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Content for  TR 21.905  Word version:  17.0.0

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5  EquationsWord‑p. 60
3GPP TR 21 905: equation 1 example
The ratio of the received energy per PN chip of the CPICH to the total transmit power spectral density at the Node_B (SS) antenna connector.
3GPP TR 21 905: equation 2 example
Average energy per PN chip for DPCH.
3GPP TR 21 905: equation 3 example
The ratio of the transmit energy per PN chip of the DPCH to the total transmit power spectral density at the Node_B antenna connector.
3GPP TR 21 905: equation 4 example
The ratio of the transmit energy per PN chip of the DPCCH to the total transmit power spectral density at the Node B antenna connector.
3GPP TR 21 905: equation 5 example
The ratio of the transmit energy per PN chip of the DPDCH to the total transmit power spectral density at the Node B antenna connector.
3GPP TR 21 905: equation 6 example
Average energy per PN chip.
3GPP TR 21 905: equation 7 example
The ratio of the average transmit energy per PN chip for different fields or physical channels to the total transmit power spectral density.
3GPP TR 21 905: equation 8 example
Frequency of unwanted signal
3GPP TR 21 905: equation 9 example
The total received power spectral density, including signal and interference, as measured at the UE antenna connector.
3GPP TR 21 905: equation 10 example
The power spectral density of the adjacent frequency channel as measured at the UE antenna connector.
3GPP TR 21 905: equation 11 example
The power spectral density of a band limited white noise source (simulating interference from cells, which are not defined in a test procedure) as measured at the UE antenna connector.The power spectral density of a band limited white noise source (simulating interference from other cells) as measured at the UE antenna connector.
3GPP TR 21 905: equation 12 example
The total transmit power spectral density of the Forward down link at the base stationNode_B antenna connector.
3GPP TR 21 905: equation 13 example
The received power spectral density of the down link as measured at the UE antenna connector.
3GPP TR 21 905: equation 14 example
Unwanted signal power level.
3GPP TR 21 905: equation 15 example
Average energy per PN chip for the OCNS.
3GPP TR 21 905: equation 16 example
The ratio of the average transmit energy per PN chip for the OCNS to the total transmit power spectral density.
3GPP TR 21 905: equation 17 example
Average* energy per PN chip for P-CCPCH.
3GPP TR 21 905: equation 18 example
The ratio of the received P-CCPCH energy per chip to the total received power spectral density at the UE antenna connector.
3GPP TR 21 905: equation 19 example
The ratio of the average* transmit energy per PN chip for the P-CCPCH to the total transmit power spectral density.
3GPP TR 21 905: equation 20 example
Average* energy per PN chip for P-CPICH.
3GPP TR 21 905: equation 21 example
Average* energy per PN chip for PICH.
3GPP TR 21 905: equation 22 example
The ratio of the received energy per PN chip of the PICH to the total transmit power spectral density at the Node B (SS) antenna connector.
3GPP TR 21 905: equation 23 example
The ratio of the received PCCPCH energy per chip to the total received power spectral density at the UE antenna connector.
3GPP TR 21 905: equation 24 example
The ratio of the average transmit energy per PN chip for the PCCPCH to the total transmit power spectral density.
3GPP TR 21 905: equation 25 example
The ratio of the sum DPCH_Ex for one service in case of multicode to the total tramsmit power spectral density of the downlink at the BS antenna connector.
3GPP TR 21 905: equation 26 example
Average energy per PN chip for S-CCPCH.
3GPP TR 21 905: equation 27 example
Average* energy per PN chip for S-CPICH.
3GPP TR 21 905: equation 28 example
Average* energy per PN chip for SCH.
3GPP TR 21 905: equation 29 example
Average energy per PN chip for SCCPCH.
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