Setting initial transmission power for a secondary carrier after a transmission gap

What is claimed is: 1. A method of setting an initial dedicated physical control channel, DPCCH, power of a secondary carrier after a transmission gap, the method comprising: determining a filtered DPCCH power of first carrier; determining a power offset; and calculating the initial DPCCH power of the secondary carrier by adding the determined filtered DPCCH power of the first carrier to the determined power offset. 2. The method of claim 1 , wherein the first carrier is a primary carrier. 3. The method of claim 1 , wherein determining the filtered value of DPCCH power of the first carrier includes determining filtered power of a combination of the secondary carrier and a primary carrier. 4. The method of claim 1 , wherein the power offset is based at least in part on a difference between a target signal to interference ratio, SIR, of the secondary carrier and a target SIR of the first carrier. 5. The method of claim 1 , wherein the power offset is based at least in part on a difference between signal to interference ratios, SIR, associated with different data transmission rates. 6. The method of claim 1 , wherein the power offset is based at least in part on a difference between a rise over thermal noise, RoT, of the primary and secondary carrier. 7. The method of claim 1 , wherein the determined filtered DPCCH power of the first carrier is determined according to a first order discrete filter. 8. The method of claim 7 , wherein the first order discrete filter is given by: P DPCCH,ref ( i )−(1−α)· P DPCCH,ref ( i− 1)+α· P DPCCH ( i ) where P DPCCH,ref is the determined filtered DPCCH power of the first carrier, P DPCCH (i) is the i th slot primary carrier DPCCH power, α is a configurable filter coefficient, and i is a sample index. 9. The method of claim 8 , wherein α is dependent upon α Doppler shift. 10. The method of claim 7 , wherein the first order discrete filter is given by: P DPCCH,ref ( i )=α· P DPCCH,ref ( i− 1)+(1−α)· P DPCCH ( i ) where P DPCCH,ref is the determined filtered DPCCH power of the first carrier, P DPCC (i) is the i th slot primary carrier DPCCH power, α is a configurable filter coefficient, and i is a sample index. 11. A method to assist setting of an initial dedicated physical control channel, DPCCH, power of a secondary carrier after a transmission gap, the method comprising: determining a filter coefficient to be used by a wireless device to determine a filtered DPCCH power of a first carrier; and signaling the filter coefficient to the wireless device. 12. A network node configured to assist setting of an initial dedicated physical control channel, DPCCH, power of a secondary carrier after a transmission gap, the network node comprising: a processor; a memory configured to contain instructions executable by the processor to configure the processor to: determine the filter coefficient to be used by a wireless device to determine a filtered DPCCH power of a first carrier; and a transmitter configured to signal the filter coefficient to the wireless device. 13. The network node of claim 12 , wherein the memory is further configured to: contain instructions executable by the processor to configure the processor to: determine the power offset to be used by the wireless device to calculate the initial DPCCH power of the secondary carrier by adding the filtered DPCCH power of the first carrier to the determined power offset. 14. The network node of claim 12 , wherein the network node is one of a radio network controller, RNC and a Node B. 15. The network node of claim 14 , wherein the filter coefficient, α, is signaled to a base station in communication with the wireless device via a signaling protocol between the network node and the base station. 16. The network node of claim 12 , wherein the memory is further configured to store a filter coefficient, α. 17. A wireless device configured to set an initial dedicated physical control channel, DPCCH, power PO of a secondary carrier after a transmission gap, the wireless device comprising: a processor; and a memory configured to store: a filtered DPCCH power; the memory further configured to contain instructions executable by the processor to configure the processor to: determine the filtered DPCCH power of a first carrier; determine a power offset; and calculate the initial DPCCH power of the secondary carrier by adding the determined filtered DPCCH power of the first carrier to the determined power offset. 18. The wireless device of claim 17 , wherein the first carrier is a primary carrier. 19. The wireless device of claim 17 , wherein determining the filtered value of DPCCH power of the first carrier includes determining filtered power of a combination of the secondary carrier and a primary carrier. 20. The wireless device of claim 17 , wherein the power offset is based at least in part on a difference between a target signal to interference ratio, SIR, of the secondary carrier and a target SIR of the first carrier. 21. The wireless device of claim 17 , wherein the power offset is based at least in part on a difference between signal to interference ratios, SIR, associated with different data transmission rates. 22. The wireless device of claim 17 , wherein the power offset is based at least in part on a difference between a rise over thermal noise, RoT, of the primary and secondary carrier. 23. The wireless device of claim 17 , wherein the determined filtered DPCCH power of the first carrier is determined according to a first order discrete filter. 24. The wireless device of claim 17 , wherein a filter configured to filter the DPCCH power of the first carrier is given by: P DPCCH,ref ( i )−(1−α)· P DPCCH,ref ( i− 1)+α· P DPCCH ( i ) where P DPCCH,ref is the determined filtered DPCCH power of the first carrier, P DPCCH (i) is the ith slot primary carrier DPCCH power, a is a configurable filter coefficient, and i is a sample index. 25. The wireless device of claim 24 , wherein α is dependent upon a Doppler shift. 26. The wireless device of claim 17 , wherein a filter configured to filter the DPCCH power of the first carrier is given by: P DPCCH,ref ( i )=α· P DPCCH,ref ( i− 1)+(1−α)· P DPCCH ( i ) where P DPCCH,ref is the determined filtered DPCCH power of the first carrier, P DPCCH (i) is the i th slot primary carrier DPCCH power, α is a configurable filter coefficient, and i is a sample index.