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E [N] Estimation of Measurement Uncertainty    E.1 Mismatch uncertainty between measurement receiver and the probe antenna    E.2 FFS    E.3 Insertion loss of the probe antenna cable    E.4 Insertion loss of the probe antenna attenuator (if used)    E.5 Insertion loss of the RF relays (if used)    E.6 Influence of the antenna cable    E.7 Absolute gain of the probe antenna    E.8 Measurement Receiver: uncertainty of absolute level    E.9 Measurement distance    E.10 Quality of quiet zone    E.11 Tx-power drift of DUT    E.12 Uncertainty related to the use of phantom    E.13 Coarse sampling grid    E.14 Random uncertainty    E.15 Uncertainty of network analyzer    E.16 Uncertainty of the gain/efficiency of the calibration antenna    E.17 Base station simulator: uncertainty of the absolute level    E.18 BER measurement: output level step resolution    E.19 Statistical uncertainty of the BER measurement    E.20 BER normalization uncertainty    E.21 DUT sensitivity drift    E.22 Cable loss measurement uncertainty    E.23 Signal generator: uncertainty of the absolute output level    E.24 Signal generator: output level stability    E.25 Insertion loss: Calibration antenna feed cable    E.26 Insertion loss: Calibration antenna attenuator (if used)    E.27 Examples of uncertainty budget calculations for TRP(Informative)    E.28 Examples of uncertainty budget calculations for TRS(Informative)    E.29 Examples of uncertainty budget calculations for TRP, reverberation chamber method (Informative)    E.30 Examples of uncertainty budget calculations for TRS, reverberation chamber method (Informative)   
...

 

E  (Normative)   Estimation of Measurement Uncertainty   PDF-p. 111      Up
E.1   Mismatch uncertainty between measurement receiver and the probe antenna   PDF-p. 117
E.2   FFS
E.3   Insertion loss of the probe antenna cable
E.4   Insertion loss of the probe antenna attenuator (if used)   PDF-p. 118
E.5   Insertion loss of the RF relays (if used)
E.6   Influence of the antenna cable
E.7   Absolute gain of the probe antenna
E.8   Measurement Receiver: uncertainty of absolute level      Up
E.9   Measurement distance
E.10   Quality of quiet zone
E.11   Tx-power drift of DUT   PDF-p. 120
E.12   Uncertainty related to the use of phantom
E.13   Coarse sampling grid
E.14   Random uncertainty   PDF-p. 122
E.15   Uncertainty of network analyzer
E.16   Uncertainty of the gain/efficiency of the calibration antenna
E.17   Base station simulator: uncertainty of the absolute level   PDF-p. 123
E.18   BER measurement: output level step resolution
E.19   Statistical uncertainty of the BER measurement
E.20   BER normalization uncertainty
E.21   DUT sensitivity drift
E.22   Cable loss measurement uncertainty
E.23   Signal generator: uncertainty of the absolute output level   PDF-p. 125
E.24   Signal generator: output level stability
E.25   Insertion loss: Calibration antenna feed cable
E.26   Insertion loss: Calibration antenna attenuator (if used)
E.27   Examples of uncertainty budget calculations for TRP(Informative)
E.28   Examples of uncertainty budget calculations for TRS(Informative)   PDF-p. 131
E.29   Examples of uncertainty budget calculations for TRP, reverberation chamber method (Informative)   PDF-p. 136
E.30   Examples of uncertainty budget calculations for TRS, reverberation chamber method (Informative)   PDF-p. 140

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