초록 ▼

A user equipment (UE) of a wireless communication system is disclosed. A second receiving module, of a second wireless communication chip, is configured for receiving a transmission power value of a first signal configured to be transmitted from a first wireless communication chip of the UE. A secon

A user equipment (UE) of a wireless communication system is disclosed. A second receiving module, of a second wireless communication chip, is configured for receiving a transmission power value of a first signal configured to be transmitted from a first wireless communication chip of the UE. A second transmission power value determining module, of the second wireless communication chip, is configured for determining a transmission power value of a second signal configured to be transmitted from the second wireless communication chip, the determination based on the received transmission power value of the first signal and a predefined specific absorption rate (SAR) condition, wherein the first wireless communication chip is configured for transmitting the first signal using a first wireless communication scheme, wherein the second wireless communication chip is configured for transmitting the second signal using a second wireless communication scheme simultaneously with the transmission of the first signal by the first wireless communication chip.

대표청구항 ▼

1. A user equipment (UE) of a wireless communication system, the UE comprising: a second receiving module, of a second wireless communication chip, configured for receiving communication mode information from a first communication module of a first wireless communication chip indicating whether the

1. A user equipment (UE) of a wireless communication system, the UE comprising: a second receiving module, of a second wireless communication chip, configured for receiving communication mode information from a first communication module of a first wireless communication chip indicating whether the first wireless communication chip is in a random access channel (RACH) mode for performing a RACH process for an access to a base station; anda power value measuring module configured to measure a transmission power value of a first signal transmitted via the first wireless communication chip only when the first signal and a second signal are to be simultaneously transmitted respectively via the first wireless communication chip and the second wireless communication chip;a power value determining module of the second wireless communication chip, configured for determining a transmission power value of the second signal based on whether the first wireless communication chip is in the RACH mode,wherein if the first wireless communication chip is in a normal mode, the transmission power value of the second signal is determined by subtracting a power back-off value from a maximum transmission power value of the second signal wherein the power back-off value is determined according to the transmission power value of the first signal,wherein if the first wireless communication chip is in the RACH mode, the transmission power value of the first signal is gradually increased when the first signal is transmitted unsuccessfully and the transmission power value of the second signal is determined by subtracting a maximum value of the power back-off value from the maximum transmission power value of the second signal, andwherein the first wireless communication chip is configured for transmitting the first signal using a first wireless communication scheme, and the second wireless communication chip is configured for transmitting the second signal using a second wireless communication scheme. 2. The UE of claim 1, wherein the power value determining module is further configured to determine the power back-off value as a maximum power back-off value of the second signal when the first wireless communication chip is in the RACH mode. 3. The UE of claim 1, wherein the power value determining module is further configured to determine the power back-off value by subtracting the transmission power value of the first signal from a preset maximum sum power value when the first wireless communication chip is in the normal mode, and wherein the preset maximum sum power value is below a predefined specific absorption rate (SAR) condition. 4. The UE of claim 1, wherein the first wireless communication chip comprises: a communication mode determining module configured for determining whether the first wireless communication chip is in the RACH mode; anda first transmitting module configured for transmitting communication mode information of the first wireless communication chip to the second receiving module. 5. A method of simultaneously transmitting a plurality of signals via a user equipment (UE) in a wireless communication system using at least two wireless communication schemes, the method comprising: measuring, via a power value measuring module, a transmission power value of a first signal transmitted via a first wireless communication chip only when the first signal and a second signal are to be simultaneously transmitted respectively via the first wireless communication chip and a second wireless communication chip,receiving, via a second receiving module of the second wireless communication chip of the UE: the transmission power value of the first signal; andcommunication mode information from the first wireless communication chip indicating whether the first wireless communication chip is in a random access channel (RACH) mode for performing a RACH process for an access to a base station; anddetermining, via a power value determining module of the second wireless communication chip, a transmission power value of the second signal based on whether the first communication chip is in the RACH mode when the second signal is transmitted by the second wireless communication chip simultaneously with the transmission of the first signal by the first wireless communication chip,wherein if the first wireless communication chip is in a normal mode, the transmission power value of the first signal is gradually increased when the first signal is transmitted unsuccessfully and the transmission power value of the second signal is determined by subtracting a power back-off value from a maximum transmission power value of the second signal wherein the power back-off value is determined according to the transmission power value of the first signal,wherein if the first wireless communication chip is in the RACH mode, the transmission power value of the second signal is determined by subtracting a maximum value of the power back-off value from the maximum transmission power value of the second signal, andwherein the first wireless communication chip is configured for transmitting the first signal using a first wireless communication scheme, and the second wireless communication chip is configured for transmitting the second signal using a second wireless communication scheme. 6. The method of claim 5, wherein the power back-off value is set as a maximum power back-off value of the second signal when the first wireless communication chip is in the RACH mode. 7. The method of claim 5, wherein the power back-off value is determined by subtracting the transmission power value of the first signal from a preset maximum sum power value when the first wireless communication chip is in the normal mode, and wherein the preset maximum sum power value is below a predefined specific absorption rate (SAR) condition. 8. The method of claim 5, further comprising: determining, via a communication mode determining module of the first wireless communication chip, whether the first wireless communication chip is in the RACH mode; andtransmitting, via a first transmitting module of the first wireless communication chip, communication mode information of the first wireless communication chip to the second receiving module.