Method for controlling power and electronic device thereof

What is claimed is: 1. An electronic device comprising: an antenna; a communication circuit connected with the antenna; and one or more processors, wherein the one or more processors are configured to: during a first averaging window, the first averaging window comprising a plurality of time intervals including a first time interval, a second time interval following the first time interval, and a third time interval following the second time interval: identify a second amount of power corresponding to a second output signal outputted through the antenna for the second time interval using the communication circuit, wherein identifying the second amount of power comprises identifying a second electromagnetic wave absorption rate corresponding to the second amount of power; determine a maximum power limit value for the third time interval based on a difference between a target electromagnetic wave absorption rate for the second time interval and the second electromagnetic wave absorption rate for the second time interval, the target electromagnetic wave absorption rate corresponding to a maximum power limit value for the second time interval; and output a third output signal through the antenna for the third time interval based at least one the maximum power limit value for the third time interval. 2. The electronic device of claim 1 , wherein the one or more processors are further configured to: identify a first amount of power corresponding to a first output signal outputted through the antenna for the first time interval preceding the second time interval by using the communication circuit, the operation of identifying the first amount of power comprising an operation of identifying a first electromagnetic wave absorption rate corresponding to the first amount of power; and based on the difference between the target electromagnetic wave absorption rate regarding the second time interval and the second electromagnetic wave absorption rate for the second time interval being greater than a specified value, determine a maximum power limit value for the first time interval as the maximum power limit value for the third time interval. 3. The electronic device of claim 1 , wherein the one or more processors are further configured to: based on the difference between the target electromagnetic wave absorption rate regarding the second time interval and the second electromagnetic wave absorption rate for the second time interval being greater than a specified value, determine the maximum power limit value for the second output signal as the maximum power limit value for the third time interval. 4. The electronic device of claim 1 , wherein the one or more processors are further configured to: based on the difference between the target electromagnetic wave absorption rate regarding the second time and the second electromagnetic wave absorption rate for the second time interval being smaller than a specified value, determine a power limit value which is reduced from the power limit value for the second time interval by a specific amount, as the maximum power limit value for the third time interval. 5. The electronic device of claim 1 , wherein the maximum power limit values for the third time interval is larger than the maximum power limit value for the second time interval. 6. The electronic device of claim 1 , wherein the one or more processors are configured to: identify a first amount of power corresponding to a first output signal outputted through the antenna for a first time interval by using the communication circuit, the operation of identifying the first amount of power comprising an operation of identifying a first electromagnetic wave absorption rate corresponding to the first amount of power; detect the second time interval elapses, upon detecting, obtain a sum of the first electromagnetic wave absorption rate for the first time interval and the second electromagnetic wave absorption rate for the second time interval, determine whether a rest specified absorption rate (SAR) is smaller than a specified lower limit value or not, the rest SAR being a value which is a total SAR value assigned to the first averaging window minus a SAR usage up to the second time interval, and based on a determination that the rest SAR is smaller than the specified lower limit value, determine, as the maximum power limit value for remaining time intervals in the first averaging window, an average value which is obtained by dividing the rest SAR by a remaining time in the first averaging window, the remaining time corresponds to time for the first averaging window excluding the first time interval and the second time interval. 7. The electronic device of claim 1 , wherein the one or more processors are configured to: identify a first amount of power corresponding to a first output signal outputted through the antenna for the first time interval by using the communication circuit, the operation of identifying the first amount of power comprising an operation of identifying a first electromagnetic wave absorption rate corresponding to the first amount of power; when the first averaging window elapses, determine whether a rest specified absorption rate (SAR) is smaller than a specified lower limit value or not, the rest SAR being a value which is a total SAR value assigned to the first averaging window minus a SAR usage during the first averaging window; based on the rest SAR being smaller than the specified lower limit value, determine a maximum power value for the first averaging window as a maximum power limit value for the next averaging window; and based on the rest SAR being greater than the specified lower limit value, determine a maximum power limit value that can be outputted by the electronic device as the maximum power limit value for the next averaging window. 8. An electronic device comprising: a communication module; and one or more processors, wherein the one or more processors are configured to: during a first averaging window, the first averaging window comprising a plurality of time intervals including a first time interval, a second time interval following the first time interval, and a third time interval following the second time interval: identify a first amount of power corresponding to a first output signal outputted from the communication module for the first time interval by identifying a first electromagnetic wave absorption rate corresponding to the first amount of power; determine a second maximum power limit value for the second time interval, based on a difference between the electromagnetic wave absorption rate for the first time interval and the first electromagnetic wave absorption rate for the first time interval, the electromagnetic wave absorption rate corresponding to a maximum power limit value for the first time interval; and output a second output signal through the communication module for the second time interval, based at least on the second maximum power limit value. 9. The electronic device of claim 8 , wherein, the one or more processors are further configured to: based on the difference between the electromagnetic wave absorption rate assigned for the first time interval and the first electromagnetic wave absorption rate is greater than a predetermined value, determine the second maximum power limit value. 10. The electronic device of claim 8 , wherein, the one or more processors are further configured to: when the difference between the electromagnetic wave absorption rate for the first time interval and the first electromagnetic wave absorption rate is greater than a predetermined value, determine the second maximum power limit value the same as the first