Power scaling for multi-carrier high-speed uplink packet access

What is claimed is: 1. A method for wireless communications, comprising: providing independent closed-loop power controls for each of two or more carriers from a set of packet access signals; receiving, over a first carrier of the two or more carriers, one or more first radio power control (RPC) commands indicating whether to increase or decrease transmit power; receiving, over a second carrier of the two or more carriers, one or more second RPC commands indicating whether to increase or decrease transmit power; monitoring power across the two or more carriers based at least in part on receiving the one or more first RPC commands over the first carrier and receiving the one or more second RPC commands over the second carrier to determine power levels for the set of packet access signals; automatically scaling at least one of the independent closed-loop power controls in view of the power levels for the set of packet access signals and in view of the one or more first RPC commands and the one or more second RPC commands; and concurrently adjusting power for a group of carriers based at least in part on the automatically scaling at least one of the independent closed-loop power controls, wherein the group of carriers comprises at least two of the two or more carriers, and wherein concurrently adjusting the power for the group of carriers includes locking the power for at least one carrier in the group of carriers when the power reaches a minimum power while scaling the power for at least another carrier in the group of carriers. 2. The method of claim 1 , further comprising analyzing a combined transmit pilot power in view of a total maximum power value. 3. The method of claim 1 , further comprising configuring a minimum transmit power T/Pmin parameter via a radio resource control. 4. The method of claim 3 , further comprising employing the T/Pmin parameter as a threshold in a sequential power scaling routine, a parallel power scaling routine, or a greedy power scaling routine. 5. The method of claim 3 , wherein the T/Pmin parameter is configured independently for each respective uplink carrier. 6. The method of claim 3 , wherein configuring the T/Pmin parameter comprises setting a low value for the T/Pmin parameter on a primary carrier to improve a dedicated physical control channel (DPCCH) performance. 7. The method of claim 1 , wherein the automatically scaling the at least one of the independent closed-loop power controls is according to a preference that includes a channel quality parameter, a grant, a current data rate, a status of an anchor carrier, or a status of a non-anchor carrier. 8. The method of claim 1 , wherein the concurrently adjusting power for the group of carriers comprises holding a power value on a preferred carrier while scaling down a power on at least one other carrier to a minimum threshold. 9. The method of claim 1 , wherein the concurrently adjusting power for the group of carriers comprises determining if the at least one carrier has reached the minimum power, holding a power on the at least one carrier, and scaling data on the at least one carrier until a set of carriers has reached a minimum power threshold. 10. The method of claim 1 , further comprising scaling a channel on a secondary carrier before scaling another channel on a primary carrier. 11. The method of claim 10 , further comprising transmitting equal or unequal packet sizes on the secondary carrier or the primary carrier. 12. The method of claim 1 , further comprising employing a water-filling scheduler or an independent scheduler in accordance with the independent closed-loop power controls. 13. The method of claim 1 , wherein the concurrently adjusting power for the group of carriers comprises determining that one of the carriers in the group of carriers reaches a minimum power, locking further power adjustment on the one of the carriers, and scaling down data on one or more other carriers in the group of carriers until a threshold minimum power is reached on the one or more other carriers. 14. A communications apparatus, comprising: a memory that retains instructions for: providing independent closed-loop power controls to each of two or more carriers from a set of packet access signals; receiving, over a first carrier of the two or more carriers, one or more first radio power control (RPC) commands indicating whether to increase or decrease transmit power; receiving, over a second carrier of the two or more carriers, one or more second RPC commands indicating whether to increase or decrease transmit power; determining power across the two or more carriers based at least in part on receiving the one or more first RPC commands over the first carrier and receiving the one or more second RPC commands over the second carrier to determine power levels for the set of packet access signals; scaling the independent closed-loop power controls in view of the power levels for the set of packet access signals and in view of the one or more first RPC commands and the one or more second RPC commands; and concurrently adjusting power for a group of carriers based at least in part on the scaling at least one of the independent closed-loop power controls, wherein the group of carriers comprises at least two of the two or more carriers, and wherein concurrently adjusting the power for the group of carriers includes locking the power for at least one carrier in the group of carriers when the power reaches a minimum power while scaling the power for at least another carrier in the group of carriers; and a processor that executes the instructions. 15. The communications apparatus of claim 14 , further comprising instructions for analyzing a combined transmit pilot power in view of a total maximum power value. 16. The communications apparatus of claim 14 , further comprising instructions for configuring a minimum transmit power T/Pmin parameter via a radio resource control. 17. The communications apparatus of claim 16 , further comprising instructions for employing the T/Pmin parameter as a threshold in a sequential power scaling routine, a parallel power scaling routine, or a greedy power scaling routine. 18. The communications apparatus of claim 16 , wherein the T/Pmin parameter is configured independently for each respective uplink carrier. 19. The communications apparatus of claim 16 , wherein the instructions for configuring the T/Pmin parameter comprise instructions for setting a low value for the T/Pmin parameter on a primary carrier to improve a dedicated physical control channel (DPCCH) performance. 20. The communications apparatus of claim 14 , wherein the instructions for scaling the independent closed-loop power controls are according to a preference that includes a channel quality parameter, a grant, a current data rate, a status of an anchor carrier, or a status of a non-anchor carrier. 21. The communications apparatus of claim 14 , wherein the instructions for concurrently adjusting power for the group of carriers comprise instructions for holding a power value on a preferred carrier while scaling down a power on at least one other carrier to a minimum threshold. 22. The communications apparatus of claim 14 , wherein the instructions for concurrently adjusting power for the group of carriers comprise instructions for determining if the at least one carrier has reached the minimum power, holding the power on the at least one carrier, and scaling data on the at least one carrier until a s