A.8.5 Measurement performance

38.1333GPPNRRelease 17Requirements for support of radio resource managementTS

A.8.5.1 SFTD accuracy

A.8.5.1.1 SFTD accuracy

A.8.5.1.1.1 Test Purpose

The purpose of this set of tests is to verify that the SFTD measurement accuracy is within the specified limits. This test will verify the requirements as specified in clause 9.1.27 in TS 36.133 [15] for inter-RAT FR1 SFTD measurements.

A.8.5.1.1.2 Test Environment

Supported test configurations are shown in Table A.8.5.1.1.2-1. In this set of test cases there are two cells on different carriers. Cell 1 is E-UTRAN PCell and Cell 2 is inter-RAT NR FR1 target cell. The test parameters of cell 1 are given in clause A.8.5.1.1.2-2. The test parameters of cell 2 are given in Table A.8.5.1.1.2-3. The SFTD between PCell and target cell shall be set by the test equipment to one of the time differences in Table A.8.5.1.1.2-4.

Table A.8.5.1.1.2-1: Supported test configurations for SFTD accuracy

Configuration

Description

1

NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode, LTE FDD

2

NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode, LTE FDD

3

NR 30 kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode, LTE FDD

4

NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode, LTE TDD

5

NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode, LTE TDD

6

NR 30kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode, LTE TDD

Note: The UE is only required to be tested in one of the supported test configurations

Table A.8.5.1.1.2-2: Test parameters for SFTD accuracy (Cell 1)

Parameter

Unit

Test 1

E-UTRA RF Channel Number

1

Duplex mode

FDD or TDD

TDD special subframe configurationNote1

6

TDD uplink-downlink configurationNote1

1

BWchannel

5 MHz: NRB,c = 25

10 MHz: NRB,c = 50

20 MHz: NRB,c = 100

PDSCH parameters:

DL Reference Measurement ChannelNote2

5 MHz: R.7 FDD

10 MHz: R.3 FDD

20 MHz: R.6 FDD

5 MHz: R.4 TDD

10 MHz: R.0 TDD

20 MHz: R.3 TDD

PCFICH/PDCCH/PHICH parameters:

DL Reference Measurement ChannelNote2

5 MHz: R.11 FDD

10 MHz: R.6 FDD

20 MHz: R.10 FDD

5 MHz: R.11 TDD

10 MHz: R.6 TDD

20 MHz: R.10 TDD

OCNG PatternsNote2

5 MHz: OP.20 FDD

10 MHz: OP.10 FDD

20 MHz: OP.17 FDD

5 MHz: OP.9 TDD

10 MHz: OP.1 TDD

20 MHz: OP.7 TDD

PBCH_RA

dB

0

PBCH_RB

dB

PSS_RA

dB

SSS_RA

dB

PCFICH_RB

dB

PHICH_RA

dB

PHICH_RB

dB

PDCCH_RA

dB

PDCCH_RB

dB

PDSCH_RA

dB

PDSCH_RB

dB

OCNG_RANote3

dB

OCNG_RBNote3

dB

NocNote4

dBm/15 kHz

-104

Ês/Noc

dB

-3

Ês/Iot

dB

-3

RSRP Note5

dBm/15 kHz

-107

SCH_RP Note5

dBm/15 kHz

-107

Io Note5

dBm/Ch BW

-74.45

+10log

(NRB,c /50)

Propagation Condition

AWGN

Antenna Configuration

1×2

Note 1: Special subframe and uplink-downlink configurations are specified in table 4.2-1 in TS 36.211 [23].

Note 2: DL RMCs and OCNG patterns are specified in clauses A 3.1 and A 3.2 of TS 36.133 [15] respectively.

Note 3: OCNG shall be used such that all cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 4: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for Noc to be fulfilled.

Note 5: Es/Iot, RSRP, SCH_RP and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Table A.8.5.1.1.2-3: Test parameters for SFTD accuracy (Cell 2)

Parameter

Config

Unit

Test 1

SSB GSCN

1~6

freq1

Duplex mode

1,4

FDD

2,5

TDD

3,6

TDD

TDD Configuration

1,4

N/A

2,5

TDDConf.1.1

3,6

TDDConf.2.1

BWchannel

1,4

MHz

10: NRB,c = 52

2,5

10: NRB,c = 52

3,6

40: NRB,c = 106

PDSCH Reference measurement channel

1,4

SR.1.1 FDD

2,5

SR.1.1 TDD

3,6

SR.2.1 TDD

RMSI CORESET Reference Channel

1,4

CR.1.1 FDD

2,5

CR.1.1 TDD

3,6

CR.2.1 TDD

RMC CORESET Reference Channel

1,4

CCR.1.1 FDD

2,5

CCR.1.1 TDD

3,6

CCR.2.1 TDD

SSB configuration

1,4

SSB.1 FR1

2,5

SSB.1 FR1

3,6

SSB.2 FR1

SMTC configuration

1~6

SMTC.1

DL BWP configuration

1~6

DLBWP.1.1

UL BWP configuration

1~6

ULBWP.1.1

OCNG Patterns

1~6

OP.1

EPRE ratio of PSS to SSS

1~6

dB

0

EPRE ratio of PBCH DMRS to SSS

EPRE ratio of PBCH to PBCH DMRS

EPRE ratio of PDCCH DMRS to SSS

EPRE ratio of PDCCH to PDCCH DMRS

EPRE ratio of PDSCH DMRS to SSS

EPRE ratio of PDSCH to PDSCH DMRS

EPRE ratio of OCNG DMRS to SSSNote 1

EPRE ratio of OCNG to OCNG DMRS Note 1

Note2

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

1~6

dBm/15kHz

-104

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

Note2

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

1,2,4,5

dBm/SSB SCS

-104

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

3,6

-101

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

1~6

dB

-3

1~6

dB

-3

SS-RSRP Note3

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

1,2,4,5

dBm/SCS

-107

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

3,6

-104

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

Io Note3

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

1,2,4,5

dBm/9.36 MHz

-74.28

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

NR_FDD_FR1_A, NR_TDD_FR1_A NOTE 5

3,6

dBm/38.16 MHz

-68.18

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D, NR_TDD_FR1_D

NR_FDD_FR1_E, NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

Propagation condition

1~6

AWGN

Antenna configuration

1~6

1×2

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 3: SS-RSRP and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 4: SS-RSRP minimum requirements are specified assuming independent interference and noise at each receiver antenna port.

Note 5: The test configuration excludes support for band n51 and it is not required to run this test on band n51 in this release of the specification

Table A.8.5.1.1.2-4: Timing offsets for SFTD accuracy test

Configuration

SFN offset between PCell and PSCell

Frame boundary offset between PCell and PSCell (Ts)

1

100

-122000

2

300

-60540

3

500

1000

4

700

62540

5

900

124000

A.8.5.1.1.3 Test Requirements

The SFTD reported by the UE consists of 2 elements, SFN offset and frame boundary offset between PCell and inter-RAT NR target cell. The reported SFTD accuracy shall fulfil the requirement in clause 9.1.27 in TS 36.133 [15].

A.8.5.2 E-UTRA – NR Inter-RAT Measurement Performance requirements

A.8.5.2.1 SS-RSRP

A.8.5.2.1.1 E-UTRAN – NR inter-RAT measurements with FR1 target cell

A.8.5.2.1.1.1 Test Purpose and Environment

The purpose of this test is to verify that the SS-RSRP measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.1 in TS 36.133 [15] for inter-RAT FR1 SS-RSRP measurements.

A.8.5.2.1.1.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.1.1.2-1. In this test case there are two cells on different carriers. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1. Cell 2 is the inter-RAT NR FR1 target cell. The absolute accuracy requirements of SS-RSRP inter-RAT measurement is tested by using test parameters in Table A.8.5.2.1.1.2-2.

Table A.8.5.2.1.1.2-1: SS-RSRP Inter-RAT SS-RSRP supported test configurations

Config

Description

1

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

2

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

3

LTE FDD, NR 30 kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

4

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

5

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

6

LTE TDD, NR 30 kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

Note: The UE is only required to be tested in one of the supported test configurations

Table A.8.5.2.1.1.2-2: SS-RSRP inter-RAT test parameters

Parameter

Unit

Test 1

Test 2

Cell 2

Cell 2

SSB ARFCN

freq1

freq1

Duplex mode

Config 1,4

FDD

Config 2,3,5,6

TDD

TDD configuration

Config 1,4

Not Applicable

Config 2,5

TDDConf.1.1

Config 3,6

TDDConf.2.1

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX Cycle configuration

ms

Not Applicable

PDSCH Reference measurement channel

Config 1,4

Config 2,5

Config 3,6

RMSI CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

Dedicated CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

OCNG Patterns

OP.1

SS-RSSI-Measurement

Not Applicable

SMTC configruation

SMTC.1

SSB configuration

Config 1,2,4,5

SSB.1 FR1

Config 3,6

SSB.2 FR1

PDSCH/PDCCH subcarrier spacing

Config 1,2,4,5

kHz

15

Config 3,6

30

EPRE ratio of PSS to SSS

dB

0

0

0

0

EPRE ratio of PBCH DMRS to SSS

EPRE ratio of PBCH to PBCH DMRS

EPRE ratio of PDCCH DMRS to SSS

EPRE ratio of PDCCH to PDCCH DMRS

EPRE ratio of PDSCH DMRS to SSS

EPRE ratio of PDSCH to PDSCH

EPRE ratio of OCNG DMRS to SSS(Note 1)

EPRE ratio of OCNG to OCNG DMRS (Note 1)

Note2

Config 1,2,3,4,5,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/15kHz

-94.65

-117

NR_FDD_FR1_B

-116.5

NR_TDD_FR1_C

-116

NR_FDD_FR1_D

NR_TDD_FR1_D

-115.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-115

NR_FDD_FR1_F

-114.5

NR_FDD_FR1_G

-114

NR_FDD_FR1_H

-113.5

Note2

Config 1,2,4,5

dBm/SCS

-94.65

Same as Noc for 15kHz

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-91.65

-114

NR_FDD_FR1_B

-113.5

NR_TDD_FR1_C

-113

NR_FDD_FR1_D

NR_TDD_FR1_D

-112.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-112

NR_FDD_FR1_F

-111.5

NR_FDD_FR1_G

-111

NR_FDD_FR1_H

-110.5

dB

10

-4

dB

10

-4

SS-RSRPNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/SCS

-84.65

-121

NR_FDD_FR1_B

-120.5

NR_TDD_FR1_C

-120

NR_FDD_FR1_D

NR_TDD_FR1_D

-119.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-119

NR_FDD_FR1_F

-118.5

NR_FDD_FR1_G

-118

NR_FDD_FR1_H

-117.5

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-81.65

-118

NR_FDD_FR1_B

-117.5

NR_TDD_FR1_C

-117

NR_FDD_FR1_D

NR_TDD_FR1_D

-116.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-116

NR_FDD_FR1_F

-115.5

NR_FDD_FR1_G

-115

NR_FDD_FR1_H

-114.5

IoNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

9.36MHz

-56.28

-87.76

NR_FDD_FR1_B

-87.26

NR_TDD_FR1_C

-86.76

NR_FDD_FR1_D

NR_TDD_FR1_D

-86.26

NR_FDD_FR1_E

NR_TDD_FR1_E

-85.76

NR_FDD_FR1_F

-85.26

NR_FDD_FR1_G

-84.76

NR_FDD_FR1_H

-84.26

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

38.16MHz

-50.19

-84.76

NR_FDD_FR1_B

-84.26

NR_TDD_FR1_C

-83.76

NR_FDD_FR1_D

NR_TDD_FR1_D

-83.26

NR_FDD_FR1_E

NR_TDD_FR1_E

-82.76

NR_FDD_FR1_F

-82.26

NR_FDD_FR1_G

-81.76

NR_FDD_FR1_H

-81.26

Propagation condition

AWGN

Antenna configuration

1×2

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 3: SS-RSRP, and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 4: SS-RSRP minimum requirements are specified assuming independent interference and noise at each receiver antenna port.

Note 5: NR operating band groups are as defined in clause 3.5.2.

Note 6: The test configuration excludes support for band n51 and it is not required to run this test on band n51 in this release of the specification.

A.8.5.2.1.1.3 Test Requirements

The SS-RSRP measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.1 in TS 36.133 [15].

A.8.5.2.1.2 E-UTRAN – NR inter-RAT measurements with FR2 target cell
A.8.5.2.1.2.1 Test Purpose and Environment

The purpose of this test is to verify that the SS-RSRP measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.1 in TS 36.133 [15] for inter-RAT FR2 SS-RSRP measurements.

A.8.5.2.1.2.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.1.2.2-1. In this test case there are two cells on different carriers. Absolute accuracy requirements of SS-RSRP inter-RAT measurement are tested by using test setup in Table A.8.5.2.1.2.2-2 and Table A.8.5.2.1.2.2-3. In all test cases, Cell 2 is target cell. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1.

Table A.8.5.2.1.2.2-1: SS-RSRP Inter-RAT SS-RSRP supported test configurations

Configuration

Description

1

LTE FDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

2

LTE TDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

Table A.8.5.2.1.2.2-2: SS-RSRP Inter-RAT general test parameters

Parameter

Unit

Test 1

Test 2

Cell 2

Cell 2

SSB ARFCN

Freq1

freq1

Duplex mode

TDD

TDD

TDD configuration

TDDConf.3.1

TDDConf.3.1

BWchannel

MHz

100: NRB,c = 66

100: NRB,c = 66

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX cycle configuration

ms

Not applicable

PDSCH Reference measurement channel

RMSI CORESET Reference Channel

OCNG Patterns

OP.1

OP.1

SMTC configuration

SMTC.1

SMTC.1

SSB configuration

SSB.3 FR2

SSB.3 FR2

PDSCH/PDCCH subcarrier spacing

kHz

120

120

EPRE ratio of PSS to SSS

dB

0

0

EPRE ratio of PBCH_DMRS to SSS

EPRE ratio of PBCH to PBCH_DMRS

EPRE ratio of PDCCH_DMRS to SSS

EPRE ratio of PDCCH to PDCCH_DMRS

EPRE ratio of PDSCH_DMRS to SSS

EPRE ratio of PDSCH to PDSCH_DMRS

EPRE ratio of OCNG DMRS to SSSNote 1

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Void

Note 3: Void

Note 4: Void

Table A.8.5.2.1.2.2-3: SS-RSRP Inter-RAT OTA related test parameters

Parameter

Unit

Test 1

Test 2

Cell 2

Cell 2

Angle of arrival configuration

Setup 1 according to A.3.15.1

Setup 1 according to A.3.15.1

Assumption for UE beamsNote 10

Rough

Rough

Note1

dBm/15kHz
Note4

-105

N/A

Note1

dBm/SCS

Note4

-96

N/A

Es

dBm/SCS

Note4

(Table B.2.3-2 Rx Beam Peak +1dB)

(Note 7)

dB

11

N/A

SSB_RPNote2

dBm/SCS Note4

-85

(Table B.2.3-2 Rx Beam Peak +1dB)

(Note 7)

BB Note 2, Note 9

dB

9.97

-3.81

IoNote2

dBm/95.04 MHz Note4

-55.65

(Table B.2.3-2 Rx Beam Peak +30dB)

(Note 8)

Note 1: Where used, interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 2: SSB_RP, Es/Iot and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 3: Void

Note 4: Equivalent power received by an antenna with 0dBi gain at the centre of the quiet zone.

Note 5: Void

Note 6: Void

Note 7: SSB_RP is applied at 1dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 8: Io is applied at 10log10(792)dB+1dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 9: Calculation of Es/IotBB includes the effect of UE internal noise up to the value assumed for the associated Refsens requirement in clause 7.3.2 of TS 36.101-2 [19], and an allowance of 1dB for UE multi-band relaxation factor ΔMBP from TS 38.101-2 [19] Table 6.2.1.3-4.

Note 10: Information about types of UE beam is given in B.2.1.3, and does not limit UE implementation or test system implementation.

A.8.5.2.1.2.3 Test Requirements

The SS-RSRP measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.1 in TS 36.133 [15].

A.8.5.2.2 SS-RSRQ

A.8.5.2.2.1 E-UTRAN – NR inter-RAT measurements with FR1 target cell

A.8.5.2.2.1.1 Test Purpose and Environment

The purpose of this test is to verify that the SS-RSRQ measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.2 in TS 36.133 [15] for inter-RAT FR1 SS-RSRQ measurements.

A.8.5.2.2.1.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.2.1.2-1. In this test case there are two cells on different carriers. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1. Cell 2 is the inter-RAT NR FR1 target cell. The absolute accuracy requirements of SS-RSRP inter-RAT measurement is tested by using test parameters in Table A.8.5.2.2.1.2-2.

Table A.8.5.2.2.1.2-1: SS-RSRQ Inter-RAT SS-RSRQ supported test configurations

Config

Description

1

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

2

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

3

LTE FDD, NR 30kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

4

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

5

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

6

LTE TDD, NR 30kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

Note: The UE is only required to be tested in one of the supported test configurations

Table A.8.5.2.2.1.2-2: SS-RSRQ inter-RAT test parameters

Parameter

Unit

Test 1

Test 2

Test 3

Cell 2

Cell 2

Cell 2

SSB ARFCN

freq1

freq1

freq1

Duplex mode

Config 1,4

FDD

Config 2,3,5,6

TDD

TDD configuration

Config 1,4

Not Applicable

Config 2,5

TDDConf.1.1

Config 3,6

TDDConf.2.1

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX Cycle configuration

ms

Not Applicable

PDSCH Reference measurement channel

Config 1,4

Config 2,5

Config 3,6

RMSI CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

Dedicated CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

OCNG Patterns

OP.1

SS-RSSI-Measurement

Not Applicable

SMTC configruation

SMTC.1

SSB configuration

Config 1,2,4,5

SSB.1 FR1

Config 3,6

SSB.2 FR1

PDSCH/PDCCH subcarrier spacing

Config 1,2,4,5

kHz

15

Config 3,6

30

EPRE ratio of PSS to SSS

dB

0

0

0

0

0

0

EPRE ratio of PBCH DMRS to SSS

EPRE ratio of PBCH to PBCH DMRS

EPRE ratio of PDCCH DMRS to SSS

EPRE ratio of PDCCH to PDCCH DMRS

EPRE ratio of PDSCH DMRS to SSS

EPRE ratio of PDSCH to PDSCH

EPRE ratio of OCNG DMRS to SSS(Note 1)

EPRE ratio of OCNG to OCNG DMRS (Note 1)

Note2

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/15kHz

-80.18

-106

-116

NR_FDD_FR1_B

-115.5

NR_TDD_FR1_C

-115

NR_FDD_FR1_D

NR_TDD_FR1_D

-114.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-114

NR_FDD_FR1_F

-113.5

NR_FDD_FR1_G

-113

NR_FDD_FR1_H

-112.5

Config 3,6

-86.27

-113

Same as Noc for Config 1,2,4,5

Note2

Config 1,2,4,5

dBm/SCS

-80.18

-106

Same as Noc for 15kHz

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-83.27

-110

-113

NR_FDD_FR1_B

-112.5

NR_TDD_FR1_C

-112

NR_FDD_FR1_D

NR_TDD_FR1_D

-111.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-111

NR_FDD_FR1_F

-110.5

NR_FDD_FR1_G

-110

NR_FDD_FR1_H

-109.5

dB

-1.75

-1.75

-1.75

dB

-1.75

-1.75

-1.75

SS-RSRPNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/SCS

-81.93

-107.75

-117.75

NR_FDD_FR1_B

-117.25

NR_TDD_FR1_C

-116.75

NR_FDD_FR1_D

NR_TDD_FR1_D

-116.25

NR_FDD_FR1_E

NR_TDD_FR1_E

-115.75

NR_FDD_FR1_F

-115.25

NR_FDD_FR1_G

-114.75

NR_FDD_FR1_H

-114.25

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-85.02

-111.75

-114.75

NR_FDD_FR1_B

-114.25

NR_TDD_FR1_C

-113.75

NR_FDD_FR1_D

NR_TDD_FR1_D

-113.25

NR_FDD_FR1_E

NR_TDD_FR1_E

-112.75

NR_FDD_FR1_F

-112.25

NR_FDD_FR1_G

-111.75

NR_FDD_FR1_H

-111.25

SS-RSRQ Note3

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dB

-14.77

-40.59

-14.76

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D

NR_TDD_FR1_D

NR_FDD_FR1_E

NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

IoNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

9.36MHz

-50

-75.83

-85.83

NR_FDD_FR1_B

-85.33

NR_TDD_FR1_C

-84.83

NR_FDD_FR1_D

NR_TDD_FR1_D

-84.33

NR_FDD_FR1_E

NR_TDD_FR1_E

-83.83

NR_FDD_FR1_F

-83.33

NR_FDD_FR1_G

-82.83

NR_FDD_FR1_H

-82.33

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

38.16MHz

-50

-76.73

-79.73

NR_FDD_FR1_B

-79.23

NR_TDD_FR1_C

-78.73

NR_FDD_FR1_D

NR_TDD_FR1_D

-78.23

NR_FDD_FR1_E

NR_TDD_FR1_E

-77.73

NR_FDD_FR1_F

-77.23

NR_FDD_FR1_G

-76.73

NR_FDD_FR1_H

-76.53

Propagation condition

AWGN

Antenna configuration

1×2

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 3: SS-RSRQ, SS-RSRP, and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 4: SS-RSRQ minimum requirements are specified assuming independent interference and noise at each receiver antenna port.

Note 5: NR operating band groups are as defined in clause 3.5.2.

Note 6: The test configuration excludes support for band n51 and it is not required to run this test on band n51 in this release of the specification.

A.8.5.2.2.1.3 Test Requirements

The SS-RSRQ measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.2 in TS 36.133 [15].

A.8.5.2.2.2 E-UTRAN – NR inter-RAT measurements with FR2 target cell
A.8.5.2.2.2.1 Test Purpose and Environment

The purpose of this test is to verify that the SS-RSRQ measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.2 in TS 36.133 [15] for inter-RAT FR2 SS-RSRQ measurements.

A.8.5.2.2.2.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.2.2.2-1. In this test case there are two cells on different carriers. Absolute accuracy requirements of SS-RSRQ inter-RAT measurement are tested by using test setup in Table A.8.5.2.2.2.2-2 and Table A.8.5.2.2.2.2-3. In all test cases, Cell 2 is target cell. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1.

Table A.8.5.2.2.2.2-1: SS-RSRQ Inter-RAT SS-RSRQ supported test configurations

Configuration

Description

1

LTE FDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

2

LTE TDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

Table A.8.5.2.2.2.2-2: SS-RSRQ Inter-RAT general test parameters

Parameter

Unit

Test 1

Test 2

Cell 2

Cell 2

SSB ARFCN

Freq1

freq1

Duplex mode

TDD

TDD

TDD configuration

TDDConf.3.1

TDDConf.3.1

BWchannel

MHz

100: NRB,c = 66

100: NRB,c = 66

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX cycle configuration

ms

Not applicable

PDSCH Reference measurement channel

RMSI CORESET Reference Channel

OCNG Patterns

OP.1

OP.1

SMTC configuration

SMTC.1

SMTC.1

SSB configuration

SSB.3 FR2

SSB.3 FR2

PDSCH/PDCCH subcarrier spacing

kHz

120

120

EPRE ratio of PSS to SSS

dB

0

0

EPRE ratio of PBCH_DMRS to SSS

EPRE ratio of PBCH to PBCH_DMRS

EPRE ratio of PDCCH_DMRS to SSS

EPRE ratio of PDCCH to PDCCH_DMRS

EPRE ratio of PDSCH_DMRS to SSS

EPRE ratio of PDSCH to PDSCH_DMRS

EPRE ratio of OCNG DMRS to SSSNote 1

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Void

Note 3: Void

Note 4: Void

Table A.8.5.2.2.2.2-3: SS-RSRQ Inter-RAT OTA related test parameters

Parameter

Unit

Test 1

Test 2

Cell 2

Cell 2

Angle of arrival configuration

Setup 1 according to A.3.15.1

Setup 1 according to A.3.15.1

Assumption for UE beamsNote 10

Rough

Rough

Note1

dBm/15kHz
Note4

-104.7

(Table B.2.3-2 Rx Beam Peak -5dB)

(Note 7)

Note1

dBm/SCS Note4

-95.7

(Table B.2.3-2 Rx Beam Peak +4dB)

(Note 7)

dB

-0.5

-1.75

SSB_RPNote2

dBm/SCS Note4

-96.2

(Table B.2.3-2 Rx Beam Peak +2.25dB)

(Note 8)

SS-RSRQNote2

dB

-3.27

-14.82

Note2

dB

-0.5

-1.75

IoNote2

dBm/95.04 MHz Note4

-63.95

(Table B.2.3-2 Rx Beam Peak +35.22dB)

(Note 9)

Note 1: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 2: SSB_RP, SS-RSRQ, Es/Iot and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 3: Void

Note 4: Equivalent power received by an antenna with 0dBi gain at the centre of the quiet zone.

Note 5: Void

Note 6: Void

Note 7: Noc for SCS 15kHz is applied at -10log10(8)+4dB above the minimum level specified in Table B.2.3-2 for beam peak. Noc for SCS 120kHz is applied at 4dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 8: SSB_RP is applied at 2.25dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 9: Io is applied at 10log10(792)+6.22dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 10: Information about types of UE beam is given in B.2.1.3, and does not limit UE implementation or test system implementation.

A.8.5.2.2.2.3 Test Requirements

The SS-RSRQ measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.2 in TS 36.133 [15].

In this test case there are two cells on different carriers and measurement gaps are provided

A.8.5.2.3 SS-SINR

A.8.5.2.3.1 E-UTRAN – NR inter-RAT measurements with FR1 target cell

A.8.5.2.3.1.1 Test Purpose and Environment

The purpose of this test is to verify that the SS- SINR measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.3 in TS 36.133 [15] for inter-RAT FR1 SS-SINR measurements.

A.8.5.2.3.1.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.3.1.2-1. In this test case there are two cells on different carriers. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1. Cell 2 is the inter-RAT NR FR1 target cell. The absolute accuracy requirements of SS-RSRP inter-RAT measurement is tested by using test parameters in Table A.8.5.2.3.1.2-2.

Table A.8.5.2.3.1.2-1: SS- SINR Inter-RAT SS- SINR supported test configurations

Config

Description

1

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

2

LTE FDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

3

LTE FDD, NR 30kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

4

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, FDD duplex mode

5

LTE TDD, NR 15 kHz SSB SCS, 10 MHz bandwidth, TDD duplex mode

6

LTE TDD, NR 30kHz SSB SCS, 40 MHz bandwidth, TDD duplex mode

Note: The UE is only required to be tested in one of the supported test configurations

Table A.8.5.2.3.1.2-2: SS-SINR inter-RAT test parameters

Parameter

Unit

Test 1

Test 2

Test 3

Cell 2

Cell 2

Cell 2

SSB ARFCN

freq1

freq1

freq1

Duplex mode

Config 1,4

FDD

Config 2,3,5,6

TDD

TDD configuration

Config 1,4

Not Applicable

Config 2,5

TDDConf.1.1

Config 3,6

TDDConf.2.1

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX Cycle configuration

ms

Not Applicable

PDSCH Reference measurement channel

Config 1,4

Config 2,5

Config 3,6

RMSI CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

Dedicated CORESET Reference Channel

Config 1,4

Config 2,5

Config 3,6

OCNG Patterns

OP.1

SS-RSSI-Measurement

Not Applicable

SMTC configruation

SMTC.1

SSB configuration

Config 1,2,4,5

SSB.1 FR1

Config 3,6

SSB.2 FR1

PDSCH/PDCCH subcarrier spacing

Config 1,2,4,5

kHz

15

Config 3,6

30

EPRE ratio of PSS to SSS

dB

0

0

0

0

0

0

EPRE ratio of PBCH DMRS to SSS

EPRE ratio of PBCH to PBCH DMRS

EPRE ratio of PDCCH DMRS to SSS

EPRE ratio of PDCCH to PDCCH DMRS

EPRE ratio of PDSCH DMRS to SSS

EPRE ratio of PDSCH to PDSCH

EPRE ratio of OCNG DMRS to SSS(Note 1)

EPRE ratio of OCNG to OCNG DMRS (Note 1)

Note2

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/15kHz

-880

-108.5

-119.5

NR_FDD_FR1_B

-119

NR_TDD_FR1_C

-118.5

NR_FDD_FR1_D

NR_TDD_FR1_D

-118

NR_FDD_FR1_E

NR_TDD_FR1_E

-117.5

NR_FDD_FR1_F

-117

NR_FDD_FR1_G

-116.5

NR_FDD_FR1_H

-116

Note2

Config 1,2,4,5

dBm/SCS

[-80]

-88

-108.5

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-85

-105.5

-116.5

NR_FDD_FR1_B

-116

NR_TDD_FR1_C

-115.5

NR_FDD_FR1_D

NR_TDD_FR1_D

-115

NR_FDD_FR1_E

NR_TDD_FR1_E

-114.5

NR_FDD_FR1_F

-114

NR_FDD_FR1_G

-114.5

NR_FDD_FR1_H

-113]

dB

-1.75

20

-4.0

dB

-1.75

20

-4.0

SS-RSRPNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/SCS

-89.75

-88.5

-123.5

NR_FDD_FR1_B

-123

NR_TDD_FR1_C

-122.5

NR_FDD_FR1_D

NR_TDD_FR1_D

-122

NR_FDD_FR1_E

NR_TDD_FR1_E

-121.5

NR_FDD_FR1_F

-121

NR_FDD_FR1_G

-120.5

NR_FDD_FR1_H

-120

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

-86.75

-85.5

-120.5

NR_FDD_FR1_B

-120

NR_TDD_FR1_C

-119.5

NR_FDD_FR1_D

NR_TDD_FR1_D

-119

NR_FDD_FR1_E

NR_TDD_FR1_E

-118.5

NR_FDD_FR1_F

-118

NR_FDD_FR1_G

-117.5

NR_FDD_FR1_H

-117

SS-SINR Note3

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dB

-1.75

20

-4.0

NR_FDD_FR1_B

NR_TDD_FR1_C

NR_FDD_FR1_D

NR_TDD_FR1_D

NR_FDD_FR1_E

NR_TDD_FR1_E

NR_FDD_FR1_F

NR_FDD_FR1_G

NR_FDD_FR1_H

IoNote3

Config 1,2,4,5

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

9.36MHz

-57.83

-60.5

-90.09

NR_FDD_FR1_B

-89.59

NR_TDD_FR1_C

-89.09

NR_FDD_FR1_D

NR_TDD_FR1_D

-88.59

NR_FDD_FR1_E

NR_TDD_FR1_E

-88.09

NR_FDD_FR1_F

-87.59

NR_FDD_FR1_G

-87.09

NR_FDD_FR1_H

-86.59

Config 3,6

NR_FDD_FR1_A

NR_TDD_FR1_A NOTE 6

dBm/

38.16MHz

-51.73

-54.41

-84

NR_FDD_FR1_B

-83.5

NR_TDD_FR1_C

-83

NR_FDD_FR1_D

NR_TDD_FR1_D

-82.5

NR_FDD_FR1_E

NR_TDD_FR1_E

-82

NR_FDD_FR1_F

-81.5

NR_FDD_FR1_G

-81

NR_FDD_FR1_H

-80.5

Propagation condition

AWGN

Antenna configuration

1×2

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 3: SS-SINR, SS-RSRP, and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 4: SS-SINR, SS-RSRP minimum requirements are specified assuming independent interference and noise at each receiver antenna port.

Note 5: NR operating band groups are as defined in clause 3.5.2.

Note 6: The test configuration excludes support for band n51 and it is not required to run this test on band n51 in this release of the specification.

A.8.5.2.3.1.3 Test Requirements

The SS-SINR measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.3 in TS 36.133 [15].

A.8.5.2.3.2 E-UTRAN – NR inter-RAT measurements with FR2 target cell
A.8.5.2.3.2.1 Test Purpose and Environment

The purpose of this test is to verify that the SS- SINR measurement accuracy is within the specified limits. This test will verify the requirements in clause 9.11.3 in TS 36.133 [15] for inter-RAT FR2 SS-SINR measurements.

A.8.5.2.3.2.2 Test Parameters

Supported test configurations are shown in Table A.8.5.2.3.2.2-1. In this test case there are two cells on different carriers. Absolute accuracy requirements of SS-SINR inter-RAT measurement are tested by using test setup in Table A.8.5.2.3.2.2-2 and A.8.5.2.3.2.2-3. In all test cases, Cell 2 is target cell. Cell 1 is the E-UTRA cell which specific test parameters for this test case are specified in Table A.3.7.2.1-1.

Table A.8.5.2.3.2.2-1: SS-SINR Inter-RAT SS-SINR supported test configurations

Configuration

Description

1

LTE FDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

2

LTE TDD, NR 120 kHz SSB SCS, 100 MHz bandwidth, TDD duplex mode

Table A.8.5.2.3.2.2-2: SS-SINR Inter-RAT general test parameters

Parameter

Unit

Test 1

Test 2

Test 3

Cell 2

Cell 2

Cell 2

SSB ARFCN

Freq1

freq1

freq1

Duplex mode

TDD

TDD

TDD

TDD configuration

TDDConf.3.1

TDDConf.3.1

TDDConf.3.1

BWchannel

MHz

100: NRB,c = 66

100: NRB,c = 66

100: NRB,c = 66

Downlink initial BWP configuration

DLBWP.0.1

Uplink initial BWP configuration

ULBWP.0.1

DRX cycle configuration

ms

Not applicable

PDSCH Reference measurement channel

RMSI CORESET Reference Channel

OCNG Patterns

OP.1

OP.1

OP.1

SMTC configuration

SMTC.1

SMTC.1

SMTC.1

SSB configuration

SSB.3 FR2

SSB.3 FR2

SSB.3 FR2

PDSCH/PDCCH subcarrier spacing

kHz

120

120

120

EPRE ratio of PSS to SSS

dB

0

0

0

EPRE ratio of PBCH_DMRS to SSS

EPRE ratio of PBCH to PBCH_DMRS

EPRE ratio of PDCCH_DMRS to SSS

EPRE ratio of PDCCH to PDCCH_DMRS

EPRE ratio of PDSCH_DMRS to SSS

EPRE ratio of PDSCH to PDSCH_DMRS

EPRE ratio of OCNG DMRS to SSSNote 1

Note 1: OCNG shall be used such that both cells are fully allocated and a constant total transmitted power spectral density is achieved for all OFDM symbols.

Note 2: Void

Note 3: Void

Note 4: Void

Table A.8.5.2.3.2.2-3: SS-SINR Inter-RAT OTA related test parameters

Parameter

Unit

Test 1

Test 2

Test 3

Cell 2

Cell 2

Cell 2

Angle of arrival configuration

Setup 1 according to A.3.15.1

Setup 1 according to A.3.15.1

Setup 1 according to A.3.15.1

Assumption for UE beamsNote 10

Rough

Rough

Rough

Note1

dBm/15kHz
Note4

-104.7

-104.7

(Table B.2.3-2 Rx Beam Peak -5dB)

(Note 7)

Note1

dBm/SCS
Note4

-95.7

-95.7

(Table B.2.3-2 Rx Beam Peak +4dB)

(Note 7)

dB

-0.5

11

-1.0

SSB_RPNote2

dBm/SCS Note4

-96. 2

-84.7

(Table B.2.3-2 Rx Beam Peak +3dB)

(Note 8)

SS-SINRNote2

dB

-0.5

11

-1.0

Note2

dB

-0.5

11

-1.0

IoNote2

dBm/95.04 MHz Note4

-63.95

-55.38

(Table B.2.3-2 Rx Beam Peak +35.54dB)

(Note 9)

Note 1: Interference from other cells and noise sources not specified in the test is assumed to be constant over subcarriers and time and shall be modelled as AWGN of appropriate power for to be fulfilled.

Note 2: SSB_RP, SS-SINR, Es/Iot and Io levels have been derived from other parameters for information purposes. They are not settable parameters themselves.

Note 3: Void

Note 4: Equivalent power received by an antenna with 0 dBi gain at the centre of the quiet zone.

Note 5: Void

Note 6: Void

Note 7: Noc for SCS 15kHz is applied at -10log10(8)+4dB above the minimum level specified in Table B.2.3-2 for beam peak. Noc for SCS 120kHz is applied at 4dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 8: SSB_RP is applied at 3dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 9: Io is applied at level 10log10(792)+6.54dB above the minimum level specified in Table B.2.3-2 for beam peak.

Note 10: Information about types of UE beam is given in B.2.1.3, and does not limit UE implementation or test system implementation.

A.8.5.2.3.2.3 Test Requirements

The SS-SINR measurement accuracy for Cell 2 shall fulfil the requirement in clause 9.11.3 in TS 36.133 [15].