9 Measurements Performance Requirements

25.1333GPPRelease 17Requirements for support of radio resource management (FDD)TS

One of the key services provided by the physical layer is the measurement of various quantities which are used to trigger or perform a multitude of functions. Both the UE and the UTRAN are required to perform a variety of measurements. The physical layer measurement model and a complete list of measurements is specified in TS 25.302 "Services Provided by Physical Layer". The physical layer measurements for FDD are described and defined in TS25.215 "Physical layer ‑ Measurements (FDD)". In this clause for each measurement the relevant requirements on the measurement period, reporting range, granularity and performance in terms of accuracy are specified.

Since the UE reference sensitivity requirements are different depending on supported band, this is noted in each case with definition of the range Io for each frequency band. Definitions of each frequency bands can be found in TS 25.101.

The accuracy requirements in this clause are applicable for AWGN radio propagation conditions.

9.1 Measurement Performance for UE

The requirements in this clause are applicable for a UE:

– in state CELL_DCH and/or state CELL_FACH when DRX is not configured.

– performing measurements according to section 8.

– that is synchronised to the cell that is measured.

The reported measurement result after layer 1 filtering shall be an estimate of the average value of the measured quantity over the measurement period. The reference point for the measurement result after layer 1 filtering is referred to as point B in the measurement model described in TS25.302.

The accuracy requirements in this clause are valid for the reported measurement result after layer 1 filtering. The accuracy requirements are verified from the measurement report at point D in the measurement model having the layer 3 filtering disabled.

NOTE: It needs to be clarified how the accuracy requirements shall be handled when the UE is measuring on cells using IPDL.

NOTE: For the UE which supports both Band III and Band IX operating frequencies, the measurement performance requirements for Band III shall apply to the multi-band UE.

When DRX is configured in state CELL_FACH, the accuracy specified for idle mode reselections in chapter 4 is applicable to UE measurements.

NOTE: The requirements for Band XXXII are applicable only with dual band configuration (e.g., DB-DC-HSDPA or dual band 4C-HSDPA).

9.1.1 CPICH RSCP

NOTE: This measurement is for handover evaluation, DL open loop power control, UL open loop power control and for the calculation of pathloss.

9.1.1.1 Intra frequency measurements accuracy

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.2. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.2.

9.1.1.1.1 Absolute accuracy requirement

The accuracy requirements in table 9.1 are valid under the following conditions:

CPICH_RSCP1|_dBm.according to Annex B.3.1 for a corresponding Band

Table 9.1: CPICH_RSCP Intra frequency absolute accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84MHz]
				Minimum Io	Maximum Io
CPICH_RSCP	± 6	± 9	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-70
			II, V and VII	-92	-70
			XXV and XXVI	-90.5 (Note 1)	-70
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-70
			IX	-93	-70
	± 8	± 11	Note 2	-70	-50
NOTE 1: The minimum Io is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies. NOTE 2: The same bands apply for this requirement as for the corresponding highest accuracy requirement..

9.1.1.1.2 Relative accuracy requirement

The relative accuracy of CPICH RSCP is defined as the CPICH RSCP measured from one cell compared to the CPICH RSCP measured from another cell on the same frequency

The accuracy requirements in table 9.2 are valid under the following conditions:

CPICH_RSCP1,2|_dBm according to Annex B.3.2 for a corresponding Band.

Table 9.2: CPICH_RSCP Intra frequency relative accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
CPICH_RSCP	± 3	± 3	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum Io is -90.5 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.1.2 Inter frequency measurement accuracy

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.3. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.3.

9.1.1.2.1 Relative accuracy requirement

The relative accuracy of CPICH RSCP in inter frequency case is defined as the CPICH RSCP measured from one cell compared to the CPICH RSCP measured from another cell on a different frequency.

The accuracy requirements in table 9.3 are valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.3 for a corresponding Band

| Channel 1_Io|_{dBm/3,84 MHz} ‑Channel 2_Io|_{dBm/3,84 MHz} | ≤ 20 dB.

Table 9.3: CPICH_RSCP Inter frequency relative accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	CPICH_RSCP is on Band	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
CPICH_RSCP	± 6	± 6	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum Io is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.1.3 CPICH RSCP measurement report mapping

The reporting range is for CPICH RSCP is from -120 dBm …-25 dBm.

In table 9.4 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.4

Reported value	Measured quantity value	Unit
CPICH_RSCP_LEV _-05	CPICH RSCP <-120	dBm
CPICH_RSCP_LEV _-04	-120 ≤ CPICH RSCP < -119	dBm
CPICH_RSCP_LEV _-03	-119 ≤ CPICH RSCP < -118	dBm
…	…	…
CPICH_RSCP_LEV _89	-27 ≤ CPICH RSCP < -26	dBm
CPICH_RSCP_LEV _90	-26 ≤ CPICH RSCP < -25	dBm
CPICH_RSCP_LEV _91	-25 ≤ CPICH RSCP	dBm

9.1.2 CPICH Ec/Io

NOTE: This measurement is for Cell selection/re-selection and for handover evaluation.

9.1.2.1 Intra frequency measurements accuracy

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.2. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.2.

9.1.2.1.1 Absolute accuracy requirement

The accuracy requirements in table 9.5 are valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.4 for a corresponding Band

Table 9.5: CPICH_Ec/Io Intra frequency absolute accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
CPICH_Ec/Io	± 1.5 for ‑14 ≤ CPICH Ec/Io ± 2 for ‑16 ≤ CPICH Ec/Io < -14 ± 3 for ‑20 ≤ CPICH Ec/Io < -16	± 3	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum Io is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.2.1.2 Relative accuracy requirement

The relative accuracy of CPICH Ec/Io is defined as the maximum allowable error in the measured difference between the CPICH Ec/Io measured from one cell compared to the CPICH Ec/Io measured from another cell on the same frequency.

The relative accuracy is defined using the lower CPICH_Ec/Io of cell 1 and cell 2.

The accuracy requirements in table 9.6 are valid under the following conditions:

CPICH_RSCP1,2|_dBm according to Annex B.3.5 for a corresponding Band

Table 9.6: CPICH_Ec/Io Intra frequency relative accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
The lower of the CPICH_Ec/Io from cell1 and cell2	± 1.5 for ‑14 ≤ CPICH Ec/Io ± 2 for ‑16 ≤ CPICH Ec/Io < -14 ± 3 for ‑20 ≤ CPICH Ec/Io < -16	± 3	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum Io is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.2.2 Inter frequency measurement accuracy

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.3. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.3.

9.1.2.2.1 Absolute accuracy requirement

The accuracy requirements in table 9.7 are valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.6 for a corresponding Band

Table 9.7: CPICH_Ec/Io Inter frequency absolute accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
CPICH_Ec/Io	± 1.5 for ‑14 ≤ CPICH Ec/Io ± 2 for ‑16 ≤ CPICH Ec/Io < -14 ± 3 for ‑20 ≤ CPICH Ec/Io < -16	± 3	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum Io is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.2.2.2 Relative accuracy requirement

The relative accuracy of CPICH Ec/Io in the inter frequency case is defined as the maximum allowable error in the measured difference between the CPICH Ec/Io measured from one cell compared to the CPICH Ec/Io measured from another cell on a different frequency

The relative accuracy is defined using the lower CPICH_Ec/Io of cell 1 and cell 2.

The accuracy requirements in table 9.8 are valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.7 for a corresponding Band

| Channel 1_Io|_{dBm/3,84 MHz} ‑Channel 2_Io|_{dBm/3,84 MHz} | ≤ 20 dB.

Table 9.8: CPICH_Ec/Io Inter frequency relative accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	CPICH_Ec/Io is on Band	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
The lower of the CPICH_Ec/Io from cell1 and cell2	± 1.5 for ‑14 ≤ CPICH Ec/Io ± 2 for ‑16 ≤ CPICH Ec/Io < -14 ± 3 for ‑20 ≤ CPICH Ec/Io < -16	± 3	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.2.3 CPICH Ec/Io measurement report mapping

The reporting range is for CPICH Ec/Io is from -24 …0 dB.

In table 9.9 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.9

Reported value	Measured quantity value	Unit
CPICH_Ec/No _00	CPICH Ec/Io < ‑24	dB
CPICH_Ec/No _01	-24 ≤ CPICH Ec/Io < ‑23.5	dB
CPICH_Ec/No _02	-23.5 ≤ CPICH Ec/Io < ‑23	dB
…	…	…
CPICH_Ec/No _47	-1 ≤ CPICH Ec/Io < -0.5	dB
CPICH_Ec/No _48	-0.5 ≤ CPICH Ec/Io < 0	dB
CPICH_Ec/No _49	0 ≤ CPICH Ec/Io	dB

9.1.3 UTRA Carrier RSSI

NOTE: This measurement is for Inter-frequency handover evaluation.

The measurement period is equal to the measurement period for UE CPICH measurements, For CELL_DCH state the measurement period can be found in sub clause 8.1.2.2 for intra frequency measurements and in sub clause 8.1.2.3 for inter frequency measurements.

9.1.3.1 Absolute accuracy requirement

Table 9.10: UTRA Carrier RSSI Inter frequency absolute accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	Operating bands	Io [dBm/3,84MHz]
				Minimum Io	Maximum Io
UTRA Carrier RSSI	± 4	± 7	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-70
			II, V and VII	-92	-70
			XXV and XXVI	-90.5 (Note 1)	-70
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-70
			IX	-93	-70
	± 6	± 9	Note 2	-70	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies. NOTE 2: The same bands apply for this requirement as for the corresponding highest accuracy requirement..

9.1.3.2 Relative accuracy requirement

The relative accuracy requirement is defined as the UTRA carrier RSSI measured from one frequency compared to the UTRA carrier RSSI measured from another frequency.

The accuracy requirements in table 9.11 are valid under the following condition:

| Channel 1_Io|_dBm ‑Channel 2_Io|_dBm | < 20 dB.

Table 9.11: UTRA Carrier RSSI Inter frequency relative accuracy

Parameter	Accuracy [dB]		Conditions
	Normal condition	Extreme condition	UTRA Carrier RSSI is on Band	Io [dBm/3,84 [MHz]
				Minimum Io	Maximum Io
UTRA Carrier RSSI	± 7	± 11	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
			II, V and VII	-92	-50
			XXV and XXVI	-90.5 (Note 1)	-50
			III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
			IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.3.3 UTRA Carrier RSSI measurement report mapping

The reporting range for UTRA carrier RSSI is from -100 …-25 dBm.

In table 9.12 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.12

Reported value	Measured quantity value	Unit
UTRA_carrier_RSSI_LEV _00	UTRA carrier RSSI < ‑100	dBm
UTRA_carrier_RSSI_LEV _01	-100 ≤ UTRA carrier RSSI < ‑99	dBm
UTRA_carrier_RSSI_LEV _02	-99 ≤ UTRA carrier RSSI < ‑98	dBm
…	…	…
UTRA_carrier_RSSI_LEV _74	-27 ≤ UTRA carrier RSSI < -26	dBm
UTRA_carrier_RSSI_LEV _75	-26 ≤ UTRA carrier RSSI < -25	dBm
UTRA_carrier_RSSI_LEV _76	-25 ≤ UTRA carrier RSSI	dBm

9.1.4 GSM carrier RSSI

NOTE: This measurement is for handover between UTRAN and GSM.

The requirements in this section are valid for terminals supporting this capability.

The measurement period for CELL_DCH state can be found in section 8.1.2.5. The measurement period for CELL_FACH state can be found in section 8.4.2.5.

If the UE, in CELL_DCH state, does not need compressed mode to perform GSM measurements, the measurement accuracy requirements for RXLEV in TS 45.008 shall apply.

If the UE, in CELL_DCH state, needs compressed mode to perform GSM measurements, the GSM measurement procedure and measurement accuracy requirement is stated in section 8.1.2.5 shall apply.

If the UE, in CELL_FACH state, does not need measurement occasions to perform GSM measurements, the measurement accuracy requirements for RXLEV in TS 45.008 shall apply.

If the UE, in CELL_FACH state, needs measurement occasions to perform GSM measurements, the GSM measurement procedure and measurement accuracy requirement stated in section 8.4.2.5 shall apply.

The reporting range and mapping specified for RXLEV in TS 45.008 shall apply.

9.1.4a E-UTRAN RSRP

NOTE: This measurement is for handover between UTRAN and E-UTRAN.

The requirements in this section are valid for terminals supporting this capability.

The measurement period for E-UTRA RSRP in CELL_DCH state can be found in section 8.1.2.6.

If the UE, in CELL_DCH state, needs compressed mode to perform E-UTRAN measurements, the E-UTRAN measurement procedure and compressed mode gap pattern stated in section 8.1.2.6 shall apply.

In Cell DCH state, whether or not UE requires compressed mode to perform E-UTRAN measurements, the requirements for accuracy of E-UTRA RSRP measurements in CELL_DCH state shall be the same as the inter-frequency RSRP Accuracy Requirements in 3GPP TS 36.133 [24].

The reporting range and mapping specified for RSRP in 3GPP TS 36.133 [24] shall apply.

9.1.4b E-UTRAN RSRQ

NOTE: This measurement is for handover between UTRAN and E-UTRAN.

The requirements in this section are valid for terminals supporting this capability.

The measurement period for E-UTRA RSRQ in CELL_DCH state can be found in section 8.1.2.6.

If the UE, in CELL_DCH state, needs compressed mode to perform E-UTRAN measurements, the E-UTRAN measurement procedure is stated in section 8.1.2.6 shall apply.

In CELL DCH state, whether or not UE requires compressed mode to perform E-UTRAN measurements, the requirements for accuracy of E-UTRA RSRQ measurements in CELL_DCH state shall be the same as the inter-frequency RSRQ Accuracy Requirements in 3GPP TS 36.133 [24].

The reporting range and mapping specified for RSRQ in 3GPP TS 36.133 [24] shall apply.

9.1.4c E-UTRAN WB-RSRQ

NOTE: This measurement is for handover between UTRAN and E-UTRAN.

The requirements in this section are valid for terminals supporting this capability.

The requirements in this section shall apply when the measurement configuration message received by the UE contains the IE “Wideband RSRQ measurements” defined in TS 25.331 [2].

The measurement period for E-UTRA WB-RSRQ in CELL_DCH state is the same as defined for E-UTRA RSRQ in section 8.1.2.6.

If the UE, in CELL_DCH state, needs compressed mode to perform E-UTRAN measurements, the E-UTRAN measurement procedure is stated in section 8.1.2.6 shall apply.

In CELL DCH state, whether or not UE requires compressed mode to perform E-UTRAN measurements, the requirements for accuracy of E-UTRA WB-RSRQ measurements in CELL_DCH state shall be the same as the inter-frequency absolute WB-RSRQ Accuracy Requirements in 3GPP TS 36.133 [24].

The reporting range and mapping for E-UTRA WB-RSRQ shall be the same as defined for RSRQ in 3GPP TS 36.133 [24].

9.1.5 Transport channel BLER

9.1.5.1 BLER measurement requirement

Transport channel BLER value shall be calculated from a window with the size equal to the IE Reporting interval as specified in section 10.3.7.53 Periodical reporting criteria in TS 25.331.

9.1.5.2 Transport channel BLER measurement report mapping

The Transport channel BLER reporting range is from 0 to 1.

In table 9.13 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.13

Reported value	Measured quantity value	Unit
BLER_LOG _00	Transport channel BLER = 0	–
BLER_LOG _01	-∞ < Log10(Transport channel BLER) < ‑4.03	–
BLER_LOG _02	-4.03 ≤ Log10(Transport channel BLER) < ‑3.965	–
BLER_LOG _03	-3.965 ≤ Log10(Transport channel BLER) < ‑3.9	–
…	…	…
BLER_LOG _61	-0.195 ≤ Log10(Transport channel BLER) < -0.13	–
BLER_LOG _62	-0.13 ≤ Log10(Transport channel BLER) < -0.065	–
BLER_LOG _63	-0.065 ≤ Log10(Transport channel BLER) ≤ 0	–

9.1.6 UE transmitted power

9.1.6.1 Accuracy requirement

This requirement is applicable in CELL_DCH state. The measured quantity is the transmitted power averaged over the longest period (excluding a 25μs period either side of any expected composite power change) during which the nominal composite symbol power reaches the maximum during 1 DPCH slot interval. The UE measured quantity absolute accuracy is defined in Table 9.15.

Table 9.14: (void)

9.1.6.2 UE transmitted power measurement report mapping

The reporting range for UE transmitted power is from -50 …+33 dBm.

In table 9.15 the mapping of the measured quantity specified in Section 9.1.6.1 and the accuracy range are defined. The range in the signalling may be larger than the guaranteed accuracy range. For each empty slot created by compressed mode or discontinuous uplink DPCCH transmission, no value shall be reported by the UE L1 for these slots.

Table 9.15

Reported value	Measured quantity value (dBm)	Accuracy (dB) note 1
UE_TX_POWER _104	33<= to <34	note 2
UE_TX_POWER _103	32<= to <33	note 2
UE_TX_POWER _102	31<= to <32	note 2
…	…
UE_TX_POWER _096	25<= to <26	note 2
UE_TX_POWER _095	24<= to <25	2.0	-2.0
UE_TX_POWER _094	23<= to <24	2.0	-2.0
UE_TX_POWER _093	22<= to <23	2.0	-2.0
UE_TX_POWER _092	21<= to <22	2.0	-2.0
UE_TX_POWER _091	20<= to < 21	2.5	-2.5
UE_TX_POWER _090	19<= to <20	3.0	-3.0
UE_TX_POWER _089	18<= to <19	3.5	-3.5
UE_TX_POWER _088	17<= to <18	4.0	-4.0
UE_TX_POWER _087	16<= to <17	4.0	-4.0
UE_TX_POWER _086	15<= to <16	4.0	-4.0
UE_TX_POWER _085	14<= to <15	4.0	-4.0
UE_TX_POWER _084	13<= to <14	4.0*	-4.0 (note 3)
UE_TX_POWER _083	12<= to <13	4.0*	-4.0 (note 3)
UE_TX_POWER _082	11<= to <12	4.0*	-4.0 (note 3)
UE_TX_POWER _081	10<= to <11	note 2
…	…
UE_TX_POWER _023	-48<= to <-47	note 2
UE_TX_POWER _022	-49<= to <-48	note 2
UE_TX_POWER _021	-50<= to <-49	note 2
NOTE 1: The tolerance is specified for the maximum and minimum measured quantity value (dBm), i.e. MIN(Measured quantity value) + MIN(Accuracy) <= UE transmitted Power < Max (Measured quantity value) + MAX(Accuracy) NOTE 2: No tolerance is specified. NOTE 3: Applicable to power class 4

9.1.7 SFN-CFN observed time difference

NOTE: This measurement is for handover timing purposes to identify active cell and neighbour cell time difference.

9.1.7.1 Intra frequency measurement requirement

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.2.

The accuracy requirement in table 9.16 is valid under the following conditions:

CPICH_RSCP1,2|_dBm according to Annex B.3.8 for a corresponding Band

is low enough to ensure successful SFN decoding.

Table 9.16

Parameter	Accuracy [chip]	Conditions
		Operating bands	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-CFN observed time difference	± 1	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.7.2 Inter frequency measurement requirement

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.3.

The accuracy requirement in table 9.17 is valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.9 for a corresponding Band.

,

| Channel 1_Io|_{dBm/3,84 MHz} ‑Channel 2_Io|_{dBm/3,84 MHz} | ≤ 20 dB,

.

Table 9.17

Parameter	Accuracy [chip]	Conditions
		SFN-CFN observed time difference is on Band	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-CFN observed time difference	± 1	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.7.3 SFN-CFN observed time difference measurement report mapping

The reporting range is for CFN-SFN observed time difference is from 0 … 9830400 chip.

In table 9.18 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.18

Reported value	Measured quantity value	Unit
SFN-CFN_TIME _0000000	0 ≤ SFN-CFN observed time difference < 1	chip
SFN-CFN_TIME _0000001	1 ≤ SFN-CFN observed time difference < 2	chip
SFN-CFN_TIME _0000002	2 ≤ SFN-CFN observed time difference < 3	chip
…	…	…
SFN-CFN_TIME _9830397	9830397 ≤ SFN-CFN observed time difference < 9830398	chip
SFN-CFN_TIME _9830398	9830398 ≤ SFN-CFN observed time difference < 980399	chip
SFN-CFN_TIME _9830399	9830399 ≤ SFN-CFN observed time difference < 9830400	chip

9.1.8 SFN-SFN observed time difference

9.1.8.1 SFN-SFN observed time difference type 1

NOTE: This measurement is for identifying time difference between two cells.

9.1.8.1.1 Measurement requirement

The measurement period for CELL_FACH state can be found in sub clause 8.4.2.2.

The accuracy requirement in table 9.19 is valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.10 for a corresponding Band

,

,

is low enough to ensure successful SFN decoding.

Table 9.19

Parameter	Accuracy [chip]	Conditions
		SFN-SFN observed time difference type 1 is on Band	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-SFN observed time difference type1	± 1	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.8.1.2 SFN-SFN observed time difference type 1 measurement report mapping

The reporting range is for SFN-SFN observed time difference type 1 is from 0 … 9830400 chip.

In table 9.20 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.20

Reported value	Measured quantity value	Unit
T1_SFN-SFN_TIME _0000000	0 ≤ SFN-SFN observed time difference type 1 < 1	chip
T1_SFN-SFN_TIME _0000001	1 ≤ SFN-SFN observed time difference type 1 < 2	chip
T1_SFN-SFN_TIME _0000002	2 ≤ SFN-SFN observed time difference type 1 < 3	chip
…	…	…
T1_SFN-SFN_TIME _9830397	9830397 ≤ SFN-SFN observed time difference type 1 < 9830398	chip
T1_SFN-SFN_TIME _9830398	9830398 ≤ SFN-SFN observed time difference type 1 < 980399	chip
T1_SFN-SFN_TIME _9830399	9830399 ≤ SFN-SFN observed time difference type 1 < 9830400	chip

9.1.8.2 SFN-SFN observed time difference type 2

NOTE: This measurement is for location service purposes to identify time difference between two cells.

It is optional for terminal to support the use of IPDL periods together with SFN-SFN observed time difference type 2. The support of IPDL depends on the supported UE positioning methods.

NOTE: Requirement on the UE shall be reconsidered when the state of the art technology progress.

9.1.8.2.1 Intra frequency measurement requirement accuracy without IPDL period active

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.2. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.2.

The accuracy requirement in table 9.21 is valid under the following conditions:

CPICH_RSCP1,2|_dBm according to Annex B.3.11 for a corresponding Band

Table 9.21

Parameter	Accuracy [chip]	Conditions
		Operating bands	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-SFN observed time difference type 2	± 0.5	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.8.2.2 Intra frequency measurement requirement accuracy with IPDL period active

This requirement is valid only for UEs supporting IPDL measurements.

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.2. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.2.

The accuracy requirement in table 9.22 is valid under the following conditions:

CPICH_RSCP1,2|_dBm according to Annex B.3.11 for a corresponding Band

Additionally the accuracy requirement in table 9.22 is also valid for neighbour cells for which the following conditions apply to during idle periods provided idle periods have a length of 1 slot:

CPICH_RSCPx,y|_dBm ≥ -114 dBm.

,

where x and y represent cells measured using idle periods and I_{o_idle-period} is the total received power during the idle period.

NOTE: Additional general conditions are needed for the requirements in table 9.22 to be valid.

Table 9.22

Parameter	Accuracy [chip]	Conditions
		Operating bands	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-SFN observed time difference type 2	± 0.5	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.8.2.3 Inter frequency measurement requirement accuracy

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.3. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.3.

The accuracy requirement in table 9.23 is valid under the following conditions:

CPICH_RSCP1|_dBm according to Annex B.3.12 for a corresponding Band

| Channel 1_Io|_dBm ‑Channel 2_Io|_dBm | ≤ 20 dB,

.

Table 9.23

Parameter	Accuracy [chip]	Conditions
		SFN-SFN observed time difference type 2 is on Band	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
SFN-SFN observed time difference type 2	± 1	I, IV, VI, X, XI, XIX, XXI and XXXII	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.8.2.4 SFN-SFN observed time difference type 2 measurement report mapping

The reporting range is for SFN-SFN observed time difference type 2 is from ‑1280 … +1280 chip.

In table 9.24 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.24

Reported value	Measured quantity value	Unit
T2_SFN-SFN_TIME _00000	SFN-SFN observed time difference type 2 < -1280.0000	chip
T2_SFN-SFN_TIME _00001	-1280.0000 ≤ SFN-SFN observed time difference type 2 < -1279.9375	chip
T2_SFN-SFN_TIME _00002	-1279.9375 ≤ SFN-SFN observed time difference type 2 < -1279.8750	chip
…	…	…
T2_SFN-SFN_TIME _40959	1279.8750 ≤ SFN-SFN observed time difference type 2 < 1279.9375	chip
T2_SFN-SFN_TIME _40960	1279.9375 ≤ SFN-SFN observed time difference type 2 < 1280.0000	chip
T2_SFN-SFN_TIME _40961	1280.0000 ≤ SFN-SFN observed time difference type 2	chip

9.1.9 UE Rx-Tx time difference

9.1.9.1 UE Rx-Tx time difference type 1

NOTE: This measurement is used for call set up purposes to compensate propagation delay of DL and UL.

The measurement period in CELL_DCH state is 100 ms.

9.1.9.1.1 Measurement requirement

Table 9.25

Parameter	Accuracy [chip]	Conditions
		Operating bands	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
UE RX-TX time difference	± 1.5	I, IV, VI, X, XI, XIX and XXI	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.9.1.2 UE Rx-Tx time difference type 1 measurement report mapping

The reporting range is for UE Rx-Tx time difference type 1 is from 768 … 1280 chip.

In table 9.26 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.26

Reported value	Measured quantity value	Unit
RX-TX_TIME _768	UE Rx-Tx Time difference type 1< 768	chip
RX-TX_TIME _769	768 ≤ UE Rx-Tx Time difference type 1< 769	chip
RX-TX_TIME _770	769 ≤ UE Rx-Tx Time difference type 1< 770	chip
RX-TX_TIME _771	770 ≤ UE Rx-Tx Time difference type 1< 771	chip
…	…	…
RX-TX_TIME _1277	1276 ≤ UE Rx-Tx Time difference type 1< 1277	chip
RX-TX_TIME _1278	1277 ≤ UE Rx-Tx Time difference type 1< 1278	chip
RX-TX_TIME _1279	1278 ≤ UE Rx-Tx Time difference type 1< 1279	chip
RX-TX_TIME _1280	1279 ≤ UE Rx-Tx Time difference type 1	chip

9.1.9.2 UE Rx-Tx time difference type 2

NOTE: This measurement is used for UE positioning purposes.

It is optional for a terminal to support a subset of UE positioning methods. This measurement represents an instantaneous value that is time stamped as defined in the IE description in TS 25.331 [16].

9.1.9.2.1 Measurement requirement

Table 9.27

Parameter	Accuracy [chip]	Conditions
		Operating bands	Io [dBm/3,84 [MHz]
			Minimum Io	Maximum Io
UE RX-TX time difference	± 1.0	I, IV, VI, X, XI, XIX and XXI	-94	-50
		II, V and VII	-92	-50
		XXV and XXVI	-90.5 (Note 1)	-50
		III, VIII, XII, XIII, XIV, XX and XXII	-91	-50
		IX	-93	-50
NOTE 1: The minimum condition is -92 dBm/3.84 MHz when the carrier frequency of the assigned UTRA channel is within 869-894 MHz for the UE which supports both Band V and Band XXVI operating frequencies.

9.1.9.2.2 UE Rx-Tx time difference type 2 measurement report mapping

The reporting range is for UE Rx-Tx time difference type2 is from 768 … 1280 chip.

In table 9.28 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.28

Reported value	Measured quantity value	Unit
RX-TX_TIME _0000	UE Rx-Tx Time difference type 2 < 768.000	chip
RX-TX_TIME _0001	768.000 ≤ UE Rx-Tx Time difference type 2 < 768.0625	chip
RX-TX_TIME _0002	768.0625 ≤ UE Rx-Tx Time difference type 2 < 768.1250	chip
RX-TX_TIME _0003	768.1250 ≤ UE Rx-Tx Time difference type 2 < 768.1875	chip
…	…	…
RX-TX_TIME _8189	1279.7500 ≤ UE Rx-Tx Time difference type 2 < 1279.8125	chip
RX-TX_TIME _8190	1279.8125 ≤ UE Rx-Tx Time difference type 2 < 1279.8750	chip
RX-TX_TIME _8191	1279.8750 ≤ UE Rx-Tx Time difference type 2	chip

9.1.10 (void)

Table 9.29 (void)

Table 9.30 (void)

9.1.11 P-CCPCH RSCP

NOTE: This measurement is used for handover between UTRA FDD and UTRA TDD.

The requirements in this section are valid for terminals supporting this capability.

The measurement period for CELL_DCH state can be found in sub clause 8.1.2.4. The measurement period for CELL_FACH state can be found in sub clause 8.4.2.4.

9.1.11.1 Absolute accuracy requirements

9.1.11.1.1 3,84 Mcps TDD Option

The accuracy requirement in table 9.31is valid under the following conditions:

P-CCPCH_RSCP ≥ -102 dBm.

Table 9.31: P-CCPCH_RSCP Inter frequency absolute accuracy

Parameter	Unit	Accuracy [dB]		Conditions
		Normal conditions	Extreme conditions	Io [dBm/3,84 MHz]
P-CCPCH_RSCP	dBm	± 6	± 9	-94…-70
	dBm	± 8	± 11	-70…-50

9.1.11.1.2 1.28 Mcps TDD Option

The accuracy requirement in table 9.31A is valid under the following conditions:

P-CCPCH RSCP ≥ -102 dBm

P-CCPCH Ec/Io > -8 dB

Table 9.31A: P-CCPCH_RSCP Inter frequency absolute accuracy

Parameter	Unit	Accuracy [dB]		Conditions
		Normal conditions	Extreme conditions	Io [dBm/1.28 MHz]
P-CCPCH_RSCP	dBm	± 6	± 9	-94…-70
	dBm	± 8	± 11	-70…-50

9.1.11.2 P-CCPCH RSCP measurement report mapping

The reporting range is for P-CCPCH RSCP is from -115 … -25 dBm.

In table 9.32 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.32

Reported value	Measured quantity value	Unit
PCCPCH_RSCP_LEV _00	PCCPCH RSCP< -115	dBm
PCCPCH_RSCP_LEV _01	-115 ≤ PCCPCH RSCP< -114	dBm
PCCPCH_RSCP_LEV _02	-114 ≤ PCCPCH RSCP< -113	dBm
PCCPCH_RSCP_LEV _03	-113 ≤ PCCPCH RSCP< -112	dBm
…	…	…
PCCPCH_RSCP_LEV _89	-27 ≤ PCCPCH RSCP< -26	dBm
PCCPCH_RSCP_LEV _90	-26 ≤ PCCPCH RSCP< -25	dBm
PCCPCH_RSCP_LEV _91	-25 ≤ PCCPCH RSCP	dBm

9.1.12 UE GPS Timing of Cell Frames for UE positioning

The requirements in this section are valid for terminals supporting this capability:

Table 9.33

Parameter	Unit	Accuracy [chip]	Conditions
UE GPS Timing of Cell Frames for UE positioning	chip	[ ]

9.1.12.1 UE GPS timing of Cell Frames for UE positioning measurement report mapping

The reporting range is for UE GPS timing of Cell Frames for UE positioning is from 0 … 2322432000000 chip.

In table 9.34 the mapping of measured quantity is defined.

Table 9.34

Reported value	Measured quantity value	Unit
GPS_TIME_00000000000000	UE GPS timing of Cell Frames for UE positioning < 0.0625	chip
GPS_TIME_00000000000001	0.0625 ≤ UE GPS timing of Cell Frames for UE positioning < 0.1250	chip
GPS_TIME_00000000000002	0.1250 ≤ UE GPS timing of Cell Frames for UE positioning < 0.1875	chip
…	…	…
GPS_TIME_3715891199997	2322431999999.8125 ≤ UE GPS timing of Cell Frames for UE positioning < 2322431999999.8750	chip
GPS_TIME_37158911999998	2322431999999.8750 ≤ UE GPS timing of Cell Frames for UE positioning < 2322431999999.9375	chip
GPS_TIME_37158911999999	2322431999999.9375 ≤ UE GPS timing of Cell Frames for UE positioning < 2322432000000.0000	chip

9.1.13 UE transmission power headroom

9.1.13.1 Delay requirement

The UE transmission power headroom measurement reporting delay is defined as the time between the end of the UE transmission power headroom measurement period and the time when the UE starts transmitting the measurement report over the Uu interface. The reporting delay of the UE transmission power headroom measurement result shall be not more than 10 ms, which is applicable for all configured triggering mechanisms for UE transmission power headroom measurement.

9.1.13.2 Measurement period requirement

The reported UE transmission power headroom measurement result shall be an estimate of the average value of the UE transmission power headroom over a 100 ms period. The UE transmission power headroom measurement shall exclude the empty slots created by the compressed mode or discontinuous uplink DPCCH transmission.

If the UE is in CELL_FACH state, the UE can be configured to send DPCCH for a configurable number of radio frames prior to the start of the E-DCH transmissions. The UE in CELL_FACH state reports the headroom available based on the average of the DPCCH power including the period DPCCH is transmitted prior to the start of the E-DCH transmissions. The averaging period for the UE transmission power headroom measurement in CELL_FACH state, after the commencement of the data transmission, is 10ms.

For the first measurement, if less than 20 ms of DPCCH is configured prior to the start of the E-DCH transmissions, the UE in CELL_FACH state reports the headroom available based on the last successfully transmitted PRACH preamble power. In this case, the UPH can be computed from P_preamble using the P_p-e:

UPH = P_max,tx – P_preamble – P_p-e

where P_max,tx is the UE maximum transmission power, P_preamble is the transmitted code power on PRACH preamble, and P_p-e is the power offset between the power of the last transmitted preamble and the initial DPCCH transmission power, all in dB.

9.1.13.3 UE transmission power headroom measurement report mapping

The UE transmission power headroom reporting range is from 0 …+31 dB. Table 9.34A defines the mapping

Table 9.34A

Reported value	Measured quantity value (dB)
UE_POWER_HEADROOM_0	0 ≤ UPH < 1
UE_POWER_HEADROOM_1	1 ≤ UPH < 2
UE_POWER_HEADROOM_2	2 ≤ UPH < 3
UE_POWER_HEADROOM_3	3 ≤ UPH < 4
UE_POWER_HEADROOM_4	4 ≤ UPH < 5
UE_POWER_HEADROOM_5	5 ≤ UPH < 6
UE_POWER_HEADROOM_6	6 ≤ UPH < 7
UE_POWER_HEADROOM_7	7 ≤ UPH < 8
UE_POWER_HEADROOM_8	8 ≤ UPH < 9
UE_POWER_HEADROOM_9	9 ≤ UPH < 10
UE_POWER_HEADROOM_10	10 ≤ UPH < 11
UE_POWER_HEADROOM_11	11 ≤ UPH < 12
UE_POWER_HEADROOM_12	12 ≤ UPH < 13
UE_POWER_HEADROOM_13	13 ≤ UPH < 14
UE_POWER_HEADROOM_14	14 ≤ UPH < 15
UE_POWER_HEADROOM_15	15 ≤ UPH < 16
UE_POWER_HEADROOM_16	16 ≤ UPH < 17
UE_POWER_HEADROOM_17	17 ≤ UPH < 18
UE_POWER_HEADROOM_18	18 ≤ UPH < 19
UE_POWER_HEADROOM_19	19 ≤ UPH < 20
UE_POWER_HEADROOM_20	20 ≤ UPH < 21
UE_POWER_HEADROOM_21	21 ≤ UPH < 22
UE_POWER_HEADROOM_22	22 ≤ UPH < 23
UE_POWER_HEADROOM_23	23 ≤ UPH < 24
UE_POWER_HEADROOM_24	24 ≤ UPH < 25
UE_POWER_HEADROOM_25	25 ≤ UPH < 26
UE_POWER_HEADROOM_26	26 ≤ UPH < 27
UE_POWER_HEADROOM_27	27 ≤ UPH < 28
UE_POWER_HEADROOM_28	28 ≤ UPH < 29
UE_POWER_HEADROOM_29	29 ≤ UPH < 30
UE_POWER_HEADROOM_30	30 ≤ UPH < 31
UE_POWER_HEADROOM_31	UPH ≥ 31

9.1.13.4 UE transmission power headroom measurement report accuracy

The accuracy requirements for UE transmission power headroom depends on the total power transmitted by the UE. Table 9.34B defines the accuracy of the measured quantity.

Table 9.34B

Total UE output power value (dBm)	UPH reporting accuracy(dB) (note 1)
25<= total output power <34	note 2
24<= total output power <25	±2.0
23<= total output power <24	±2.0
22<= total output power <23	±2.0
21<= total output power <22	±2.0
20<= total output power < 21	±2.5
19<= total output power <20	±3.0
18<= total output power <19	±3.5
17<= total output power <18	±4.0
16<= total output power <17	±4.0
15<= total output power <16	±4.0
14<= total output power <15	±4.0
13<= total output power <14	±4.0 (power class 4) ±6.0 (power class 3)
12<= total output power <13	±4.0 (power class 4) ±6.0 (power class 3)
11<= total output power <12	±4.0 (power class 4) ±6.0 (power class 3)
-50<= total output power <11	±6.0
Note 1 : UPH reporting accuracy is the difference between the UPH reported by the UE and the actual uplink power headroom Note 2 : No tolerance is specified.

9.1.14 IEEE 802.11 Measurements

9.1.14.1 Introduction

The requirements in this clause are applicable for a UE:

– in CELL_DCH and CELL_FACH states,

– synchronised to the IEEE 802.11 access point that is measured.

9.1.14.2 IEEE 802.11 Beacon RSSI

9.1.14.2.1 Accuracy requirement

NOTE: This measurement is for access network selection and traffic steering between UTRAN and IEEE 802.11 [1].

The requirements in this clause are valid for the UE supporting this capability.

Beacon RSSI is defined in sub-clause 5.1.20 of [13]. The UE shall meet Beacon RSSI accuracy requirement defined in [30].

9.2 Measurements Performance for UTRAN

The reported measurement result after layer 1 filtering shall be an estimate of the average value of the measured quantity over the measurement period. The reference point for the measurement result after layer 1 filtering is referred to as point B in the measurement model described in TS 25.302.

The accuracy requirements in this clause are valid for the reported measurement result after layer 1 filtering. The accuracy requirements are verified from the measurement report at point D in the measurement model having the layer 3 filtering disabled.

Test like descriptions of these measurements are located in the TS 25.141 as an informative Annex H. The Annex H specifies test specific parameters for some of the UTRAN requirements in this chapter. The tests provide additional information to how the requirements should be tested. Some requirements may lack a test.

9.2.1 Received total wideband power

The measurement period shall be 100 ms.

9.2.1.1 Absolute accuracy requirement

Table 9.35

Parameter	Unit	Accuracy [dB]	Conditions	BS class
			Iob [dBm/3,84 MHz]
Iob	dBm/3,84 MHz	± 4	-103.. -74	Wide area BS
Iob	dBm/3,84 MHz	± 4	-93.. -64	Medium Range BS
Iob	dBm/3,84 MHz	± 4	-89.. -60	Local area BS

9.2.1.2 Relative accuracy requirement

The relative accuracy is defined as the Received total wideband power measured at one frequency compared to the Received total wideband power measured from the same frequency at a different time.

Table 9.36

Parameter	Unit	Accuracy [dB]	Conditions	BS class
			Iob [dBm/3,84 MHz]
Iob	dBm/3,84 MHz	± 0.5	-103.. -74 AND for changes ≤ ±9.0 dB	Wide area BS
Iob	dBm/3,84 MHz	± 0.5	-93.. -64 AND for changes ≤ ±9.0 dB	Medium Range BS
Iob	dBm/3,84 MHz	± 0.5	-89.. ‑60 AND for changes <= ±12.0 dB	Local area BS

9.2.1.3 Received total wideband power measurement report mapping

The reporting range for Received total wideband power (RTWP) is from -112 … -50 dBm.

In table 9.37 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.37

Reported value	Measured quantity value	Unit
RTWP_LEV _000	RTWP < ‑112.0	dBm
RTWP_LEV _001	-112.0 ≤ RTWP < ‑111.9	dBm
RTWP_LEV _002	-111.9 ≤ RTWP < ‑111.8	dBm
…	…	…
RTWP_LEV _619	-50.2 ≤ RTWP < -50.1	dBm
RTWP_LEV _620	-50.1 ≤ RTWP < -50.0	dBm
RTWP_LEV _621	-50.0 ≤ RTWP	dBm

9.2.2 SIR

The measurement period shall be 80 ms.

9.2.2.1 Accuracy requirement

Table 9.38

Parameter	Unit	Accuracy [dB]	Conditions
			Range
SIR	dB	± 3	For -7<SIR<20 dB when Iob > -105 dBm/3,84 MHz

9.2.2.2 SIR measurement report mapping

The reporting range for SIR is from -11 … 20 dB.

In table 9.39 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.39

Reported value	Measured quantity value	Unit
UTRAN_SIR_00	SIR < ‑11.0	dB
UTRAN_SIR_01	-11.0 ≤ SIR < ‑10.5	dB
UTRAN_SIR_02	-10.5 ≤ SIR < ‑10.0	dB
…	…	…
UTRAN_SIR_61	19.0 ≤ SIR < 19.5	dB
UTRAN_SIR_62	19.5 ≤ SIR < 20.0	dB
UTRAN_SIR_63	20.0 ≤ SIR	dB

9.2.3 SIR_error

The measurement period shall be 80 ms.

NOTE: The measurement period is the same as for the SIR measurement in section 9.2.2. SIR_error is calculated from SIR and SIR_target, see TS 25.215.

9.2.3.1 Accuracy requirement

Table 9.40

Parameter	Accuracy	Range
SIRerror	± 3 dB	The accuracy requirement for SIRerror is valid for SIR within the guaranteed accuarcy range specified in section 9.2.2.

NOTE: The accuracy requirement for SIR_error is the same as for the SIR measurement specified in section 9.2.2. SIR_error is calculated from SIR and SIR_target, see TS 25.215.

9.2.3.2 SIR_error measurement report mapping

The reporting range for SIR_error is from -31 … 31 dB.

In table 9.41 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.41

Reported value	Measured quantity value	Unit
UTRAN_SIR_ERROR_000	SIRerror < ‑31.0	dB
UTRAN_SIR_ERROR_001	-31.0 ≤ SIRerror < ‑30.5	dB
UTRAN_SIR_ERROR_002	-30.5 ≤ SIRerror < ‑30.0	dB
…	…	…
UTRAN_SIR_ERROR_062	-0.5 ≤ SIRerror < 0.0	dB
UTRAN_SIR_ERROR_063	0.0 ≤ SIRerror < 0.5	dB
…	…	…
UTRAN_SIR_ERROR_123	30.0 ≤ SIRerror < 30.5	dB
UTRAN_SIR_ERROR_124	30.5 ≤ SIRerror < 31.0	dB
UTRAN_SIR_ERROR_125	31.0 ≤ SIRerror	dB

9.2.4 Transmitted carrier power

The measurement period shall be 100 ms.

9.2.4.1 Accuracy requirement

Table 9.42

Parameter	Unit	Accuracy [% units]	Conditions
			Range
Ptot	%	± 5	For 5% ≤ Transmitted carrier power ≤95%

9.2.4.2 Transmitted carrier power measurement report mapping

The reporting range for Transmitted carrier power is from 0 … 100 %.

In table 9.43 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.43

Reported value	Measured quantity value	Unit
UTRAN_TX_POWER _000	Transmitted carrier power = 0	%
UTRAN_TX_POWER _001	0 < Transmitted carrier power ≤ 1	%
UTRAN_TX_POWER _002	1 < Transmitted carrier power ≤ 2	%
UTRAN_TX_POWER _003	2 < Transmitted carrier power ≤ 3	%
…	…	…
UTRAN_TX_POWER _098	97 < Transmitted carrier power ≤ 98	%
UTRAN_TX_POWER _099	98 < Transmitted carrier power ≤ 99	%
UTRAN_TX_POWER _100	99 < Transmitted carrier power ≤ 100	%

9.2.5 Transmitted code power

The measurement period shall be 100 ms.

9.2.5.1 Absolute accuracy requirement

Table 9.44

Parameter	Unit	Accuracy [dB]	Conditions
			Range
Pcode	dBm	± 3	Over the full range

9.2.5.2 Relative accuracy requirement

The relative accuracy of Transmitted code power is defined as the Transmitted code power measured at one dedicated radio link compared to the Transmitted code power measured from a different dedicated radio link in the same cell.

Table 9.45

Parameter	Unit	Accuracy [dB]	Conditions
			Range
Pcode	dBm	± 2	Over the full range

9.2.5.3 Transmitted code power measurement report mapping

The reporting range for Transmitted code power is from -10 … 46 dBm.

In table 9.46 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.46

Reported value	Measured quantity value	Unit
UTRAN_CODE_POWER _010	-10.0 ≤ Transmitted code power < -9.5	dBm
UTRAN_CODE_POWER _011	-9.5 ≤ Transmitted code power < -9.0	dBm
UTRAN_CODE_POWER _012	-9.0 ≤ Transmitted code power < -8.5	dBm
…	…	…
UTRAN_CODE_POWER _120	45.0 ≤ Transmitted code power < 45.5	dBm
UTRAN_CODE_POWER _121	45.5 ≤ Transmitted code power < 46.0	dBm
UTRAN_CODE_POWER _122	46.0 ≤ Transmitted code power < 46.5	dBm

9.2.6 (void)

9.2.7 Physical channel BER

The measurement period shall be equal to the TTI of the transport channel, to which the Physical channel BER is associated via the IE QE-Selector, see TS 25.433. Each reported Physical channel BER measurement shall be an estimate of the BER averaged over one measurement period only.

9.2.7.1 Accuracy requirement

The average of consecutive Physical channel BER measurements is required to fulfil the accuracy stated in table 9.47 if the total number of erroneous bits during these measurements is at least 500 and the absolute BER value for each of the measurements is within the range given in table 9.47.

Table 9.47

Parameter	Unit	Accuracy [% of absolute BER value]	Conditions
			Range
PhyBER	–	+/- 10	for absolute BER value ≤ 30%

9.2.7.2 Physical channel BER measurement report mapping

The Physical channel BER reporting range is from 0 to 1.

In table 9.48 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.48

Reported value	Measured quantity value	Unit
PhCh_BER_LOG_000	Physical channel BER = 0	–
PhCh_BER_LOG_001	-∞ < Log10(Physical channel BER) < -2.06375	–
PhCh_BER_LOG_002	-2.06375≤ Log10(Physical channel BER) < -2.055625	–
PhCh_BER_LOG_003	-2.055625 ≤ Log10(Physical channel BER) < -2.0475	–
…	…	…
PhCh_BER_LOG_253	-0.024375 ≤ Log10(Physical channel BER) < -0.01625	–
PhCh_BER_LOG_254	-0.01625 ≤ Log10(Physical channel BER) < -0.008125	–
PhCh_BER_LOG_255	-0.008125 ≤ Log10(Physical channel BER) ≤ 0	–

9.2.8 Round trip time

The measurement period shall be 100 ms. The support of extended round trip time is optional.

9.2.8.1 Absolute accuracy requirement

9.2.8.1.1 Minimum requirement

Table 9.49

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
RTT	chip	+/- 0.5	876, …, 2923.50

9.2.8.1.2 Requirement for extended round trip time

Table 9.49X

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
RTT	chip	+/- 0.5	2923.75, …, 5783.2500

9.2.8.2 Round trip time measurement report mapping

9.2.8.2.1 Minimum requirement

The Round trip time reporting range is from 876.0000 … 2923.8750 chip.

In table 9.50 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.50

Reported value	Measured quantity value	Unit
RT_TIME_0000	Round trip time < 876.0000	chip
RT_TIME_0001	876.0000 ≤ Round trip time < 876.0625	chip
RT_TIME_0002	876.0625 ≤ Round trip time < 876.1250	chip
RT_TIME_0003	876.1250 ≤ Round trip time < 876.1875	chip
…	…	…
RT_TIME_32764	2922.6875 ≤ Round trip time < 2923.7500	chip
RT_TIME_32765	2923.7500 ≤ Round trip time < 2923.8125	chip
RT_TIME_32766	2923.8125 ≤ Round trip time < 2923.8750	chip
RT_TIME_32767	2923.8750 ≤ Round trip time	chip

9.2.8.2.2 Requirement for extended round trip time

The extended Round trip time reporting range is from 2923.8750 … 7316 chip.

In table 9.50X the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.50X

Reported value	Measured quantity value	Unit
RT_TIME_32767	2923.8750 ≤ Round trip time < 2923.9375	chip
RT_TIME_32768	2923.9375 ≤ Round trip time < 2924.0000	chip
RT_TIME_32769	2924.0000 ≤ Round trip time < 2924.0625	chip
RT_TIME_32770	2924.0625 ≤ Round trip time < 2924.1250	chip
RT_TIME_32771	2924.1250 ≤ Round trip time < 2924.1875	chip
…	…	…
RT_TIME_103038	7315.8125 ≤ Round trip time < 7315.8750	chip
RT_TIME_103039	7315.8750 ≤ Round trip time < 7315.9375	chip
RT_TIME_103040	7315.9375 ≤ Round trip time < 7316.0000	chip
RT_TIME_103041	7316.0000 ≤ Round trip time	chip

9.2.9 Transport Channel BER

The measurement period shall be equal to the TTI of the transport channel. Each reported Transport channel BER measurement shall be an estimate of the BER averaged over one measurement period only.

9.2.9.1 Accuracy requirement

The average of consecutive Transport channel BER measurements is required to fulfil the accuracy stated in table 9.51 if the total number of erroneous bits during these measurements is at least 500 and the absolute BER value for each of the measurements is within the range given in table 9.51.

Table 9.51

Parameter	Unit	Accuracy [% of the absolute BER value]	Conditions
			Range
TrpBER	–	+/- 10	Convolutional coding 1/3rd with any amount of repetition or a maximum of 25% puncturing: for absolute BER value ≤ 15% Convolutional coding 1/2 with any amount of repetition or no puncturing: for absolute BER value ≤ 15% Turbo coding 1/3rd with any amount of repetition or a maximum of 20% puncturing: for absolute BER value ≤ 15%.

9.2.9.2 Transport channel BER measurement report mapping

The Transport channel BER reporting range is from 0 to 1.

In table 9.52 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.52

Reported value	Measured quantity value	Unit
TrCh_BER_LOG_000	Transport channel BER = 0	–
TrCh_BER_LOG_001	-∞ < Log10(Transport channel BER) < -2.06375	–
TrCh_BER_LOG_002	-2.06375≤ Log10(Transport channel BER) < -2.055625	–
TrCh_BER_LOG_003	-2.055625 ≤ Log10(Transport channel BER) < -2.0475	–
…	…	…
TrCh_BER_LOG_253	-0.024375 ≤ Log10(Transport channel BER) < -0.01625	–
TrCh_BER_LOG_254	-0.01625 ≤ Log10(Transport channel BER) < -0.008125	–
TrCh_BER_LOG_255	-0.008125 ≤ Log10(Transport channel BER) ≤ 0	–

9.2.10 UTRAN GPS Timing of Cell Frames for UE positioning

NOTE: This measurement is used for UE positioning purposes.

The measurement period shall be [1] second.

9.2.10.1 Accuracy requirement

Three accuracy classes are defined for the UTRAN GPS Timing of Cell Frames for UE positioning measurement, i.e. accuracy class A, B and C. The implemented accuracy class depends on the UE positioning methods that are supported.

Table 9.53

Parameter	Unit	Accuracy [chip]	Conditions
UTRAN GPS Timing of Cell Frames for UE positioning	chip	Accuracy Class A: +/- [20000] chip Accuracy Class B: +/- [20] chip Accuracy Class C: +/- [X] chip	Over the full range

9.2.10.2 UTRAN GPS timing of Cell Frames for UE positioning measurement report mapping

The reporting range is for UTRAN GPS timing of Cell Frames for UE positioning is from 0 … 2322432000000 chip.

In table 9.54 the mapping of measured quantity is defined.

Table 9.54

Reported value	Measured quantity value	Unit
GPS_TIME_00000000000000	UTRAN GPS timing of Cell Frames for UE positioning < 0.0625	chip
GPS_TIME_00000000000001	0.0625 ≤ UTRAN GPS timing of Cell Frames for UE positioning < 0.1250	chip
GPS_TIME_00000000000002	0.1250 ≤ UTRAN GPS timing of Cell Frames for UE positioning < 0.1875	chip
…	…	…
GPS_TIME_37158911999997	2322431999999.8125 ≤ UTRAN GPS timing of Cell Frames for UE positioning < 2322431999999.8750	chip
GPS_TIME_37158911999998	2322431999999.8750 ≤ UTRAN GPS timing of Cell Frames for UE positioning < 2322431999999.9375	chip
GPS_TIME_37158911999999	2322431999999.9375 ≤ UTRAN GPS timing of Cell Frames for UE positioning < 2322432000000.0000	chip

9.2.11 PRACH Propagation delay

9.2.11.1 Accuracy requirement

9.2.11.1.1 PRACH Propagation delay

The accuracy requirements in table 9.55 and table 9.55X are valid under the following conditions:

– The radio conditions are according to 25.104 section 8.7.2.1 Minimum requirements for Static Propagation Condition for BLER=10^-1.

– Only RACH messages with correct CRC shall be considered

The support of extended PRACH propagation delay is optional.

Table 9.55 Minimum requirement

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
PRACH PropDelay	chip	+/-2	0, … , 765

Table 9.55X Requirement for extended PRACH propagation delay

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
PRACH PropDelay	chip	+/-2	766, …, 2307

9.2.11.1.2 (void)

Table 9.55A (void)

9.2.11.2 PRACH Propagation delay measurement report mapping

9.2.11.2.1 Minimum requirement

The PRACH Propagation delay reporting range is from 0 … 765 chip.

In table 9.56 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.56

Reported value	Measured quantity value	Unit
PROP_DELAY_000	0 ≤ PRACH Propagation delay < 3	chip
PROP_DELAY_001	3 ≤ PRACH Propagation delay < 6	chip
PROP_DELAY_002	6 ≤ PRACH Propagation delay < 9	chip
…	…	…
PROP_DELAY_252	756 ≤ PRACH Propagation delay < 759	chip
PROP_DELAY_253	759 ≤ PRACH Propagation delay < 762	chip
PROP_DELAY_254	762 ≤ PRACH Propagation delay < 765	chip
PROP_DELAY_255	765 ≤ PRACH Propagation delay	chip

9.2.11.2.2 Requirement for extended PRACH propagation delay

The extended PRACH Propagation delay reporting range is from 765 … 3069 chip.

In table 9.56X the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.56X

Reported value	Measured quantity value	Unit
PROP_DELAY_255	765 ≤ PRACH Propagation delay < 768	chip
PROP_DELAY_256	768 ≤ PRACH Propagation delay < 771	chip
PROP_DELAY_257	771 ≤ PRACH Propagation delay < 774	chip
PROP_DELAY_258	774 ≤ PRACH Propagation delay < 777	chip
…	…	…
PROP_DELAY_1020	3060 ≤ PRACH Propagation delay < 3063	chip
PROP_DELAY_1021	3063 ≤ PRACH Propagation delay < 3066	chip
PROP_DELAY_1022	3066 ≤ PRACH Propagation delay < 3069	chip
PROP_DELAY_1023	3069 ≤ PRACH Propagation delay	chip

9.2.12 Acknowledged PRACH preambles

The measurement period shall be 20 ms.

9.2.12.1 Acknowledged PRACH preambles measurement report mapping

The Acknowledged PRACH preambles reporting range is from 0 … 240 acknowledgements.

In table 9.57 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.57

Reported value	Measured quantity value	Unit
ACK_PRACH_PREAMPLE_000	Acknowledged PRACH preambles = 0	–
ACK_PRACH_PREAMPLE_001	Acknowledged PRACH preambles = 1	–
ACK_PRACH_PREAMPLE_002	Acknowledged PRACH preambles = 2	–
…	…	…
ACK_PRACH_PREAMPLE_237	Acknowledged PRACH preambles = 237	–
ACK_PRACH_PREAMPLE_238	Acknowledged PRACH preambles = 238	–
ACK_PRACH_PREAMPLE_239	Acknowledged PRACH preambles = 239	–
ACK_PRACH_PREAMPLE_240	Acknowledged PRACH preambles = 240	–

9.2.13 (void)

Table 9.58 (void)

9.2.14 (void)

Table 9.59 (void)

9.2.15 SFN-SFN observed time difference

This measurement is needed for RTD estimation in UTRAN.

9.2.15.1 Accuracy requirement

9.2.15.1.1 Accuracy requirement without IPDL

The measurement period shall be [100] ms.

Table 9.60

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
SFN-SFN observed time difference	chip	+/- 0.5	-19200.0000 … 19200.0000

9.2.15.1.2 Accuracy requirement with IPDL

The measurement period shall be [TBD] ms.

IPDL pattern parameters [TBD].

Table 9.61

Parameter	Unit	Accuracy [chip]	Conditions
			Range [chips]
SFN-SFN observed time difference	chip	+/- 0.5	-19200.0000 … 19200.0000

9.2.15.2 SFN-SFN observed time difference measurement report mapping

The SFN-SFN observed time difference reporting range is from -19200.0000 … 19200.0000 chip.

In table 9.62 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.62

Reported value	Measured quantity value	Unit
SFN-SFN_TIME _00000	-19200.0000 ≤ SFN-SFN observed time difference < -19199.9375	chip
SFN-SFN_TIME _00001	-19199.9375 ≤ SFN-SFN observed time difference < -19199.8750	chip
…	…	…
SFN-SFN_TIME _614398	19199.8750 ≤ SFN-SFN observed time difference < 19199.9375	chip
SFN-SFN_TIME _614399	19199.9375 ≤ SFN-SFN observed time difference ≤ 19200.0000	chip

9.2.16 Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission

The measurement period shall be 100 ms.

9.2.16.1 Accuracy requirement

Table 9.63

Parameter	Unit	Accuracy [% units]	Conditions
			Range
Ptot	%	± 5	For 5% ≤ Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤95%

9.2.16.2 Measurement report mapping for transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission

The reporting range for Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission is from 0 … 100 %.

In table 9.64 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.64

Reported value	Measured quantity value	Unit
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_000	Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission = 0	%
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_001	0 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 1	%
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_002	1 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 2	%
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_003	2 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 3	%
…	…	…
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_098	97 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 98	%
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_099	98 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 99	%
Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission_100	99 < Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission ≤ 100	%

9.2.17 DL Transmission Branch Load

This measurement is applicable in case of TX diversity.

The measurement period shall be 100 ms.

9.2.17.1 Accuracy requirement

Table 9.65

Parameter	Unit	Accuracy [% units]	Conditions
			Range
Pbranchtot	%	± 5	For 5% ≤ DL Transmission Branch Load ≤95%

9.2.17.2 DL Transmission Branch Load measurement report mapping

The reporting range for DL Transmission Branch Load measurement is from 0 … 100 %.

In table 9.66 the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.66

Reported value	Measured quantity value	Unit
branch_load _000	DL Transmission Branch Load = 0	%
branch_load _001	0 < DL Transmission Branch Load ≤ 1	%
branch_load _002	1 < DL Transmission Branch Load ≤ 2	%
branch_load _003	2 < DL Transmission Branch Load ≤ 3	%
…	…	…
branch_load _098	97 < DL Transmission Branch Load ≤ 98	%
branch_load _099	98 < DL Transmission Branch Load ≤ 99	%
branch_load _100	99 < DL Transmission Branch Load ≤ 100	%
branch_load _101	DL Transmission Branch Load > 100	%

9.2.18 Received scheduled E-DCH power share (RSEPS)

The measurement period shall be 100 ms.

9.2.18.1 Accuracy requirement

Table 9.67

Parameter	Unit	Accuracy [dB]	Conditions
			Range
RSEPS	dB	± 3	For -15 dB ≤ RSEPS ≤ 0 dB

9.2.18.2 Received scheduled E-DCH power share measurement report mapping

The reporting range for Received scheduled E-DCH power share is from -15 … 0 dB.

In table 9.yy the mapping of measured quantity is defined. The range in the signalling may be larger than the guaranteed accuracy range.

Table 9.68

Reported value	Measured quantity value	Unit
RSEPS _LEV _000	RSEPS < ‑15.0	dB
RSEPS _LEV _001	-15.0 ≤ RSEPS < ‑14.9	dB
RSEPS _LEV _002	-14.9 ≤ RSEPS < ‑14.8	dB
…	…	…
RSEPS _LEV _149	-0.2 ≤ RSEPS < -0.1	dB
RSEPS _LEV _150	-0.1 ≤ RSEPS < 0	dB
RSEPS _LEV _151	0 ≤ RSEPS	dB

Annex A (normative):
Test Cases