Power amplifier and input signal adjusting method

What is claimed is: 1. A power amplifier comprising: a class-D amplifier that comprises an input portion and a switching device, wherein the switching device is switched in accordance with an input signal that is input to the input portion so that a current is supplied to a load from a power source via the switching device; and an input signal supplier configured to supply the input signal to the input portion of the class-D amplifier, to calculate a virtual output voltage to be output from a virtual power source having a prescribed internal impedance characteristic when a current to flow through the load is output from the virtual power source, and to adjust an amplitude of the input signal in accordance with the virtual output voltage. 2. The power amplifier according to claim 1 , wherein the input signal supplier comprises a signal processing circuit which performs a signal amplification processing based on an internal impedance characteristic of a virtual power source that is a simulation of a power source for a vacuum tube amplifier to adjust the amplitude of the input signal. 3. The power amplifier according to claim 2 , wherein the signal processing circuit performs a signal amplification processing based on the virtual power source that is a simulation of a power source circuit for the vacuum tube amplifier having an internal inductance Ld=L×(n 2 /n 1 ) 2 , an internal resistance Rsd=Rs×(n 2 /n 1 ) 2 , and an internal capacitance Cd=C×(n 1 /n 2 ) 2 , where L, Rs, and C are the internal inductance, internal resistance, and internal capacitance of the power source circuit for the vacuum tube amplifier, respectively, and n 1 and n 2 are the number of turns of the primary side and that of the secondary side of an output transformer of the vacuum tube amplifier. 4. The power amplifier according to claim 1 , wherein the input signal supplier calculates the virtual output voltage of the virtual power source from the current to flow through the load based on information indicating a configuration of an equivalent circuit of the virtual power source. 5. The power amplifier according to claim 1 , wherein the input signal supplier calculates the virtual output voltage of the virtual power source based on the current to flow through the load according to an output current versus output voltage characteristic of the virtual power source. 6. The power amplifier according to claim 1 , further comprising: a load current feedback circuit configured to negatively feed back the current flowing through the load to the input portion of the class-D amplifier. 7. An input signal adjusting method for adjusting an input signal which is input to an input portion of a class-D amplifier, the class-D amplifier comprising the input portion and a switching device, wherein the switching device is switched in accordance with the input signal so that a current is supplied to a load from a power source via the switching device, the input signal adjusting method comprising: calculating a virtual output voltage to be output from a virtual power source having a prescribed internal impedance characteristic when a current to flow through the load is output from the virtual power source; and adjusting an amplitude of the input signal in accordance with the virtual output voltage. 8. The input signal adjusting method according to claim 7 , wherein in the calculating of the virtual output voltage, the virtual output voltage of the virtual power source is calculated based on an internal impedance characteristic of a virtual power source that is a simulation of a power source for a vacuum tube amplifier. 9. The input signal adjusting method according to claim 8 , wherein in the calculating of the virtual output voltage, the virtual output voltage of the virtual power source is calculated based on the virtual power source including an internal inductance Ld=L×(n 2 /n 1 ) 2 , an internal resistance Rsd=Rs×(n 2 /n 1 ) 2 , and an internal capacitance Cd=C×(n 1 /n 2 ) 2 , where L, Rs, and C are the internal inductance, internal resistance, and internal capacitance of a power source circuit for a vacuum tube amplifier, respectively, and n 1 and n 2 are the number of turns of the primary side and that of the secondary side of an output transformer of the vacuum tube amplifier. 10. The input signal adjusting method according to claim 7 , wherein in the calculating of the virtual output voltage, the virtual output voltage of the virtual power source is calculated from the current to flow through the load based on information indicating a configuration of an equivalent circuit of the virtual power source. 11. The input signal adjusting method according to claim 7 , wherein in the calculating of the virtual output voltage, the virtual output voltage of the virtual power source is calculated based on the current to flow through the load according to an output current versus output voltage characteristic of the virtual power source. 12. The input signal adjusting method according to claim 7 , further comprising: negatively feeding back the current flowing through the load to the input portion of the class-D amplifier.