Body composition analysis system

What is claimed is: 1. A body composition analysis system comprising: a transmitter configured to transmit a transmission signal to a body of a user; a receiver configured to receive a bioelectrical signal from the body of the user and calculate a bioimpedance using the bioelectrical signal; and a phase controller configured to receive a plurality of sinusoidal signals from the transmitter, and to generate a plurality of reference signals by adjusting a phase of a frequency of each of the plurality of sinusoidal signals, the plurality of reference signals respectively corresponding to the plurality of sinusoidal signals, wherein the transmitter comprises: a plurality of sinusoidal signal generators configured to respectively generate the plurality of sinusoidal signals having different target frequencies; and a signal mixer configured to synthesize the plurality of sinusoidal signals and generate the transmission signal, wherein the receiver comprises: a plurality of synchronous detectors respectively corresponding to the plurality of sinusoidal signal generators, each of the plurality of synchronous detectors configured to extract a corresponding one of a plurality of target frequency components from the bioelectrical signal using a corresponding one of the plurality of reference signals; a plurality of analog-to-digital converters, each of which is configured to convert a corresponding one of the plurality of target frequency components into a corresponding one of a plurality of digital detection signals; and a bioimpedance analyzer configured to calculate a bioimpedance using the plurality of digital detection signals, wherein each of the plurality of synchronous detectors comprises: a multiplier configured to multiply the bioelectrical signal and a corresponding one of the reference signals to output a multiplied signal; and a low-pass filter configured to receive the multiplied signal from the multiplier and filter frequency components of the multiplied signal that are below a reference frequency of the multiplied signal, and wherein the phase controller is further configured to adjust the phase of the frequency of each of the plurality of sinusoidal signals so that a phase of a frequency of each of the plurality of reference signals is equal to a phase of a corresponding one of the target frequency components of the bioelectrical signal. 2. The system of claim 1 , wherein each of the plurality of sinusoidal signal generators comprises: a digital signal generator configured to generate a digital sinusoidal signal; and a digital-to-analog converter configured to convert the digital sinusoidal signal into an analog sinusoidal signal, wherein the signal mixer synthesizes a plurality of analog sinusoidal signals generated by the plurality of sinusoidal signal generators to generate the transmission signal. 3. The system of claim 2 , wherein each of the plurality of synchronous detectors receives a most significant bit signal of a digital sinusoidal signal from a corresponding sinusoidal signal generator and generates a reference signal using a value of the most significant bit signal of the digital sinusoidal signal. 4. The system of claim 3 , wherein said each of the plurality of synchronous detectors generates the reference signal that is a square wave signal having a target frequency according to the value of the most significant bit signal of the digital sinusoidal signal. 5. The system of claim 1 , wherein the low-pass filter extracts a DC (Digital Current) component from the multiplied signal. 6. The system of claim 1 , wherein the plurality of sinusoidal signal generators comprises: a first sinusoidal signal generator configured to convert a first digital sinusoidal signal having a first target frequency into a first analog sinusoidal signal and output the first analog sinusoidal signal; and a second sinusoidal signal generator configured to convert a second digital sinusoidal signal having a second target frequency different from the first target frequency to a second analog sinusoidal signal and output the second analog sinusoidal signal, wherein the plurality of synchronous detectors comprises: a first synchronous detector configured to extract a first target frequency component from the bioelectrical signal using a first reference signal corresponding to the first digital sinusoidal signal; and a second synchronous detector configured to extract a second target frequency component from the bioelectrical signal using a second reference signal corresponding to the second digital sinusoidal signal. 7. The system of claim 6 , wherein the signal mixer synthesizes the first analog sinusoidal signal and the second analog sinusoidal signal to generate the transmission signal. 8. The system of claim 1 , wherein the phase controller is configured to adjust a phase of a most significant bit signal of a digital sinusoidal signal generated by each of the plurality of sinusoidal signal generators and output a phase-adjusted signal to a corresponding one of the plurality of synchronous detectors as a corresponding reference signal. 9. A body composition analysis system comprising: a transmitter configured to transmit a transmission signal to a body of a user; and a receiver configured to receive a bioelectrical signal from the body of the user and configured to calculate a bioimpedance using the bioelectrical signal, wherein the transmitter comprises: a first sinusoidal signal generator configured to generate a first digital sinusoidal signal having a first target frequency and convert the first digital sinusoidal signal into a first analog sinusoidal signal; a second sinusoidal signal generator configured to generate a second digital sinusoidal signal having a second target frequency different from the first target frequency and convert the second digital sinusoidal signal into a second analog sinusoidal signal; and a signal mixer configured to synthesize the first and the second analog sinusoidal signals and output the transmission signal, and wherein the receiver comprises: a first synchronous detector configured to extract a first target frequency component of the bioelectrical signal by performing a multiplication operation of the bioelectrical signal and a first reference signal; a second synchronous detector configured to extract a second target frequency component of the bioelectrical signal by performing a multiplication operation of the bioelectrical signal and a second reference signal; and a bioimpedance analyzer configured to calculate the bioimpedance using the extracted first and second target frequency components, wherein the first synchronous detector comprises: a first multiplier configured to multiply the first reference signal and the bioelectrical signal to generate a first multiplied signal; and a first low-pass filter configured to filter frequency components below a reference frequency of the first multiplied signal, and wherein the second synchronous detector comprises: a second multiplier configured to multiply the second reference signal and the bioelectrical signal to generate a second multiplied signal; and a second low-pass filter configured to filter frequency components below a reference frequency of the second multiplied signal. 10. The system of claim 9 , wherein the first reference signal is generated using a most significant bit signal of the first digital sinusoidal signal and the second reference signal is generated using a most significant bit signal of the second sinusoidal digital signal. 11. The system of claim 9 , wherein the first reference signal is the first analog sinusoidal signal and the second referenc