Method and apparatus for three-phase power line communications

The invention claimed is: 1. A method for generating a power line communication (PLC) signal, comprising: generating a first modulation signal based on at least one data stream; modulating a first carrier signal by the first modulation signal to generate a first signal; generating a second signal by performing a phase shift based on the first signal; and coupling a balanced three-phase PLC signal comprising the first signal, the second signal and a third signal to a three-phase power line. 2. The method of claim 1 , further comprising: generating a plurality of modulation signals, wherein the plurality of modulation signals comprises the first modulation signal, a second modulation signal and a third modulation signal; modulating a plurality of carrier signals, wherein the plurality of carrier signals comprises the first carrier signal, a second carrier signal and a third carrier signal; generating the second signal by modulating the second carrier signal by the second modulation signal; and generating the third signal by modulating the third carrier signal by the third modulation signal. 3. The method of claim 2 , wherein the at least one data stream comprises a first and a second data stream; the first modulation signal is based on the first data stream and the second modulation signal is based on the second data stream; and the third modulation signal is correlated to the first and the second modulation signals. 4. The method of claim 2 , wherein the at least one data stream comprises a first, a second, and a third data stream; and the first, the second, and the third modulation signals are based on the first, the second, and the third data streams respectively. 5. The method of claim 1 , wherein (i) the at least one data stream comprises a first and a second data stream; (ii) the first and a second modulation signal are generated based on the first and the second data streams, respectively; (iii) the first and a second carrier signal are modulated by the first and the second modulation signals, respectively, to generate first and second modulated signals; and (iv) the first, the second, and the third signals are generated based on a non-singular transformation matrix with respect to the first and the second modulated signals. 6. The method of claim 5 , wherein the first signal=X+Y, the second signal=α 2 X+αY, and the third signal=αX+α 2 Y; and wherein X= the first modulated signal, Y= the second modulated signal, and α=e 2jπ/3 . 7. An apparatus for generating a power line communication (PLC) signal, comprising: a three-phase modulator for (a) generating a first modulation signal based on at least one data stream, (b) modulating a first carrier signal by the first modulation signal to generate a first signal and (c) generating a second signal by performing a phase shift based on the first signal; and a three-phase power line coupler for coupling a balanced three-phase PLC signal comprising the first signal, the second signal and a third signal to a three-phase power line. 8. The apparatus of claim 7 , wherein (i) a plurality of modulation signals further comprises a third modulation signal; and (ii) a plurality of carrier signals further comprises a third carrier signal and the third signal is generated by modulating the third carrier signal by the third modulation signal. 9. The apparatus of claim 8 , wherein the first, a second, and the third modulation signals are equal to one another, and wherein the first, a second, and the third carrier signals are equal in magnitude and phase-shifted from one another by 120°. 10. The apparatus of claim 8 , wherein (iii) the at least one data stream comprises a first and a second data stream; (iv) the first modulation signal is based on the first data stream and a second modulation signal is based on the second data stream; and (v) the third modulation signal is correlated to the first and the second modulation signals. 11. The apparatus of claim 8 , wherein (iii) the at least one data stream comprises a first, a second, and a third data stream; and (iv) the first, a second, and the third modulation signals are based on the first, the second, and the third data streams respectively. 12. The apparatus of claim 7 , wherein (i) the at least one data stream comprises a first and a second data stream; (ii) the first and a second modulation signal are generated based on the first and the second data streams, respectively; (iii) the first and a second carrier signal are modulated by the first and the second modulation signals, respectively, to generate first and second modulated signals; and (iv) the first, the second, and the third signals are generated based on a non-singular transformation matrix with respect to the first and the second modulated signals. 13. The apparatus of claim 12 , wherein the first signal=X+Y, the second signal=α 2 X+αY, and the third signal=αX+α 2 Y; and wherein X= the first modulated signal, Y= the second modulated signal, and α=e 2jπ/3 . 14. A system for power line communication (PLC), comprising: a three-phase modulator for (a) generating a first modulation signal based on at least one data stream, (b) modulating a first carrier signal by the first modulation signal to generate a first signal and (c) generating a second signal by performing a phase shift based on the first signal; a first three-phase power line coupler for coupling a balanced three-phase PLC signal comprising the first signal, the second signal and a third signal from the three-phase modulator to a three-phase power line; a second three-phase power line coupler for coupling the balanced three-phase PLC signal from the three-phase power line to a three-phase demodulator; and the three-phase demodulator for (d) recovering a plurality of recovered modulation signals from the first, the second, and the third signals, and (e) decoding the plurality of recovered modulation signals to recover the at least one data stream. 15. The system of claim 14 , wherein (i) the three-phase modulator generates a plurality of modulation signals comprising the first, a second, and a third modulation signal; (ii) a plurality of carrier signals comprises the first, a second, and a third carrier signal; and (iii) the first signal is generated by modulating the first carrier signal by the first modulation signal, the second signal is generated by modulating the second carrier signal by the second modulation signal, and the third signal is generated by modulating the third carrier signal by the third modulation signal. 16. The system of claim 15 , wherein the first, the second, and the third modulation signals are equal to one another, and wherein the first, the second, and the third carrier signals are equal. 17. The system of claim 15 , wherein (iv) the at least one data stream comprises a first and a second data stream; (v) the first modulation signal is based on the first data stream and the second modulation signal is based on the second data stream; and (vi) the third modulation signal is correlated to the first and the second modulation signals. 18. The system of claim 15 , wherein (iv) the at least one data stream comprises a first, a second, and a third data stream; and (v) the first, the second, and the third modulation signals are based on the first, the second, and the third data streams respectively. 19. The system of claim 14 , wherein (i) the at least one data stream comprises a first and a second data stream; (ii) a plurality of modulation signals comprises the first and a second modulation signal generated based