling Indicator	O		BIT STRING (SIZE(16))	Indicates the logical channels for which the E-DCH Semi-Persistent operation is intended to be used. Bit 0 is for logical channel 0, Bit1 is for logical channel 1, … Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
E-DCH Semi-Persistent Resource Reservation Indicator	O		ENUMERATED(Reserve)	Reserve means the E-DCH Semi-Persistent Resource is required to be reserved and be informed via response message.

Range Bound	Explanation
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.68 HS-DSCH Semi-Persistent scheduling Information Response LCR

The HS-DSCH Semi-Persistent scheduling Information Response LCR IE provides information for HS-DSCH Semi-Persistent scheduling determined within the Node B (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HS-SICH information for HS-DSCH Semi-Persistent Scheduling operation		1..< maxNoOf-HS-SICH-SPS>
>HS-SICH mapping index	M		INTEGER (0.. maxNoOf-HS-SICH-SPS-1)
>CHIOCE HS-SICH type
>>HS-SCCH associated HS-SICH
>>>HS-SICH ID	M		9.2.3.3ad
>>Non-HS-SCCH associated HS-SICH
>>>Time Slot LCR	M		9.2.3.12a
>>>Midamble Shift LCR	M		9.2.3.4C
>>>TDD Channelisation Code	M		9.2.3.8
Allcoated HS-PDSCH Semi-persistent resource		0..1
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR-1)
>Repetition Length for HS-PDSCH Semi-persistent Resouce	O		INTEGER (1..63))	Absence means Repetition Length equal to 1.
>HS-PDSCH offset	M		INTEGER (0..63))	Units of subframes.
>HS-PDSCH Midamble Configuation	M		Midamble Shift LCR 9.2.3.7A
>Timeslot Resource Related Information	M		BIT STRING (SIZE(5))	Each bit indicates availability of a timeslot, where the bit 0 corresponds to TS2, the bit 1 is TS3, the bit 3 is TS4… bit 5 corresponds to TS6. The value 1 of a bit indicates that the corresponding timeslot is available. Bit 0 is the first/leftmost bit of the bit string.
>Start Code	M		TDD Channelisation Code 9.2.3.8
>End Code	M		TDD Channelisation Code 9.2.3.8
>Transport Block Size Index	M		INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)
>Modulation type	M		ENUMERATED (QPSK, 16QAM)
>HS-SICH mapping index	M		INTEGER (0.. maxNoOf-HS-SICH-SPS-1)
Buffer Size for HS-DSCH Semi-Persistent scheduling	O		ENUMERATED (800..304000,…)	Indicats the buffer size that shall be reserved for HS-DSCH semi-persistent scheduling operation. 800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000.
Number of Processes for HS-DSCH Semi-Persistent scheduling	O		INTEGER (1..16)

Range Bound	Explanation
maxNoOf-HS-SICH-SPS	Maximum number of HS-SICH for HS-DSCH Semi-Persistent scheduling operation.
maxNoOfTBSs-Mapping-HS-DSCH-SPS	Maximum number of Transport Block Size mapping index on HS-SCCH.
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.69 E-DCH Semi-Persistent scheduling Information Response LCR

The E-DCH Semi-Persistent scheduling Information Response LCR IE provides information for E-DCH Semi-Persistent scheduling information determined within the Node B (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Allcoated E-DCH Semi-persistent resource		0..1
>Timeslot Resource Related Information LCR	M		9.2.3.54a
>Power Resource Related Information	M		9.2.3.45
>Repetition Period Index	M		INTEGER (0.. maxNoOfRepetition-Period-LCR-1)
>Repetition Length	M		INTEGER (1..63))	Absence means Repetition Length equal to 1.
>Subframe Number	M		ENUMERATED ( 0,1)	Used to indicate from which subframe of the Radio Frame indicated by TDD E-PUCH Offset IE the physical resources are assigned to the E-DCH Non-scheduled Grant.
>TDD E-PUCH Offset	M		E-PUCH Offset 9.2.3.46
>TDD Channelisation Code	M		9.2.3.8
>NE-UCCH	M		INTEGER (1..8)	Number of E-UCCH and TPC instances within an E-DCH TTI. Details are described in TS 25.221 [12].
E-DCH SPS E-HICH information		0..1
>CHOICE E-HICH configuration	M
>>same as scheduled E-HICH
>>>EI			INTEGER (0..3)
>>explicit
>>>Time Slot LCR	M		9.2.3.12a
>>>Midamble Shift LCR	M		9.2.3.4C
>>>TDD Channelisation Code	M		9.2.3.8
>Signature Sequence Group Index	M		INTEGER (0..19)

Range Bound	Explanation
maxNoOfRepetition-Period-LCR	Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.70 HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR

The HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR IE is used to deactivate HS-DSCH Semi-Persistent scheduling operation for 1.28 Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HS-DSCH Semi-Persistent scheduling Deactivate Indicator	M		NULL

9.2.3.71 E-DCH Semi-Persistent scheduling Deactivate Indicator LCR

The E-DCH Semi-Persistent scheduling Deactivate Indicator LCR IE is used to deactivate E-DCH Semi-Persistent schedulung operation for 1.28 Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Semi-Persistent scheduling Deactivate Indicator	M		NULL

9.2.3.72 HS-SICH Reference Signal Information

IE/Group Name	Presence	IE Type and Reference	Semantics Description
Midamble Configuration LCR	M	ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, …)	As defined in TS 25.221 [12].
Midamble Shift	M	INTEGER (0..15)
Time Slot LCR	M	9.2.3.12a

9.2.3.73 Cell Portion LCR ID

Cell Portion LCR ID is the unique identifier for a cell portion within a cell for 1.28 Mcps TDD. See TS 25.225 [14].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Cell Portion LCR ID			INTEGER (0..255,…)

9.2.3.74 TS0 HS-PDSCH Indication LCR

Only for 1.28Mcps TDD. The TS0 HS-PDSCH Indication LCR IE indicates the first bit of timeslot information included in the HS-SCCH can be used to allocate the HS-PDSCH resources on TS0.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TS0 HS-PDSCH Indication LCR			NULL

9.2.3.75 DCH Measurement Occasion Information

The DCH Measurement Occasion Information IE indicates Measurement Occasion Information used for inter-frequency/ inter-RAT measurements in CELL_DCH state for 1.28Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CELL_DCH measurement occasion pattern sequence		1 to <maxNrOfDCHMeasurementOccasionPatternSequence>
>Pattern sequence identifier	M		INTEGER (1.. maxNrOfDCHMeasurementOccasionPatternSequence)
>Status Flag	M		ENUMERATED(activate, deactivate)	This flag indicates whether the measurement occasion pattern sequence shall be activated or deactivated.
>Measurement purpose	O		BIT STRING (SIZE(5))	Measurement Purpose. Bit 0 is for Inter-frequency measurement. Bit 1 is for GSM carrier RSSI measurement. Bit 2 is for Initial BSIC identification. Bit 3 is for BSIC re-confirmation. Bit 4 is for E-UTRA measurement. The value 1 of a bit means that the measurement occasion pattern sequence is applicable for the corresponding type of measurement. Bit 0 is the first/leftmost bit of the bit string.
>Measurement occasion pattern sequence parameters	O
>>k	M		INTEGER (1..9)	CELL_DCH measurement occasion cycle length coefficient. The actual measurement occasion period equal to 2k radio frames. Value 0 indicates continuous allocation.
>>Offset	M		INTEGER (0..511)	In frames. The measurement occasion position in the measurement period.
>>M_Length	M		INTEGER (1..512)	The measurement occasion length in frames starting from the Offset.
>>Timeslot Bitmap	M		BIT STRING (SIZE(7))	Bitmap indicating which of the timeslot(s) is/are allocated for measurement. Bit 0 is for timeslot 0. Bit 1 is for timeslot 1. Bit 2 is for timeslot 2. Bit 3 is for timeslot 3. Bit 4 is for timeslot 4. Bit 5 is for timeslot 5. Bit 6 is for timeslot 6. The value 0 of a bit means the corresponding timeslot is not used for measurement. The value 1 of a bit means the corresponding timeslot is used for measurement. Bit 0 is the first/leftmost bit of the bit string.

Condition	Explanation
Measurementoccasionpatternsequence parameters	The IE shall be present if Measurement occasion pattern sequence parameters IE is present.

Range Bound	Explanation
maxNrOfDCHMeasurementOccasionPatternSequence	Maximum number of measurement occasion pattern sequence

9.2.3.76 DCH Measurement Type Indicator

The DCH Measurement Type Indicator IE indicates the measurement type(s) which the DRNS shall configured for the UE in CELL_DCH state for 1.28Mcps TDD.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Measurement type

BIT STRING (SIZE(5))

Measurement type. Bit 0 is for Inter-frequency measurement.

Bit 1 is for GSM carrier RSSI measurement.

Bit 2 is for Initial BSIC identification.

Bit 3 is for BSIC re-confirmation.

Bit 4 is for E-UTRA measurement.

The value 1 of a bit means that the measurement occasion pattern sequence should be configured for the corresponding type of measurement.

Bit 0 is the first/leftmost bit of the bit string.

9.2.3.77 Multi-Carrier E-DCH Information LCR

The Multi-Carrier E-DCH Information LCR IE defines the parameters used for Multi-Carrier E-DCH operation for 1.28 Mcps TDD.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multi-Carrier E-DCH Information		1..<maxNrOfULCarriersLCR-1>
>UARFCN	M		9.2.1.66	Corresponds to Nt (3GPP TS 25.105).
>SNPL Carrier Group Indicator	O		INTEGER (1..3)	Indicates to which SNPL carrier Group this frequency belongs. The absence of this IE indicates the corresponding frequency belongs to a separate SNPL carrier group which only contains this carrier. The SNPL carrier Group is defined in TS 25.331 [16].
>PRXdes_base	M		INTEGER (-112..-50)	dBm. Reference Desired RX power level for E-PUCH.
>Multi-Carrier E-DCH TDD MAC-d Flow Specific Information		0..<maxNrOfEDCHMACdFlows>		Shall be ignored if bearer establishment with ALCAP. Shall be present only if the Separate Iur transport bearer mode is used.
>>E-DCH MAC-d Flow ID	M		9.2.1.91
>>Binding ID	M		9.2.1.3
>>Transport Layer Address	M		9.2.1.62

Range Bound	Explanation
maxNrOfULCarriersLCR	Maximum number of uplink frequencis in Multi-Carrier E-DCH Operation.
maxNrOfEDCHMACdFlows	Maximum number of MAC-d flows.

9.2.3.78 Multi-Carrier E-DCH Information Response LCR

The Multi-Carrier E-DCH Information Response LCR IE provides information for E-DCH MAC-d flows that determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multi-Carrier E-DCH Information Response		1..<maxNrOfULCarriersLCR-1>
>UARFCN	M		9.2.1.66	Corresponds to Nt (3GPP TS 25.105).
>E-DCH TDD MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>>E-DCH MAC-d Flow ID	M		9.2.1.91
>>Binding ID	O		9.2.1.3
>>Transport Layer Address	O		9.2.1.62
>E-AGCH Specific Information Response		0..<maxNrOfEAGCHCodes>
>>Time Slot LCR	M		9.2.3.12a
>>Midamble Shift LCR	M		9.2.3.4C
>>TDD Channelisation Code	M		9.2.3.8
>E-HICH Scheduled specific Information Response		0..< maxNrOfEHICHCodes>
>>EI	M		INTEGER (0..3)	E-HICH indication which is used to indicate UE on which E-HICH the feedback info is carried.
>>Time Slot LCR	M		9.2.3.12a
>>Midamble Shift LCR	M		9.2.3.4C
>>TDD Channelisation Code	M		9.2.3.8

Range bound	Explanation
maxNrOfULCarriersLCR	Maximum number of uplink frequencis in Multi-Carrier E-DCH Operation.
maxNrOfEDCHMACdFlows	Maximum number of MAC-d flows.
maxNrOfEAGCHCodes	Maximum number of E-AGCHs assigned to one UE.
maxNrOfEHICHCodes	Maximum number of E-HICHs assigned to one UE.

9.2.3.79 Multi-Carrier E-DCH Transport Bearer Mode LCR

This parameter indicates the Multicarrier E-DCH Transport Bearer Mode. For Multi-Carrier E-DCH Transport Bearer Mode LCR = " Separate Iur transport bearer mode" the Mac-d flows from each carrier uses different Iur transport bearers, for Multi-Carrier E-DCH Transport Bearer Mode LCR = " E-DCH UL flow multiplexing mode " the Mac-d flow received on the different carriers in the DRNS is multiplexed on one Iur transport bearer.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multicarrier E-DCH Transport Bearer Mode			ENUMERATED (Separate Iur transport bearer mode,E-DCH UL flow multiplexing mode,…)

9.2.3.80 Cell Capability Container Extension TDD LCR

The Cell Capability Container Extension TDD LCR IE is an extension to the Cell Capability Container TDD LCR IE and indicates the cell capability in the same way as Cell Capability Container TDD LCR IE.

The Cell Capability Container Extension TDD LCR IE indicates the cell capability of Multi-Carrier related functions.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container Extension TDD LCR

BIT STRING (SIZE(32))

The first bit: Multi-Carrier E-DCH Operation Support Indicator. This bit shall be ignored by the SRNC if the second bit: Separate Iur Transport Bearer Support Indicator = “0” and the third bit: E-DCH UL Flow Multiplexing Support Indicator = “0”.

The second bit: Separate Iur Transport Bearer Support Indicator, /Multi-carrier/.

This bit shall be ignored by the SRNC if the first bit: Multi-Carrier E-DCH Operation Support Indicator = “0”.

The third bit: E-DCH UL flow multiplexing mode Indicator, /Multi-carrier/.

This bit shall be ignored by the SRNC if the first bit: Multi-Carrier E-DCH Operation Support Indicator = “0”.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. Note that Reserved bits are not considered as a spare bit. They shall however be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.81 MU-MIMO Information

The MU-MIMO Information IE defines the parameters used for MU-MIMO operation for 1.28 Mcps TDD (see TS 25.224 [22]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MU-MIMO Operation	M		ENUMERATED (MU-MIMO Used, MU-MIMO Not Used)
Standalone Midamble Channel Information		0..1
>Standalone Midamble Configuration	M		ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, …)	As defined in TS 25.221 [12].
>Standalone Midamble Shift	M		INTEGER (0..15)
>Time Slot LCR	M		9.2.3.12a
>Repetition Period	M		ENUMERATED (1, 2,4, 8, 16, 32, 64)	Units of subframes.
>Offset	M		INTEGER (0..63)	Units of subframes.
>Reference Beta	C-E-DCH		INTEGER (-15..16)	Unit range -15db to +16db.

Condition	Explanation
E-DCH	This IE shall be present if IE "E-DCH Information 1.28Mcps" is present. Otherwise it is not needed.

9.2.3.82 MU-MIMO Indicator

The MU-MIMO Indicator IE indicates the DRNC can use MU-MIMO on UL and/or DL. It also indicates that whether Standalone Midamble Channel should be used or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MU-MIMO Usage Indicator	M		ENUMERATED (UL Only, DL Only, UL and DL)
Standalone Midamble Channel indicator	M		ENUMERATED (Used, Not Used)

9.2.3.83 M2 Report

This IE defines the parameters for a M2 report, TDD report of UE radio measurements. This IE is not used by the DRNS.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
M2 Report
>CHOICE Report trigger	M
>>Periodic
>>>MDT Report Parameters	M		9.2.1.140
>>Event1I
>>>threshold	M		INTEGER(-120..-25)

9.2.3.84 UE RF Band Capability LCR

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UE RF Band Capability Info		1..< maxFreqBandsTDD>
>UE RF Band Capability	M		ENUMERATED (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,…)	Corresponds to the radio bands definition (TS 25.105 [7]).

Range Bound	Explanation
maxFreqBandsTDD	Maximum number of Frequency bands for TDD.