8.5.49 CELL_FACH HS-DSCH DRX operation (FDD only)

25.3313GPPProtocol specificationRadio Resource Control (RRC)Release 17TS

The CELL_FACH HS-DSCH DRX operation determines the occasions in which the UE is allowed to discontinuously receive HS-DSCH in CELL_FACH state.

If the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE, the UE shall:

1> if E-DCH resource index information is received from lower layers; and

1> if "E-DCH resource index" received from MAC with the CMAC-STATUS primitive is not equal to -1:

2> stop the timer T321, if it is ongoing;

2> continuously receive HS-DSCH.

1> if E-DCH enhanced random access process termination information is received from lower layers:

2> start the timer T321.

1> if the value of the IE "DRX Interruption by HS-DSCH data" received from System Information Block Type 5 or System Information Block Type 5bis is TRUE:

2> if the UE does not have an E-DCH resource assigned and data on HS-DSCH or HS-SCCH order for NodeB triggered HS-DPCCH transmission is received:

3> start or, if the timer is running, restart the timer T321 at the end of the HS-SCCH subframe addressed to this UE.

3> continuously receive HS-DSCH.

Upon timer T321 expiry:

1> the UE shall receive HS-DSCH during the frame(s) with the SFN value fulfilling the following inequality:

(SFN  H-RNTI + 65536) mod DRX_cycle < Rx_burst

where:

– H-RNTI is the value stored in the variable H_RNTI;

– DRX_cycle is the length of the DRX cycle in radio frames, signalled by the IE "HS-DSCH DRX cycle_FACH";

– Rx burst is the period in frames within the DRX cycle, in which the UE receives HS-DSCH, signalled by the IE "HS-DSCH Rx burst_FACH".

For FDD when in CELL_FACH state, when the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE,
then the UE in FDD mode shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9, according to the requirements in [4] and [19].