Uplink transmission power configuration method and apparatus for mobile communication system

What is claimed is: 1. A method for determining uplink transmission power of a user equipment (UE) supporting carrier aggregation, the method comprising: receiving uplink scheduling information for performing uplink transmission in at least two serving cells from a base station; determining a first uplink maximum transmission power of each of the at least two serving cells; determining a second uplink maximum transmission power of the UE; and determining an uplink transmission power of each of the at least two serving cells based on the first uplink maximum transmission power of each of the at least two serving cells and the second uplink maximum transmission power of the UE, wherein a lower limit of the second uplink maximum transmission power is determined based on a maximum power reduction (MPR) parameter, an additive-maximum power reduction (A-MPR) parameter and a p-maximum power reduction (P-MPR). 2. The method of claim 1 , wherein an upper limit of the second uplink maximum transmission power is determined based on information on maximum allowed transmission power of each of the at least two serving cells involved in the uplink transmission of the UE and information related to power class of the UE. 3. The method of claim 1 , wherein the determining of the first uplink maximum transmission power of each of the at least two serving cells comprises applying a maximum power reduction (MPR) parameter and an additive-maximum power reduction (A-MPR) parameter commonly to serving cells involved in the uplink transmission of the UE. 4. The method of claim 3 , wherein the MPR parameter and the A-MPR parameter are commonly applied to each of the at least two serving cells, when the cells involved in the uplink transmission of the UE are operating on the same frequency band and adjacent to each other. 5. The method of claim 1 , wherein the determining of the first uplink maximum transmission power of each of the at least two serving cells and the determining of the second uplink maximum transmission power of the UE comprises applying an identical MPR and an identical A-MPR commonly. 6. The method of claim 1 , wherein the determining of the first uplink maximum transmission power of each of the at least two serving cells comprises comparing the first uplink maximum transmission power of each of the at least two serving cells and a required transmission power of each of the at least two serving cells. 7. The method of claim 1 , further comprising: receiving information related to maximum allowed transmission power of each of the at least two serving cells for determining the first uplink maximum transmission power of each of the at least two serving cells, wherein the information related to serving cell before carrier aggregation is acquired via a SYSTEM INFORMATION message, the information related to serving cells after a carrier aggregation is acquired via a RRC CONNECTION RECONFIGURATION message. 8. The method of claim 1 , wherein the determining of the uplink transmission power of each of the at least two serving cells comprises: when a sum of the first uplink maximum transmission power of each of the at least two serving cells is greater than a per-UE maximum output power, reducing the first uplink transmission maximum power to make the sum of the first uplink maximum transmission power of each of the at least two serving cells equal to the second uplink maximum transmission power; and determining the reduced first uplink maximum transmission power of each of the at least two serving cells as the uplink transmission power of each of the at least two serving cells. 9. The method of claim 1 , wherein the determining of the uplink transmission power of each of the at least two serving cells comprises, when a sum of the first uplink maximum transmission power of each of the at least two serving cells is equal to or less than the second uplink maximum transmission power, determining the first uplink maximum transmission power of each of the at least two serving cells as the uplink transmission power of each of the at least two serving cells. 10. An apparatus for determining uplink transmission power of a user equipment (UE) supporting carrier aggregation, the apparatus comprising: a transceiver configured to transmit and receive data in multiple serving cells; and a controller configured to receive uplink scheduling information for performing uplink transmission in at least two serving cell from a base station, to control to determine a first uplink maximum transmission power of each of the at least two serving cells, to determine a second uplink maximum transmission power of the UE, and to determine a uplink transmission power of each of the at least two serving cells based on the first uplink maximum transmission power of each of the at least two serving cells and the second uplink maximum transmission power of the UE, wherein a lower limit of the second uplink maximum transmission power is determined based on a Maximum Power Reduction (MPR) parameter, an Additive-Maximum Power Reduction (A-MPR) parameter and a P-Maximum Power Reduction (P-MPR). 11. The apparatus of claim 10 , wherein an upper limit of the second uplink maximum transmission power is determined based on information on maximum allowed transmission power of each of the at least two serving cells involved in the uplink transmission of the UE and information related to a power class of the UE. 12. The apparatus of claim 10 , wherein the controller is further configured to apply a maximum power reduction (MPR) parameter and an additive-maximum power reduction (A-MPR) parameter commonly to serving cells involved in the uplink transmission of the UE, when the UE determines the first uplink maximum transmission power of each of the at least two serving cells. 13. The apparatus of claim 12 , wherein the MPR parameter and the A-MPR parameter are commonly applied to each of the at least serving cells, when the cells involved in the uplink transmission of the UE are operating on the same frequency band and adjacent to each other. 14. The apparatus of claim 10 , wherein the controller is further configured to apply an identical MPR and an identical A-MPR commonly, when the UE determines the first uplink maximum transmission power of each of the at least two serving cells and the second uplink maximum transmission power of the UE. 15. The apparatus of claim 10 , wherein the controller is further configured to compare the first uplink maximum transmission power of each of the at least two serving cells and a required transmission power of each of the at least two serving cells. 16. The apparatus of claim 10 , wherein the controller is further configured to control to receive information related to a maximum allowed transmission power of each of the at least two serving cells for determining the first uplink maximum transmission power of each of the at least two serving cells, wherein the information related to serving cell before carrier aggregation is acquired via a SYSTEM INFORMATION message, the information related to serving cells after a carrier aggregation is acquired via a RRC CONNECTION RECONFIGURATION message. 17. The apparatus of claim 10 , wherein the controller is further configured to control, when the UE determines an uplink transmission power of each of the at least two serving cells and when a sum of the first uplink maximum transmission power of each of the at least two serving cells is greater than a per-UE maximum output power, to reduce the first uplink transmission maximum power to make the sum of the first u