Power amplifying apparatus

What is claimed is: 1. A power amplifying apparatus, comprising: a radio frequency (RF) power amplifier configured to receive an input RF signal and to output an amplified RF signal; a supply modulating unit configured to provide the RF power amplifier with a supply voltage which varies with an original envelope of the input RF signal; a phase shifting unit configured to receive a control signal and to shift a phase of the input RF signal to be inputted to the RF power amplifier by a shift amount which varies with the control signal; and an envelope shaping unit configured to receive the original envelope and to provide the phase shifting unit with the control signal which varies with the original envelope, the phase shifting unit comprising: a variable phase delayer configured to delay the phase of the input RF signal; and an operational transconductance amplifier (OTA) including an input port and an output port, the OTA being configured to receive the control signal from the envelope shaping unit via the input port and to provide the variable phase delayer with a control voltage. 2. The power amplifying apparatus of claim 1 , wherein the envelope shaping unit is configured to generate the control signal independently from the amplified RF signal and the supply voltage. 3. The power amplifying apparatus of claim 1 , wherein the envelope shaping unit includes a mapping table which stores a plurality of control signal values respectively corresponding to a plurality of envelope values. 4. The power amplifying apparatus of claim 1 , wherein the envelope shaping unit includes a calculator which is configured to generate the control signal based on the original envelope and a preset formula. 5. The power amplifying apparatus of claim 1 , wherein the envelope shaping unit is a signal generator. 6. The power amplifying apparatus of claim 1 , wherein the supply modulating unit includes: an additional envelope shaping unit configured to modify the original envelope and to output a modified envelope; and a supply modulator configured to receive the modified envelope and to output the supply voltage. 7. The power amplifying apparatus of claim 6 , wherein the additional envelope shaping unit is configured to obtain the modified envelope by detroughing the original envelope. 8. The power amplifying apparatus of claim 6 , wherein the additional envelope shaping unit is a signal generator. 9. The power amplifying apparatus of claim 6 , wherein the envelope shaping unit is configured to generate the control signal independently from the modified envelope generated by the additional envelope shaping unit. 10. The power amplifying apparatus of claim 1 , wherein the OTA further includes an additional input port which is electrically connected to the output port of the OTA. 11. The power amplifying apparatus of claim 1 , wherein the variable phase delayer includes: a first node via which the input RF signal is transmitted; a second node via which the control voltage is transmitted; a varactor connected between the first node and the second node, the varactor having a capacitance which varies with the control voltage; and an RF bypass capacitor connected between the second node and a ground. 12. A preprocessor module for an envelope tracking (ET) power amplifier which includes a radio frequency (RF) power amplifier and a supply modulator, the preprocessor module comprising: a first envelope shaping unit configured to generate a first modified envelope from an original envelope of an input RF signal to be inputted to the RF power amplifier and providing the supply modulator with the first modified envelope, the first modified envelope being generated such that the ET power amplifier has a preset gain trajectory; a phase shifting unit configured to receive a control signal and to shift a phase of the input RF signal to be inputted to the RF power amplifier by a shift amount which varies with the control signal, wherein the control signal comprises the first modified envelope; and a second envelope shaping unit configured to generate a second modified envelope from the original envelope, and to provide the phase shifting unit with the second modified envelope, wherein the shift amount varies with the second modified envelope, wherein the second modified envelope is generated such that the ET power amplifier has a preset phase trajectory, and wherein the second envelope shaping unit is configured to generate the second modified envelope independently from the first modified envelope. 13. The preprocessor module of claim 12 , wherein the second envelope shaping unit is configured to generate the second modified envelope independently from an amplified RF signal which is outputted from the RF power amplifier. 14. The preprocessor module of claim 12 , wherein the second envelope shaping unit includes a mapping table which stores a plurality of modified envelope values respectively corresponding to a plurality of original envelope values. 15. The preprocessor module of claim 12 , wherein the second envelope shaping unit includes a calculator which is configured to generate the second modified envelope based on the original envelope and a preset formula. 16. The preprocessor module of claim 12 , wherein the second envelope shaping unit is a signal generator. 17. A preprocessor module for an envelope elimination and restoration (EER) amplifier which includes a radio frequency (RF) power amplifier and a supply modulator, the preprocessor module comprising: a phase shifting unit configured to shift an input RF signal to be inputted to the RF power amplifier by a shift amount; and an envelope shaping unit configured to generate a modified envelope from an original envelope of the input RF signal, and to provide the phase shifting unit with the modified envelope, the envelope shaping unit comprising a mapping table, which stores a plurality of modified envelope values respectively corresponding to a plurality of original envelope values, wherein the shift amount varies with the modified envelope, wherein the modified envelope is generated such that the EER amplifier has a preset phase trajectory, and wherein the envelope shaping unit is configured to generate the modified envelope independently from an amplified RF signal which is outputted from the RF power amplifier. 18. The preprocessor module of claim 17 , wherein the envelope shaping unit includes a calculator which is configured to generate the modified envelope based on the original envelope and a preset formula.