Supply modulator, power amplifier having the same, method for controlling the same, and method for controlling the power amplifier

The invention claimed is: 1. A supply modulator comprising: a first amplifier circuit configured to generate a first electrical output signal for driving an electrical load; a control circuit electrically coupled to the first amplifier circuit; and a second amplifier circuit electrically coupled to the control circuit, the second amplifier circuit being configured to generate a second electrical output signal for driving the electrical load, wherein the control circuit is configured to generate a pulsed electrical signal based on the first electrical output signal, and further configured to supply, based on the pulsed electrical signal, an output control signal to the second amplifier circuit for controlling generation of the second electrical output signal, wherein, the supply modulator is configured, in a first mode of operation, for the first amplifier circuit to generate the first electrical output signal in response to a quiescent current of the first amplifier circuit being of a first magnitude that is fixed, for the control circuit to sample the pulsed electrical signal in accordance with a clock signal received by the control circuit to generate a modulated electrical signal as the output control signal, and for the second amplifier circuit, for generating the second electrical output signal, to operate at a first frequency in accordance with a temporal-related parameter of the modulated electrical signal, and in a second mode of operation, for the first amplifier circuit to generate the first electrical output signal in response to the quiescent current being of a second magnitude that is variable, for the control circuit to provide the pulsed electrical signal as the output control signal, and for the second amplifier circuit, for generating the second electrical output signal, to operate at a second frequency in accordance with a temporal-related parameter of the pulsed electrical signal. 2. The supply modulator as claimed in claim 1 , further comprising: a current controller circuit, wherein, in the second mode of operation, the current controller circuit is configured to: receive an input signal, compare a magnitude of the input signal against a plurality of reference magnitude levels, and adjust a magnitude of at least one bias current for the first amplifier circuit in accordance with results of the comparison against the plurality of reference magnitude levels; and the supply modulator is configured for the first amplifier circuit to generate the first electrical output signal in response to the quiescent current and the at least one bias current. 3. The supply modulator as claimed in claim 2 , wherein the current controller circuit comprises: a plurality of comparators; and a plurality of switches, wherein each switch of the plurality of switches is associated with a respective comparator of the plurality of comparators, wherein, for adjusting the magnitude of the at least one bias current, for each comparator of the plurality of comparators, the comparator is configured to compare the magnitude of the input signal against a respective reference magnitude level of the plurality of reference magnitude levels, and the switch associated with the comparator is configured to be in one of two states in accordance with result of the comparison corresponding to the comparator. 4. The supply modulator as claimed in claim 2 , wherein the first amplifier circuit comprises: a first circuit, a second circuit, and a third circuit electrically coupled to each other, wherein the first circuit is configured to receive the input signal, and further configured to provide gain to the input signal for generating the first electrical output signal, and wherein the second circuit is configured to provide, based on the at least one bias current, one or more biasing voltages to the third circuit to control the third circuit for generating the first electrical output signal. 5. The supply modulator as claimed in claim 1 , wherein the control circuit comprises a comparator configured to generate the pulsed electrical signal based on the first electrical output signal. 6. The supply modulator as claimed in claim 1 , wherein the control circuit comprises a sampling circuit, wherein the supply modulator is configured, in the first mode of operation, for the sampling circuit to sample the pulsed electrical signal in accordance with the clock signal to generate the modulated electrical signal as the output control signal, and in the second mode of operation, for the sampling circuit to pass through the pulsed electrical signal as the output control signal. 7. The supply modulator as claimed in claim 1 , wherein the control circuit comprises: a sensing circuit, wherein the sensing circuit is configured, for generating the pulsed electrical signal, to generate a sensing electrical signal based on the first electrical output signal, the sensing electrical signal having a magnitude that is scaled by a defined factor relative to a magnitude of the first electrical output signal. 8. The supply modulator as claimed in claim 1 , wherein the second amplifier circuit comprises: a pair of transistors coupled to each other, wherein the pair of transistors is configured for generating the second electrical output signal. 9. The supply modulator as claimed in claim 8 , wherein the second amplifier circuit further comprises: a sub-circuit electrically coupled to the pair of transistors, wherein the sub-circuit is configured to introduce propagating delay to the output control signal supplied by the control circuit to generate respective electrical signals to the pair of transistors for generating the second electrical output signal, the respective electrical signals being at least substantially non-overlapping temporally. 10. The supply modulator as claimed in claim 1 , further comprising: an inductor to reduce a switching noise of the second amplifier circuit. 11. A power amplifier comprising: the supply modulator as claimed in claim 1 ; and an electrical load electrically coupled to the supply modulator, wherein the supply modulator is configured to receive an input signal, and further configured to track an envelope of the input signal for generating the first electrical output signal and the second electrical output signal for driving the electrical load. 12. A method for controlling a supply modulator comprising: generating, by means of a first amplifier circuit of the supply modulator, a first electrical output signal for driving an electrical load; generating, by means of a control circuit of the supply modulator, a pulsed electrical signal based on the first electrical output signal; generating, by means of a second amplifier circuit of the supply modulator, a second electrical output signal for driving the electrical load; and supplying, based on the pulsed electrical signal and by means of the control circuit, an output control signal for controlling generation of the second electrical output signal, wherein, in a first mode of operation, the method comprises: generating the first electrical output signal in response to a quiescent current of the first amplifier circuit being of a first magnitude that is fixed; sampling, by means of the control circuit, the pulsed electrical signal in accordance with a clock signal to generate a modulated electrical signal as the output control signal; and operating the second amplifier circuit at a first frequency in accordance with a temporal-related parameter of the modulated electrical signal for generating the second electrical output signal; wherein, in a second mode of operat