Signal amplifier circuit having high power supply rejection ratio and driving circuit thereof

What is claimed is: 1. A signal amplifier circuit, comprising: a pre-amplifier circuit, which is configured to operably generate a driving signal at a driving control node; and a driver circuit, which is configured to operably convert an input power to an output power, wherein the driver circuit includes: a driving transistor having a first terminal coupled to the input power, a second terminal coupled to the output power, and a control terminal coupled to the driving signal, wherein a voltage difference between the first terminal of the driving transistor and the control terminal of the driving transistor determines a conduction level of the driving transistor, so as to convert the input power to the output power; and a power rejection circuit, which is configured to operably generate a power rejection signal at the driving control node according to the input power, to reject an AC component of a power noise of the input power so as to increase the power supply rejection ratio, wherein the power rejection signal has an AC component; wherein the power rejection circuit includes: a noise selection circuit, which is configured to operably detect and determine whether the driving transistor operates in a first operation region; wherein when the driving transistor operates in the first operation region, the noise selection circuit senses the AC component of the power noise of the input power according to a voltage difference between the first terminal and the second terminal, so as to generate an operation noise signal; wherein the power rejection circuit is configured to operably generate the power rejection signal at the driving control node according to the operation noise signal; wherein within the first operation region, an output resistance of the driving transistor is smaller than a predetermined resistance threshold. 2. The signal amplifier circuit of claim 1 , wherein the power rejection circuit further includes at least one unilateral control circuit, wherein each unilateral control circuit has a corresponding input terminal and a corresponding output terminal; wherein the at least one unilateral control circuit includes a first unilateral control circuit, wherein an input terminal of the first unilateral control circuit is coupled to the noise selection circuit, and an output terminal of the first unilateral control circuit is coupled to the driving control node, wherein the first unilateral control circuit is configured to operably receive an AC component of the operation noise signal, to generate the power rejection signal at the driving control node; and wherein the first unilateral control circuit unilaterally injects the power rejection signal into the driving control node. 3. The signal amplifier circuit of claim 2 , wherein the at least one unilateral control circuit further includes a second unilateral control circuit, wherein an input terminal of the second unilateral control circuit is electrically connected to the input power, and an output terminal of the second unilateral control circuit is coupled to the driving control node, wherein the second unilateral control circuit is configured to operably receive the AC component of the power noise, to generate the power rejection signal; and wherein the second unilateral control circuit unilaterally injects the power rejection signal into the driving control node. 4. The signal amplifier circuit of claim 3 , wherein the pre-amplifier circuit includes a first gain stage circuit and a second gain stage circuit, wherein the second gain stage circuit is configured to operably generate the driving signal according to an output signal of the first gain stage circuit; and wherein the at least one unilateral control circuit further includes a third unilateral control circuit, wherein an input terminal of the third unilateral control circuit is electrically connected to the output signal of the first gain stage circuit, and an output terminal of the third unilateral control circuit is coupled to the driving control node, wherein the third unilateral control circuit is configured to operably receive the AC component of the output signal of the first gain stage circuit, to generate a feed-forward compensation signal; and wherein the third unilateral control circuit unilaterally injects the feed-forward compensation signal into the driving control node, thereby performing signal compensation on the signal amplifier circuit. 5. The signal amplifier circuit of claim 1 , wherein the noise selection circuit includes: a sensing transistor having a first terminal, a second terminal and a control terminal, wherein the sensing transistor is of a same type as the driving transistor, wherein the first terminal of the sensing transistor is coupled to the input power, and the control terminal of the sensing transistor is configured to operably receive the driving signal; a reference transistor having a first terminal, a second terminal and a control terminal, wherein the reference transistor is of a same type as the driving transistor, wherein the first terminal of the reference transistor is coupled to the input power, and the control terminal of the reference transistor is configured to operably receive the driving signal; a first current control circuit, which is configured to operably regulate a voltage of the second terminal of the sensing transistor according to a voltage of the second terminal of the driving transistor, such that the sensing transistor and the driving transistor concurrently operate in the first operation region or concurrently operate a second operation region, whereby a conduction current of the sensing transistor is positively proportional to a conduction current of the driving transistor; a second current control circuit, which is configured to operably regulate a voltage of the second terminal of the reference transistor according to a reference voltage, such that the reference transistor operates in the second operation region; wherein when the driving transistor operates in the second operation region, the output resistance of the driving transistor is equal to or greater than the predetermined resistance threshold; and a differential current amplifier circuit, which is configured to operably generate the operation noise signal according to a difference between the conduction current of the sensing transistor and the conduction current of the reference transistor. 6. The signal amplifier circuit of claim 5 , wherein the driving transistor is a metal-oxide-semiconductor (MOS) transistor, wherein the first operation region corresponds to an linear region of the MOS transistor, while the second operation region corresponds to a saturation region of the MOS transistor. 7. The signal amplifier circuit of claim 2 , wherein each unilateral control circuit includes: an input capacitor, wherein a first terminal of the input capacitor is coupled to the input terminal of the unilateral control circuit; an unilateral current amplifier circuit including a current amplification transistor, wherein the current amplification transistor has a first terminal, a second terminal and a control terminal, wherein the first terminal of the current amplification transistor is coupled to a second terminal of the input capacitor, and the control terminal of the current amplification transistor is coupled to a bias voltage; and an output capacitor, wherein a first terminal of the output capacitor is coupled to the second terminal of the current amplification transistor, and a second terminal of the output capacitor is coupled to the output terminal of the unilateral control circuit. 8. The signal amplifier circuit of claim 4 , wherein each unilateral control circuit includes: an input capacitor, wherein a firs