Dynamic bias modulator with multiple output voltage converter and power amplification apparatus using the same

What is claimed is: 1. A power amplification apparatus, comprising: a multiple output bias voltage generation unit generating first and second bias voltages using an inductor coupled between an input voltage and a plurality of capacitors, the plurality of capacitors being connected to the inductor in a non-overlapping manner; a dynamic bias modulator outputting the first bias voltage or the second bias voltage as a variable bias voltage based on results of comparing voltage of an envelope signal of a radio frequency (RF) signal to an envelope reference voltage; and a power amplifier configured to be biased in response to the variable bias voltage, to amplify power of the RF signal, and to output the amplified RF signal to an antenna. 2. The power amplification apparatus of claim 1 , wherein the inductor is switchingly connected to the input voltage and the multiple output bias voltage generation unit is operative to: intermittently accumulate energy in the inductor in response to an inductor switching signal; and generate the first and second bias voltages having different voltage levels from energy with which the first and second capacitors have been charged by selectively transferring the energy of the inductor to one of the plurality of capacitors in response to first and second switching signals. 3. The power amplification apparatus of claim 1 , wherein: the multiple output bias voltage generation unit comprises a switching signal generation unit configured to generate the inductor switching signal, the first switching signal, and the second switching signal; the switching signal generation unit is operative to: amplify an error obtained by comparing the first bias voltage with the first reference voltage, and generate a pulse width-modulated inductor switching signal based on results of comparison between the amplified error and a triangular or sawtooth wave in a predetermined period; and amplify an error obtained by comparing the second bias voltage with second reference voltage, and generate a pulse width-modulated first and second switching signals based on results of comparison between the amplified error and the triangular or sawtooth wave; and the first switching signal and the second switching signal are complementary to each other. 4. The power amplification apparatus of claim 3 , wherein the switching signal generation unit is operative to discontinuously adjust the first and second reference voltages based on magnitude of average output power. 5. The power amplification apparatus of claim 3 , wherein the switching signal generation unit is operative to discontinuously adjust amplification gains related to errors obtained by comparing the first and second bias voltages with the first and second reference voltages, respectively, based on magnitude of average output power. 6. The power amplification apparatus of claim 3 , wherein the switching signal generation unit is operative to continuously vary the first and second reference voltages based on magnitude of average output power. 7. The power amplification apparatus of claim 3 , wherein the switching signal generation unit is operative to continuously vary amplification gains related to errors obtained by comparing the first and second bias voltages with the first and second reference voltages, respectively, based on magnitude of average output power. 8. The power amplification apparatus of claim 1 , wherein in response to the average output power being higher than a predetermined upper limit level or lower than a predetermined lower limit level, the dynamic bias modulator is operative to output only one of the first and second bias voltages as the variable bias voltage based on magnitude of the average output power, in preference to results of comparison between voltage of the envelope signal and the envelope reference voltage. 9. The power amplification apparatus of claim 8 , wherein the dynamic bias modulator is operative to: output the relatively high first bias voltage as the variable bias voltage regardless of magnitude of the envelope signal in response to the average output power being higher than a predetermined upper limit level; and output the relatively low second bias voltage as the variable bias voltage regardless of magnitude of the envelope signal in response to the average output power being lower than a predetermined lower limit level. 10. The power amplification apparatus of claim 8 , wherein the multiple output bias voltage generation unit is operative to feed either the first bias voltage or the second bias voltage to the dynamic bias modulator by exclusively connecting only one of the plurality of capacitors, selected based on the magnitude of the average output power, to the inductor. 11. A power amplification method using a power amplification apparatus with a multiple output voltage converter, comprising: by the power amplification apparatus: generating first and second bias voltages having different voltage levels using a single inductor coupled between an input voltage and a plurality of capacitors, the plurality of capacitors being connected to the inductor in a non-overlapping manner; outputting the first bias voltage or the second bias voltage as variable bias voltage based on results of comparing voltage of an envelope signal of a radio frequency (RF) signal to an envelope reference voltage; and amplifying power of the RF signal via a power amplifier configured to be biased in response to the variable bias voltage, and outputting the amplified RF signal to an antenna. 12. The power amplification apparatus of claim 1 , wherein the first and second bias voltages have different voltage levels.