Wireless communication device for controlling signal power of received signal and operating method thereof

What is claimed is: 1. A method of controlling a signal power of a received signal received by a wireless communication device, the method comprising: measuring the signal power of the received signal at a plurality of time points in response to a gain control signal; calculating a variance of the signal power of the received signal at least some time points of the plurality of time points, wherein the calculating of the variance of the signal power of the received signal includes calculating the variance of the signal power of the received signal at an object time point based on a difference between the signal power of the received signal at the object time point and the signal power of the received signal at a time point prior to the object time point; storing the variance of the signal power of the received signal; and controlling the signal power of the received signal to have a first gain level when the number of frequency resources is less than or equal to a first number; and controlling the signal power of the received signal to have a second gain level, which is greater than the first gain level, when the number of frequency resources is greater than the first number and less than or equal to a second number, which is greater than the first number. 2. The method as claimed in claim 1 , wherein the calculating of the variance of the signal power of the received signal includes estimating a number of frequency resources based on the variance of the signal power of the received signal. 3. The method as claimed in claim 2 , wherein the number of frequency resources is a number of subcarriers allocated to the received signal, among subcarriers allocated to a frequency band. 4. The method as claimed in claim 2 , wherein the controlling of the signal power of the received signal includes determining the gain level based on the number of frequency resources. 5. The method as claimed in claim 1 , wherein the calculating of the variance of the signal power of the received signal includes calculating a ratio of an average of the signal power of the received signal to an average of the variance of the signal power of the received signal at the plurality of time points by the variance of the signal power of the received signal. 6. The method as claimed in claim 1 , wherein the controlling of the signal power of the received signal includes: controlling the signal power of the received signal to have a first gain level when the variance of the signal power of the received signal is greater than or equal to a first variance; and controlling the signal power of the received signal to have a second gain level, which is greater than the first gain level, when the variance of the signal power of the received signal is less than the first variance and greater than or equal to a second variance, which is less than the first variance. 7. The method as claimed in claim 1 , further comprising amplifying an analog signal received by the wireless communication device in response to the gain control signal. 8. The method as claimed in claim 7 , wherein the measuring of the signal power of the received signal includes generating the received signal by converting the amplified analog signal into a digital signal. 9. The method as claimed in claim 1 , wherein the calculating the variance of the signal power of the received signal includes dividing an average (mean) of measured signal power (Pow i ) by an average of differences in signal power at least some time points of the plurality of time points as a ratio P ratio according to the following equation: P ratio =mean(Pow i )/mean(|Pow i −Pow i+1 |). 10. A communication processor, comprising: a power measuring module configured to measure signal power of a received signal at a plurality of time points in response to a gain control signal; a calculating module configured to calculate a variance of the signal power of the received signal at least some time points of the plurality of time points, wherein the calculating module is configured to calculate the variance of the signal power of the received signal at an object time point based on a difference between the signal power of the received signal at the object time point and the signal power of the received signal at a time point prior to the object time point; and a gain determining module configured to provide, to a variable gain amplifier, a gain level including a first gain level and a second gain level, and to control the signal power of the received signal to have the first gain level when the number of frequency resources is less than or equal to a first number, and control the signal power of the received signal to have the second gain level, which is greater than the first gain level, when the number of frequency resources is greater than the first number and less than or equal to a second number, which is greater than the first number, and store the variance of the signal power of the received signal in a memory. 11. The communication processor as claimed in claim 10 , wherein: the calculating module is configured to estimate a number of frequency resources based on the variance of the signal power of the received signal, and the gain determining module is configured to determine the gain level based on the estimated number of frequency resources. 12. The communication processor as claimed in claim 11 , wherein the number of frequency resources is a number of subcarriers allocated to the received signal, among subcarriers allocated to a frequency band. 13. The communication processor as claimed in claim 10 , wherein the gain determining module is configured to control the signal power of the received signal to have the first gain level when the variance of the signal power of the received signal is greater than or equal to a first variance, and control the signal power of the received signal to have the second gain level, which is greater than the first gain level, when the variance of the signal power of the received signal is less than the first variance and greater than or equal to a second variance, which is less than the first variance. 14. The communication processor as claimed in claim 10 , wherein the power measuring module is configured to estimate the signal power of the received signal based on a digital signal converted from an analog signal which is amplified to have a target signal power according to the gain control signal. 15. The communication processor as claimed in claim 10 , wherein the calculating module is configured to calculate the variance of the signal power of the received signal by dividing an average (mean) of measured signal power (Pow i ) by an average of differences in signal power at least some time points of the plurality of time points as a ratio P ratio according to the following equation: P ratio =mean(Pow i )/mean(|Pow i −Pow i+1 |). 16. A wireless communication device, comprising: a receiving module configured to receive a gain control signal and a received signal; a communication processor configured to output a gain level at which a signal power of the received signal is controlled, based on preset correspondence of the gain level to a calculated variance of the signal power of the received signal in response to the gain control signal; and a variable gain amplifier configured to control the signal power of the received signal based on the gain level, wherein the communication processor is configured to: measure the signal power of the received signal at a plurality of time points, and calculate the variance of the signal power of the receiv