F.1.5 Measurement of Channel State Information reporting

36.521-13GPPEvolved Universal Terrestrial Radio Access (E-UTRA)Part 1: Conformance testingRadio transmission and receptionRelease 17TSUser Equipment (UE) conformance specification

Table F.1.5-1: Maximum Test System Uncertainty for Channel State Information reporting

Subclause

Maximum Test System Uncertainty1

Derivation of Test System Uncertainty

9.2.1.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-0

± 0.3 dB

Signal-to-noise ratio uncertainty ±0.3 dB

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.2.1.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-0

± 0.3 dB

Same as 9.2.1.1

9.2.1.3_C.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 for eICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.2.1.4_C.1 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 for eICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.2.1.5_E.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.2.1.6_E.1 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.2.1.7 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 for 256QAM in DL

± 0.3 dB

Same as 9.2.1.1

9.2.1.8 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 for 256QAM in DL

± 0.3 dB

Same as 9.2.1.1

9.2.2.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-1

± 0.3 dB

Signal-to-noise ratio uncertainty ±0.3 dB

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.2.2.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-1

± 0.3 dB

Same as 9.2.1.1

9.2.3.1_D FDD CQI Reporting under AWGN conditions – PUCCH 1-1 for eDL-MIMO

± 0.3 dB

Same as 9.2.2.1

9.2.3.2_D TDD CQI Reporting under AWGN conditions – PUCCH 1-1 for eDL-MIMO

± 0.3 dB

Same as 9.2.2.1

9.2.3.1A FDD CQI Reporting under AWGN conditions – PUCCH 1-1 for FD-MIMO (With channelMeasRestriction configured)

± 0.3 dB

Same as 9.2.2.1

9.2.3.2A TDD CQI Reporting under AWGN conditions – PUCCH 1-1 for FD-MIMO (With channelMeasRestriction configured)

± 0.3 dB

Same as 9.2.2.1

9.2.4.1A FDD CQI Reporting under AWGN conditions – Single CSI Process With interferenceMeasRestriction configured

± 0.3 dB

Same as 9.2.2.1

9.2.4.1_F FDD CQI Reporting under AWGN conditions – Single CSI Process for CoMP

± 0.3 dB

Same as 9.2.2.1

9.2.4.2A TDD CQI Reporting under AWGN conditions – Single CSI Process With interferenceMeasRestriction configured

± 0.3 dB

Same as 9.2.2.1

9.2.4.2_F TDD CQI Reporting under AWGN conditions – Single CSI Process for CoMP

± 0.3 dB

Same as 9.2.2.1

9.2.5 TDD CQI Reporting under AWGN conditions – PUCCH 1-1 (when csi-SubframeSet – r12 and EIMTA-MainConfigServCell-r12 are configured)

± 0.3 dB

Same as 9.2.1.1

9.2.6.1 LAA CQI Reporting under AWGN Conditions with Frame Structure Type 3 with FDD as Pcell (PUSCH 3-0)

± 0.3 dB

Same as 9.2.2.1

9.2.6.2 LAA CQI Reporting under AWGN Conditions with Frame Structure Type 3 with TDD as Pcell (PUSCH 3-0)

± 0.3 dB

Same as 9.2.2.1

9.2.7.1 LAA CQI Reporting under AWGN Conditions with Frame Structure Type 3 with FDD as Pcell (PUSCH 3-1)

± 0.3 dB

Same as 9.2.1.1

9.2.7.2 LAA CQI Reporting under AWGN Conditions with Frame Structure Type 3 with TDD as Pcell (PUSCH 3-1)

± 0.3 dB

Same as 9.2.1.1

9.3.1.1.1 FDD CQI Reporting under fading conditions – PUSCH 3-0

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.1.1.2 TDD CQI Reporting under fading conditions – PUSCH 3-0

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.1.5 TDD CQI Reporting under fading conditions – PUCCH 3-0 (when csi-SubframeSet – r12 is configured)

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.2.1_D FDD CQI Reporting under fading conditions – PUSCH 3-1 for eDL-MIMO

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.2.2_D TDD CQI Reporting under fading conditions – PUSCH 3-1 for eDL-MIMO

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.2.3 FDD CQI Reporting under fading conditions – PUSCH 3-1 for 256QAM in DL

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.2.4 TDD CQI Reporting under fading conditions – PUSCH 3-1 for 256QAM in DL

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.2.6 TDD CQI Reporting under fading conditions – PUCCH 3-1 (when csi-SubframeSet – r12 is configured with one CSI process)

± 0.6 dB

Same as 9.3.1.1.1

9.3.1.3.1_E.1 FDD CQI Reporting under fading conditions – PUSCH 3-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Fading profile power uncertainty ±0.5 dB

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.3.1.3.2_E.1 TDD CQI Reporting under fading conditions – PUSCH 3-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Fading profile power uncertainty ±0.5 dB

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.3.2.1.1 FDD CQI Reporting under fading conditions – PUCCH 1-0

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.2.1.1_1 FDD CQI Reporting under fading conditions – PUCCH 1-0

± 0.6 dB

Same as 9.3.2.1.1

9.3.2.1.2 TDD CQI Reporting under fading conditions – PUCCH 1-0

± 0.6 dB

Same as 9.3.2.1.1

9.3.2.1.2_1 TDD CQI Reporting under fading conditions – PUCCH 1-0

± 0.6 dB

Same as 9.3.2.1.1

9.3.2.2.1_D FDD CQI Reporting under fading conditions – PUCCH 1-1 for eDL-MIMO

± 0.6 dB

Same as 9.3.2.1.1

9.3.2.2.2_D TDD CQI Reporting under fading conditions – PUCCH 1-1 for eDL-MIMO

± 0.6 dB

Same as 9.3.2.1.1

9.3.3.1.1 FDD CQI Reporting under fading conditions and frequency-selective interference – PUSCH 3-0

± 1.2 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Ior/Iot ratio uncertainty ±1.0 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Ior/Iot ratio uncertainty 2 + Fading profile power uncertainty 2)

Ior absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.3.1.2 TDD CQI Reporting under fading conditions and frequency-selective interference – PUSCH 3-0

± 1.2 dB

Same as 9.3.3.1.1

9.3.4.1.1 FDD CQI Reporting under fading conditions – PUSCH 2-0

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.4.1.2 TDD CQI Reporting under fading conditions – PUSCH 2-0

± 0.6 dB

Same as 9.3.4.1.1

9.3.4.2.1 FDD CQI Reporting under fading conditions – PUCCH 2-0

± 0.6 dB

Same as 9.3.4.1.1

9.3.4.2.2 TDD CQI Reporting under fading conditions – PUCCH 2-0

± 0.6 dB

Same as 9.3.4.1.1

9.3.5.1.1 FDD CQI Reporting under fading conditions – PUCCH 1-0 – Enhanced Performance Requirement Type A

Ês1/Noc ± 0.6 dB

Ês2/Noc ± 0.3 dB

Overall system uncertainty for fading conditions on Cell 1 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB for single Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.5.1.2 TDD CQI Reporting under fading conditions – PUCCH 1-0 – Enhanced Performance Requirement Type A

Same as 9.3.5.1.1

Same as 9.3.5.1.1

9.3.5.2.1 FDD CQI Reporting under fading conditions – PUCCH 1-1 – Enhanced Performance Requirement Type A

Ês1/Noc ± 0.8 dB

Ês2/Noc ± 0.3 dB

Overall system uncertainty for fading conditions on Cell 1 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB for two Tx antennas.

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.5.2.2 TDD CQI Reporting under fading conditions – PUCCH 1-1 – Enhanced Performance Requirement Type A

Same as 9.3.5.2.1

Same as 9.3.5.2.1

9.3.6.1_F.1 FDD CQI Reporting under fading conditions Single CSI processes for CoMP

Ês/Noc ± 0.8 dB

Overall system uncertainty for fading conditions on TP1 and TP2 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for multiple Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.6.1_F.2 FDD CQI Reporting under fading conditions Three CSI processes for CoMP

Same as 9.3.6.1_F.1

Same as 9.3.6.1_F.1

9.3.6.1_F.3 FDD CQI Reporting under fading conditions Four CSI processes for CoMP

Same as 9.3.6.1_F.1

Same as 9.3.6.1_F.1

9.3.6.2_F.1 TDD CQI Reporting under fading conditions Single CSI processes for CoMP

Ês/Noc ± 0.8 dB

Overall system uncertainty for fading conditions on TP1 and TP2 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for multiple Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.6.2_F.2 TDD CQI Reporting under fading conditions Three CSI processes for CoMP

Same as 9.3.6.2_F.1

Same as 9.3.6.2_F.1

9.3.6.2_F.3 TDD CQI Reporting under fading conditions Four CSI processes for CoMP

Same as 9.3.6.2_F.1

Same as 9.3.6.2_F.1

9.3.7.1 FDD CQI Reporting under fading conditions – PUSCH 3-2 for eDL MIMO Enhancement

± 0.8 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for multiple Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.7.2 TDD CQI Reporting under fading conditions – PUSCH 3-2 for eDL MIMO Enhancement

± 0.8 dB

Same as 9.3.7.1

9.3.8.1.1 FDD CQI Reporting under fading conditions – PUCCH 1-1 (Cell Specific Reference Symbols) TM4 – Enhanced Performance Receiver Type B

Ês/Noc ± 0.8 dB for each cell

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty

2. Fading profile power uncertainty

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

Signal-to-noise ratio uncertainty ±0.3 dB

Fading profile power uncertainty ±0.7 dB for Tx Diversity

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.8.1.2 TDD CQI Reporting under fading conditions – PUCCH 1-1 (Cell Specific Reference Symbols) TM4 – Enhanced Performance Receiver Type B

Same as 9.3.8.1.1

Same as 9.3.8.1.1

9.3.8.2.1 FDD CQI Reporting under fading conditions – PUCCH 1-1 (CSI Reference Symbol) TM9 – Enhanced Receiver Type B

Ês/Noc ± 0.8 dB for each cell

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty

2. Fading profile power uncertainty

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

Signal-to-noise ratio uncertainty ±0.3 dB

Fading profile power uncertainty ±0.7 dB for Tx Diversity

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.8.2.2 TDD CQI Reporting under fading conditions – PUCCH 1-1 (CSI Reference Symbol) TM9 – Enhanced Receiver Type B

Same as 9.3.8.2.1

Same as 9.3.8.2.1

9.3.8.3.1 FDD CQI Reporting under fading conditions – PUCCH 1-1 (CSI Reference Symbol) TM10 with TM9 interference – Enhanced Receiver Type B

Ês/Noc ± 0.8 dB for each cell

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty

2. Fading profile power uncertainty

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

Signal-to-noise ratio uncertainty ±0.3 dB

Fading profile power uncertainty ±0.7 dB for Tx Diversity

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.3.8.3.2 TDD CQI Reporting under fading conditions – PUCCH 1-1 (CSI Reference Symbol) TM10 with TM9 interference – Enhanced Receiver Type B

Same as 9.3.8.3.1

Same as 9.3.8.3.1

9.4.1.1.1 FDD PMI Reporting – PUSCH 3-1 (Single PMI)

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.4.1.1.2 TDD PMI Reporting – PUSCH 3-1 (Single PMI)

± 0.6 dB

Same as 9.4.1.1.1

9.4.1.2.1 FDD PMI Reporting – PUCCH 2-1 (Single PMI)

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.4.1.2.2 TDD PMI Reporting – PUCCH 2-1 (Single PMI)

± 0.6 dB

Same as 9.4.1.2.1

9.4.1.3.1_D FDD Reporting of PMI – PUSCH 3-1 (Single PMI) for eDL-MIMO

± 0.6 dB

Same as 9.4.1.1.1

9.4.1.3.2_D TDD Reporting of PMI – PUSCH 3-1 (Single PMI) for eDL-MIMO

± 0.6 dB

Same as 9.4.1.1.1

9.4.1.3.3 FDD PMI Reporting with 12Tx Class A codebook – PUSCH 3-1 (Single PMI) for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.4.1.3.4 TDD PMI Reporting with 12Tx Class A codebook – PUSCH 3-1 (Single PMI) for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.4.1.4.1 FDD PMI Reporting with 4Tx enhanced codebook – PUCCH 1-1 (Single PMI) for eDL MIMO Enhancement

± 0.8 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for multiple Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.4.1.4.2 TDD PMI Reporting with 4Tx enhanced codebook – PUCCH 1-1 (Single PMI) for eDL MIMO Enhancement

± 0.8 dB

Same as 9.4.1.4.1

9.4.1.4.3 FDD PMI Reporting with Class B alternative codebook – PUCCH 1-1 for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.4.1.4.4 TDD PMI Reporting with Class B alternative codebook – PUCCH 1-1 for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.4.2.1.1 FDD PMI Reporting – PUSCH 1-2 (Multiple PMI)

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.4.2.1.1_1 FDD PMI Reporting – PUSCH 1-2 (Multiple PMI)

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.1.2 TDD PMI Reporting – PUSCH 1-2 (Multiple PMI)

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.1.2_1 TDD PMI Reporting – PUSCH 1-2 (Multiple PMI)

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.2.1 FDD PMI Reporting – PUSCH 2-2 (Multiple PMI)

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.2.2 TDD PMI Reporting – PUSCH 2-2 (Multiple PMI)

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.3.1_D FDD PMI Reporting – PUSCH 1-2 (Multiple PMI) for eDL-MIMO

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.3.2_D TDD PMI Reporting – PUSCH 1-2 (Multiple PMI) for eDL-MIMO

± 0.6 dB

Same as 9.4.2.1.1

9.4.2.3.3 TDD PMI Reporting with 4Tx enhanced codebook – PUSCH 1-2 (Multiple PMI) for eDL-MIMO Enhancement

± 0.8 dB

Same as 9.4.1.4.1

9.4.2.3.4 TDD PMI Reporting with 4Tx enhanced codebook – PUSCH 1-2 (Multiple PMI) for eDL-MIMO Enhancement

± 0.8 dB

Same as 9.4.1.4.1

9.4.2.3.5 FDD PMI Reporting with Class A 16Tx codebook – PUSCH 1-2 (Multiple PMI) for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.4.2.3.6 TDD PMI Reporting with Class A 16Tx codebook – PUSCH 1-2 (Multiple PMI) for FD-MIMO

± 0.8 dB

Same as 9.4.1.4.1

9.5.1.1 FDD RI Reporting– PUCCH 1-1

± 0.8 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for MIMO

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.5.1.1_1 FDD RI Reporting– PUCCH 1-1 (Release 10)

± 0.8 dB

Same as 9.5.1.1

9.5.1.1_2 FDD RI Reporting– PUCCH 1-1 (Release 11)

± 0.8 dB

Same as 9.5.1.1

9.5.1.2 TDD RI Reporting– PUSCH 3-1

± 0.8 dB

Same as 9.5.1.1

9.5.1.2_1 TDD RI Reporting– PUSCH 3-1 (Release 10)

± 0.8 dB

Same as 9.5.1.1

9.5.1.2_2 TDD RI Reporting– PUSCH 3-1 (Release 11)

± 0.8 dB

Same as 9.5.1.1

9.5.2.1_D FDD RI Reporting – PUCCH 1-1 for eDL-MIMO

± 0.8 dB

Same as 9.5.1.1

9.5.2.2_D TDD RI Reporting – PUCCH 1-1 for eDL-MIMO

± 0.8 dB

Same as 9.5.1.1

9.5.3.1_C.1 FDD RI Reporting – PUCCH 1-0 for eICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Fading profile power uncertainty ±0.7 dB for MIMO

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.5.3.2_C.1 TDD RI Reporting – PUCCH 1-0 for eICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Fading profile power uncertainty ±0.7 dB for MIMO

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.5.4.1_E.1 FDD RI Reporting – PUCCH 1-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Fading profile power uncertainty ±0.7 dB for MIMO

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.5.4.2_E.1 TDD RI Reporting – PUCCH 1-0 for feICIC (non-MBSFN ABS)

Noc2

Noc1 / Noc2

Noc3 / Noc2

Cell 1 Es / Noc2

Cell 2 Es / Noc2

Cell 3 Es / Noc2

Fading profile power uncertainty ±0.7 dB for MIMO

Noc2, Noc ratios and Es / Noc2 ratios are generic values as specified at end of this table

9.5.5.1_F.1 FDD RI Reporting with Single CSI process for CoMP

± 0.8 dB for each TP

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for MIMO

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.5.5.1_F.2 FDD RI Reporting with Multiple CSI processes for CoMP

± 0.8 dB for each TP

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for MIMO

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.5.5.2_F.1 TDD RI Reporting with Single CSI process for CoMP

± 0.8 dB for each TP

Same as 9.5.5.1_F.1

9.5.5.2_F.2 TDD RI Reporting with Multiple CSI processes for CoMP

± 0.8 dB for each TP

Same as 9.5.5.1_F.2

9.6.1.1_A.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 for CA (2DL CA)

± 0.3 dB for each CC

Signal-to-noise ratio uncertainty ±0.3 dB

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.6.1.1_A.2 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 (3DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.1_A.4 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 (5DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.1_A.5 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 (6DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.1_A.6 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 (7DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.1 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 for 2DL CA

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 (3DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.3 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 (4DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.4 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 (5DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.5 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 (6DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.2_A.6 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 (7DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.3.1 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for FDD PCell (2DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.3.2 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for FDD PCell (3DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.3.3 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for FDD PCell (4DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.3.4 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for FDD PCell (5DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.4.1 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for TDD PCell (2DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.4.2 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for TDD PCell (3DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.4.3 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for TDD PCell (4DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.6.1.4.4 TDD FDD CA CQI Reporting under AWGN conditions – PUCCH 1-0 for TDD PCell (5DL CA)

Same as 9.6.1.1_A.1

Same as 9.6.1.1_A.1

9.7.1.1 FDD and Half duplex FDD CQI reporting definition under AWGN conditions for UE category 0

± 0.3 dB

Same as 9.2.1.1

9.7.1.2 TDD CQI reporting definition under AWGN conditions for UE category 0

± 0.3 dB

Same as 9.2.1.1

9.7.2.1 FDD and Half duplex FDD CQI reporting definition under fading conditions for UE category 0

± 0.6 dB

Same as 9.3.1.1.1

9.7.2.2 TDD CQI reporting definition under fading conditions for UE category 0

± 0.6 dB

Same as 9.3.1.1.1

9.7_1.1.1 FDD CQI reporting under AWGN conditions – PUCCH 1-0 for UE category 1bis

± 0.3 dB

Same as 9.2.1.1

9.7_1.1.2 TDD CQI reporting under AWGN conditions – PUCCH 1-0 for UE category 1bis

± 0.3 dB

Same as 9.2.1.1

9.7_1.1.3 FDD CQI reporting under fading conditions – PUSCH 3-0 for UE category 1bis

± 0.6 dB

Same as 9.3.1.1.1

9.7_1.1.4 TDD CQI reporting under fading conditions – PUSCH 3-0 for UE category 1bis

± 0.6 dB

Same as 9.3.1.1.1

9.8.1.1 FDD and Half duplex FDD CQI reporting definition under AWGN conditions for UE category M1

± 0.3 dB

Same as 9.2.1.1

9.8.1.2 TDD CQI reporting definition under AWGN conditions for UE category M1

± 0.3 dB

Same as 9.2.1.1

9.8.2.1 FDD and Half duplex FDD CQI reporting definition under fading conditions for UE category M1

± 0.6 dB

Same as 9.3.1.1.1

9.8.2.2 TDD CQI reporting definition under fading conditions for UE category M1

± 0.6 dB

Same as 9.3.1.1.1

9.9.1.1.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-0 with Rank 1 1×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.1.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-0 with Rank 1 1×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.2.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 2 4×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.2.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 2 8×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.3.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 4 4×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.3.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 4 4×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.4.1 FDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 3 4×4

± 0.3 dB

Same as 9.2.1.1

9.9.1.4.2 TDD CQI Reporting under AWGN conditions – PUCCH 1-1 with rank 3 8×4

± 0.3 dB

Same as 9.2.1.1

9.9.2.1.1 FDD CQI Reporting under fading conditions – PUCCH 1-0 – Enhanced Performance Requirement Type A 1×4

Ês1/Noc ± 0.6 dB

Ês2/Noc ± 0.3 dB

Overall system uncertainty for fading conditions on Cell 1 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB for single Tx

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.9.2.1.2 TDD CQI Reporting under fading conditions – PUCCH 1-0 – Enhanced Performance Requirement Type A 1×4

Ês1/Noc ± 0.6 dB

Ês2/Noc ± 0.3 dB

Same as 9.9.2.1.1

9.9.2.2.1 FDD CQI Reporting under fading conditions – PUCCH 1-1 – Enhanced Performance Requirement Type A 2×4

Ês1/Noc ± 0.8 dB

Ês2/Noc ± 0.3 dB

Overall system uncertainty for fading conditions on Cell 1 comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.7 dB for two Tx antennas.

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.9.2.2.2 TDD CQI Reporting under fading conditions – PUCCH 1-1 – Enhanced Performance Requirement Type A 2×4

Ês1/Noc ± 0.8 dB

Ês2/Noc ± 0.3 dB

Same as 9.9.2.2.1

9.9.3.1.1 TDD PMI Reporting – PUSCH 3-1 (Single PMI) 8×4

± 0.6 dB

Same as 9.4.1.1.1

9.9.4.1.1 FDD RI Reporting– PUCCH 1-1 4×4

± 0.8 dB

Same as 9.5.1.1

9.9.4.1.2 TDD RI Reporting– PUSCH 3-1 4×4

± 0.8 dB

Same as 9.5.1.1

9.9.4.2.1 FDD RI Reporting- PUCCH 1-1 for eDL-MIMO 1×4

± 0.8 dB

Same as 9.5.1.1

9.9.4.2.2 TDD RI Reporting- PUCCH 1-1 for eDL-MIMO 1×4

± 0.8 dB

Same as 9.5.1.1

9.10.1.1 FDD CSI-RS Resource Indicator Reporting – PUSCH 3-1

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.10.1.2 FDD CSI-RS Resource Indicator Reporting – PUSCH 3-1

± 0.6 dB

Same as 9.10.1.1

9.12.1.1 FDD CQI Reporting under fading conditions (with cell-specific reference symbols configured for UE supporting short TTI)

± 0.6 dB

Overall system uncertainty for fading conditions comprises two quantities:

1. Signal-to-noise ratio uncertainty ±0.3 dB

2. Fading profile power uncertainty ±0.5 dB

Items 1 and 2 are assumed to be uncorrelated so can be root sum squared:

Test System uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2)

AWGN flatness and signal flatness ±2.0 dB not expected to have any significant effect

AWGN absolute power uncertainty ±3.0 dB not expected to have any significant effect

9.12.1.1 TDD CQI Reporting under fading conditions (with cell-specific reference symbols configured for UE supporting short TTI)

± 0.6 dB

Same as 9.12.1.1

9.12.2.1 FDD CQI Reporting under fading conditions (with CSI reference symbols configured for UE supporting short TTI)

± 0.6 dB

Same as 9.12.1.1

9.12.2.2 FDD CQI Reporting under fading conditions (with CSI reference symbols configured for UE supporting short TTI)

± 0.6 dB

Same as 9.12.1.1

In addition, the following Test System uncertainties and related constraints apply:

AWGN Bandwidth

≥ 1.08MHz, 2.7MHz, 4.5MHz, 9MHz, 13.5MHz, 18MHz;

NRB x 180kHz according to BWConfig

AWGN absolute power uncertainty, averaged over BWConfig Note 4

±3 dB

AWGN flatness and signal flatness, max deviation for any Resource Block, relative to average over BWConfig

±2 dB

AWGN peak to average ratio

≥10 dB @0.001%

Signal-to noise ratio uncertainty, averaged over downlink transmission Bandwidth

±0.3 dB (includes uncertainty in precoding applied by the test system, where applicable)

Signal-to noise ratio variation for any resource block, relative to average over downlink transmission Bandwidth

±0.5 dB

Noc2 absolute power uncertainty, averaged over BWConfig Note 5

±3 dB

Noc1 / Noc2 ratio uncertainty, averaged over BWConfig Note 5

±0.3 dB

Noc3 / Noc2 ratio uncertainty, averaged over BWConfig Note 5

±0.3 dB

Es / Noc2 ratio (SNR) uncertainty, averaged over downlink transmission Bandwidth Note 5

±0.3 dB (includes uncertainty in precoding applied by the test system, where applicable)

Fading profile power uncertainty

Test-specific

Fading profile delay uncertainty, relative to frame timing

±5 ns (excludes absolute errors related to baseband timing)

Downlink channel matrix uncertainties:

Tx phase error, as shown in Figure F.1.5-1

is defined for each Tx antenna up to NTx

≤10°

is constant for the duration of the test

Rx phase error, as shown in Figure F.1.5-1

is defined for each Rx antenna up to NRx

There is no constraint on the value of except that it is constant for the duration of the test

Note 1: Only the overall stimulus error is considered. The effect of errors in the throughput measurements due to finite test duration is not considered.

Note 2: The AWGN parameters apply to all test cases except 9.3.3.1.1 and 9.3.3.1.2. The fading parameters apply to test cases using fading

Note 3: Downlink channel matrix uncertainties apply to eDL-MIMO CSI test cases

Note 4: Applies for test cases which specify Noc, a single value that remains constant with time.

Note 5: Applies for test cases which specify Noc1, Noc2 and Noc3, that are symbol or subframe specific.

Figure F.1.5-1: Location of Tx Phase error and Rx Phase error for eDL-MIMO (Informative)