Voltage regulator with dropout detector and bias current limiter and associated methods

That which is claimed is: 1. A voltage regulator comprising: an input terminal configured to receive an input voltage; an output terminal configured to supply an output voltage; a power transistor having a first conduction terminal coupled to the input terminal, a second conduction terminal coupled to the output terminal, and a control terminal; a differential amplifier having a first input to receive a voltage reference, a second input to receive a feedback signal corresponding to the output voltage, and an output to provide a drive signal based on a difference between the voltage reference and the feedback signal; a driver comprising an impedance device coupled to the control terminal of said power transistor, and a driver transistor having a first conduction terminal coupled to the control terminal of said power transistor, and a control terminal receiving the drive signal from said differential amplifier so as to vary a bias current to the control terminal of said power transistor; and a dropout detector and bias current limiter coupled to said power transistor, and comprising a first transistor coupled to the input terminal and to said impedance device, a second transistor coupled to the output terminal and to said first transistor, and a bias current generator coupled to said second transistor. 2. The voltage regulator according to claim 1 wherein: said first transistor has a first conduction terminal coupled to the input terminal, a second conduction terminal coupled to said impedance device, and a control terminal; said second transistor has a first conduction terminal coupled to the output terminal, a second conduction terminal and a control terminal coupled together and to the control terminal of said first transistor; and said bias current generator is coupled to the second conduction terminal of said second transistor. 3. The voltage regulator according to claim 2 wherein said bias current generator is configured to generate a second bias current; and wherein said first and second transistors are configured as a current mirror so that the bias current for said power transistor mirrors the second bias current. 4. The voltage regulator according to claim 2 wherein the dropout detector and bias current limiter further comprises: a third transistor having a first conduction terminal coupled to the input terminal, a control terminal coupled to the control terminal of said first transistor, and a second conduction terminal; and a fourth transistor having a first conduction terminal coupled to the second conduction terminal of said third transistor, a control terminal coupled to said impedance device and to the control terminal of said power transistor, and a second conduction terminal coupled to said differential amplifier. 5. The voltage regulator according to claim 4 further comprising a current source coupled between the input terminal and said differential amplifier, and also coupled in parallel to said third and fourth transistors. 6. The voltage regulator according to claim 1 further comprising: a resistive divider coupled to the output terminal; and a feedback path coupled between said resistive divider and the second input of said differential amplifier to provide the feedback signal thereto. 7. The voltage regulator according to claim 1 wherein said impedance device is configured to have an impedance so that a voltage across said impedance device corresponds to a voltage across said power transistor. 8. The voltage regulator according to claim 7 wherein said impedance device comprises at least one of a resistance, a transistor configured as a diode, and a resistance coupled in series with a transistor configured as a diode. 9. The voltage regulator according to claim 1 further comprising a current source coupled between the input terminal and said differential amplifier. 10. The voltage regulator according to claim 1 further comprising a reference voltage source coupled to the first input of said differential amplifier providing the reference voltage. 11. The voltage regulator according to claim 1 wherein said power transistor comprises a p-channel MOSFET and said driver transistor comprises an n-channel MOSFET. 12. A voltage regulator comprising: an input terminal configured to receive an input voltage; an output terminal configured to supply an output voltage; a power transistor having a first conduction terminal coupled to the input terminal, a second conduction terminal coupled to the output terminal, and a control terminal; a differential amplifier having a first input to receive a voltage reference, a second input to receive a feedback signal corresponding to the output voltage, and an output to provide a drive signal based on a difference between the voltage reference and the feedback signal; a reference voltage source coupled to the first input of said differential amplifier providing the reference voltage; a driver comprising an impedance device coupled to the control terminal of said power transistor, and a driver transistor having a first conduction terminal coupled to the control terminal of said power transistor, and a control terminal receiving the drive signal from said differential amplifier, so as to vary a bias current to the control terminal of said power transistor; and a dropout detector and bias current limiter coupled to said power transistor and comprising a first transistor having a first conduction terminal coupled to the input terminal, a second conduction terminal coupled to said impedance device, and a control terminal, a second transistor having a first conduction terminal coupled to the output terminal, a second conduction terminal and a control terminal coupled together and to the control terminal of said first transistor, and a bias current generator coupled to the second conduction terminal of said second transistor. 13. The voltage regulator according to claim 12 wherein said bias current generator is configured to generate a second bias current; and wherein said first and second transistors are configured as a current mirror so that the bias current for said power transistor mirrors the second bias current. 14. The voltage regulator according to claim 12 further comprising: a third transistor having a first conduction terminal coupled to the input terminal, a control terminal coupled to the control terminal of said first transistor, and a second conduction terminal; and a fourth transistor having a first conduction terminal coupled to the second conduction terminal of said third transistor, a control terminal coupled to said impedance device and to the control terminal of said power transistor, and a second conduction terminal coupled to said differential amplifier. 15. The voltage regulator according to claim 14 further comprising a current source coupled between the input terminal and said differential amplifier, and also coupled in parallel to said third and fourth transistors. 16. The voltage regulator according to claim 12 further comprising: a resistive divider coupled to the output terminal; and a feedback path coupled between said resistive divider and the second input of said differential amplifier to provide the feedback signal thereto. 17. The voltage regulator according to claim 12 wherein said impedance device is configured to have an impedance so that a voltage across said impedance device corresponds to a voltage across said power transistor. 18. The voltage regulator according to claim 7 wherein said impedance device comprises at least