Soft-start circuit for switching regulator

The invention claimed is: 1. An integrated circuit comprising: a load circuit; a switching regulator for supplying a regulated output voltage to the load circuit, the switching regulator comprising: a switch control circuit including means for generating a pulsed gate voltage signal; a power switch coupled to a system operating voltage source and the load and having a gate terminal connected to receive the pulsed gate voltage signal; and a soft-start circuit including means for generating a direct current (DC) ramp voltage that gradually changes between a first voltage and a second voltage during an initial soft-start operating phase, wherein soft-start circuit is coupled to supply the the DC ramp voltage to the switch control circuit such that an amplitude of the pulsed gate voltage gradually changes between the first and second voltages during the initial soft-start phase, and wherein the soft-start circuit comprises a ramp generator circuit coupled to the gate terminal of one of a PMOS source-follower transistor transistor and an NMOS source-follower transistor, and means for activating the ramp generator at the beginning of the initial soft-start operating phase. 2. The integrated circuit of claim 1 , wherein the switch control circuit comprises: a comparator configured to generate an amplifier control signal in response to a portion of the regulated output voltage and a predetermined reference voltage; a pulse width modulator (PWM) circuit configured to generate a pulse signal in response to an oscillating ramp signal and the amplifier control signal; and an amplifier configured to generate said pulsed gate voltage signal in response to the pulse signal, and wherein the soft-start circuit is coupled to the amplifier such that the DC ramp voltage is supplied to a power terminal of the amplifier. 3. The integrated circuit of claim 1 , wherein the integrated circuit comprises two or more said switching regulators, two or more load circuits respectively coupled to receive regulated voltages from said two or more said switching regulators, said soft-start circuit, and an oscillator that are fabricated on a semiconductor substrate, and wherein a constant-frequency ramp signal generated by said oscillator is transmitted to each of said two or more switching regulators. 4. The integrated circuit of claim 3 , wherein both of the two or more said switching regulators are coupled to receive said DC ramp voltage generated by said soft-start circuit. 5. The integrated circuit of claim 1 , wherein the ramp generator circuit comprises means for generating one of a linear ramp voltage and a non-linear ramp voltage. 6. The integrated circuit of claim 1 , wherein the ramp generator circuit comprises a current source coupled to a capacitor. 7. The integrated circuit of claim 1 , wherein the switching regulator comprises a buck converter; wherein the power switch comprises an n-channel transistor; and wherein the soft-start circuit comprises means for generating said DC ramp voltage such that said DC ramp voltage gradually increases from said first voltage to said second voltage during said initial soft-start operating phase, whereby the amplitude of the pulsed gate voltage incrementally increases between the first voltage and the second voltages during the initial soft-start phase. 8. The integrated circuit of claim 1 , wherein the switching regulator comprises a boost converter; wherein the power switch comprises a p-channel transistor; and wherein the soft-start circuit comprises means for generating said DC ramp voltage such that said DC ramp voltage gradually decreases from said second voltage to said first voltage during said initial soft-start operating phase, whereby the amplitude of the pulsed gate voltage gradually decreases from the second voltage to the first voltage during the initial soft-start phase. 9. The integrated circuit of claim 1 , wherein the soft-start circuit further comprises means for coupling a constant system voltage to the switch control circuit after completion of the initial soft-start phase. 10. The soft-start circuit of claim 1 , wherein the switching regulator comprises a boost converter; wherein the power switch comprises a p-channel transistor; and wherein said means for generating said DC ramp voltage comprises means for causing said DC ramp voltage to gradually decrease from said second voltage to said first voltage during said initial soft-start operating phase, whereby the amplitude of the pulsed gate voltage gradually decreases from the second voltage to the first voltage during the initial soft-start phase. 11. A soft-start circuit for a switching regulator utilized to supply a regulated output voltage to a load circuit, the switching regulator including: a switch control circuit including: a comparator configured to generate an amplifier control signal in response to a portion of the regulated output voltage and a predetermined reference voltage, a pulse width modulator (PWM) configured to generate a pulse signal in response to an oscillating ramp signal and the amplifier control signal, and an amplifier configured to generate a pulsed gate voltage signal in response to the pulse signal; and a power switch coupled to a system operating voltage source and the load circuit and having a gate terminal connected to receive the pulsed gate voltage signal, wherein the soft-start circuit comprises means for generating a direct current (DC) ramp voltage that gradually changes between a first voltage and a second voltage during an initial soft-start operating phase, wherein the soft-start circuit is coupled to supply the DC ramp voltage to a power terminal of the amplifier such that an amplitude of each sequentially occurring voltage pulse of a series of voltage pulses making up the pulsed gate voltage gradually changes between the first and second voltages during the initial soft-start phase in accordance with the DC ramp voltage, and wherein the associated amplitudes of at least some of the sequentially occurring said voltage pulses causes the switch control circuit to partially turn on such that a voltage generated on an output terminal of the power switch gradually changes during the initial soft-start phase at a rate that prevents voltage overshoot in the load circuit. 12. The soft-start circuit of claim 11 , wherein the switching regulator comprises a buck converter; wherein the power switch comprises an n-channel transistor; and wherein said means for generating said DC ramp voltage comprises means for causing said DC ramp voltage to gradually increase from said first voltage to said second voltage during said initial soft-start operating phase, whereby the amplitude of the pulsed gate voltage gradually increases from the first voltage to the second voltage during the initial soft-start phase. 13. A method for generating a soft-start in a switching regulator, the switching regulator including a switch control circuit for generating a pulsed gate voltage signal, and a power switch coupled between a system operating voltage source and a load circuit and having a gate terminal connected to receive the pulsed gate voltage signal, the method comprising: generating a direct current (DC) ramp voltage that gradually changes between a first voltage and a second voltage during an initial soft-start phase; and generating the pulsed gate voltage signal including a series of sequential voltage pulses such that an associated amplitude of each sequentially occurring said voltage pulse of the series of voltage pulses incrementally changes between the first and second voltages during the initial soft-