Method and device of performing multi-radio access bearer power scaling

The invention claimed is: 1. A method performed in a user equipment, UE, operating in a wireless communication network, of performing power scaling on uplink transmissions to a receiving radio access node, RAN, on a multi-radio access bearer, multi-RAB, wherein a Dedicated Physical Data Channel, DPDCH, and an enhanced Dedicated Physical Data Channel, E-DPDCH are configured for uplink transmissions from the UE to the receiving RAN, the method comprising the steps of: determining that a total UE transmit power exceeds a predetermined maximum power limit value; reducing the total UE transmit power to the predetermined maximum power limit value, by reducing one or more E-DPDCH gain factors, βed,k, by a scaling factor to one or more reduced power scaling values βed,k,reduced; and applying DTX on enhanced Dedicated Physical Control Channel, E-DPCCH, when data is transmitted on the DPDCH and a predetermined minimum E-DPDCH gain factor, ‘smallest quantised βed,k value’, is reached for all E-DPDCH gain factors βed,k, and DTX is applied for all E-DPDCHs. 2. The method of claim 1 , wherein the total UE transmit power is divided between at least one DPDCH and a DPCCH according to a power ratio when data is transmitted on the at least one DPDCH. 3. The method of claim 2 , comprising: further reducing the total UE transmit power whilst maintaining the power ratio when the total UE transmit power still exceeds the predetermined maximum power limit. 4. The method of claim 1 : when a power headroom of the UE increases, cancelling DTX on E-DPCCH when DTX is cancelled on at least one E-DPDCH. 5. The method of claim 1 , wherein the wireless communication network is Universal Mobile Telecommunications Systems, UMTS, wideband code division multiple access, W-CDMA. 6. A user equipment, UE, for a wireless communication network, the UE being configured for performing power scaling on uplink transmission to a receiving radio access node, RAN, on a multi-radio access bearer, multi-RAB, wherein a Dedicated Physical Data Channel, DPDCH, and an enhanced Dedicated Physical Data Channel E-DPDCH are configured for uplink transmission from the UE to the receiving RAN, the UE comprising a radio transceiving circuitry; and an enhanced uplink, EUL, processor, the processor configured to: determine that a total UE transmit power exceeds a predetermined maximum power limit value; reduce the total UE transmit power to the predetermined maximum value by reducing one or more E-DPDCH gain factors, βed,k, by a scaling factor to one or more reduced power scaling values βed,k,reduced; determine a DPDCH transmission status; apply DTX on enhanced Dedicated Physical Control Channel, E-DPCCH, when data is transmitted on the DPDCH and when a predetermined minimum E-DPDCH gain factor, ‘smallest quantised βed,k value’, is reached for all E-DPDCH gain factors, βed,k, and DTX is applied for all E-DPDCHs. 7. The user equipment, UE, of claim 6 , wherein the processor is further configured to divide the total UE transmit power between at least one DPDCH and a DPCCH according to a power ratio. 8. The user equipment, UE, of claim 7 , wherein the processor is further configured to further reduce the total UE transmit power to the predetermined maximum power limit value whilst maintaining the power ratio. 9. The user equipment, UE, of claim 6 , wherein the processor is configured to cancel DTX on the E-DPCCH when DTX is cancelled on at least one E-DPDCH. 10. The user equipment, UE, of claim 6 , wherein the wireless communication network is Universal Mobile Telecommunications Systems, UMTS, wideband code division multiple access, W-CDMA. 11. A user equipment (UE) for a wireless communication network, the UE comprising computer readable code which, when run on a processing circuitry of the UE causes the UE to perform power scaling on uplink transmissions to a receiving radio access node, RAN, on a multi-radio access bearer, multi-RAB, wherein a Dedicated Physical Data Channel, DPDCH, and an enhanced Dedicated Physical Data Channel, E-DPDCH are configured for uplink transmissions from the UE to the receiving RAN, the UE is further configured to: determine that a total UE transmit power exceeds a predetermined maximum power limit value; reduce (S 32 ) the total UE transmit power to the predetermined maximum power limit value, by reducing one or more E-DPDCH gain factors, βed,k, by a scaling factor to one or more reduced power scaling values βed,k,reduced; and apply DTX on enhanced Dedicated Physical Control Channel, E-DPCCH, when data is transmitted on the DPDCH and a predetermined minimum E-DPDCH gain factor, or a smallest quantised βed,k value, is reached for all E-DPDCH gain factors βed,k, and DTX is applied for all E-DPDCHs. 12. The user equipment of claim 11 , wherein the total UE transmit power is divided between at least one DPDCH and a DPCCH according to a power ratio when data is transmitted on the at least one DPDCH. 13. The user equipment of claim 12 , wherein the computer readable code, when run on the processing circuitry, is further configured to cause the UE to further reduce the total UE transmit power whilst maintaining the power ratio when the total UE transmit power still exceeds the predetermined maximum power limit. 14. The user equipment of claim 11 wherein when a power headroom of the UE increases, cancelling DTX on E-DPCCH when DTX is cancelled on at least one E-DPDCH. 15. The user equipment of claim 11 wherein the wireless communication network is Universal Mobile Telecommunications Systems, UMTS, wideband code division multiple access, W-CDMA.