초록 ▼

System and method for a burst-mode switching voltage regulator with good stability and small output voltage ripple. A preferred embodiment comprises a current sense circuit coupled to a power switch in the burst-mode switching voltage regulator to sense a current flowing through the power switch. Th

System and method for a burst-mode switching voltage regulator with good stability and small output voltage ripple. A preferred embodiment comprises a current sense circuit coupled to a power switch in the burst-mode switching voltage regulator to sense a current flowing through the power switch. The sensed current can then be used (in conjunction with a feedback control signal that is based on the output voltage and is generated at the output of the burst-mode switching generator) to control the operation of the power switch to regulate the output voltage of the burst-mode switching voltage regulator. This enables the use of an output regulator with a small equivalent series resistance to minimize voltage ripple while providing good operational stability and fast transient response.

대표청구항 ▼

What is claimed is: 1. A voltage regulator circuit having a signal output, the signal output coupled to an output capacitor, the voltage regulator circuit comprising: a power switch coupled to an input power source, the power switch to selectively complete a current path from the input power source

What is claimed is: 1. A voltage regulator circuit having a signal output, the signal output coupled to an output capacitor, the voltage regulator circuit comprising: a power switch coupled to an input power source, the power switch to selectively complete a current path from the input power source through an energy storage device to provide an output current at a specified voltage level; a current sense circuit coupled to the power switch, the current sense circuit being configured to detect a current flowing through the power switch and generate a current signal consisting essentially of an AC component thereof; and a feedback compensator circuit coupled to the current sense circuit and to a feedback control signal line, the feedback compensator circuit being configured to generate a signal based upon the current signal and a voltage feedback control signal that is a direct measurement of the output voltage and is to be used to control the state of the power switch. 2. The voltage regulator circuit of claim 1, wherein the voltage feedback control signal is provided by a resistor-divider network coupled in parallel to the output capacitor. 3. The voltage regulator circuit of claim 1 further comprising: an amplifier coupled between the current sense circuit and the feedback compensator circuit, the amplifier to increase the magnitude of the detected current; and a filter coupled between the amplifier and the feedback compensator circuit, the filter to eliminate any direct current (DC) offset present in the amplified detected current. 4. The voltage regulator circuit of claim 1 further comprising a logic circuit coupled between the feedback compensator circuit and the power switch, the logic circuit being configured to generate a control signal to control the state of the power switch based upon an output produced by the feedback compensator circuit. 5. The voltage regulator circuit of claim 1, wherein the current sense circuit comprises a ratio switch coupled in series with a resistor that is coupled to the input power source, wherein the ratio switch and the resistor is coupled in parallel with the power switch, and wherein both the power switch and the ratio switch are controlled by the same control signal. 6. The voltage regulator circuit of claim 5, wherein the ratio switch and the power switch are implemented as transistors, and wherein the transistor used for the power switch is substantially larger than the transistor used for the ratio switch. 7. The voltage regulator circuit of claim 1, wherein the feedback compensator circuit comprises: a summing point coupled to the current sense circuit and receiving the current signal and the voltage feedback control signal, the summing point to combine by the current signal and the voltage feedback control signal; and a comparator having a first input coupled to an output of the summing point and a second input coupled to a reference voltage supply, the comparator to produce an output signal based upon a comparison of the output of the summing point and a signal produced by the reference voltage supply. 8. A burst-mode switching voltage regulator comprising: a voltage regulator circuit having an output coupled to an output capacitor, wherein the output capacitor has a low equivalent series resistance, the voltage regulator circuit being configured to provide an output voltage, the voltage regulator circuit comprising: a power switch coupled to an input power source, the power switch to selectively complete a current path from the input power source through an energy storage device to provide an output current at a specified voltage level; a current sense circuit coupled to the power switch, the current sense circuit being configured to detect a current flowing through the power switch and generate a current signal consisting essentially of an AC component thereof; a feedback compensator circuit coupled to the current sense circuit and to a feedback control signal line, the feedback compensator circuit being configured to generate a signal based upon the current signal and a voltage feedback control signal that is a direct measurement of the output voltage and is to be used to control the state of the power switch; and the burst-mode switching voltage regulator further comprises a resistor-divider network coupled in parallel to the output capacitor, the resistor-divider network to provide the voltage feedback control signal. 9. The burst-mode switching voltage regulator of claim 8, wherein the voltage regulator circuit further comprises: an amplifier coupled between the current sense circuit and the feedback compensator circuit, the amplifier to increase the magnitude of the detected current; and a filter coupled between the amplifier and the feedback compensator circuit, the filter to eliminate any direct current (DC) offset present in the amplified detected current. 10. The burst-mode switching voltage regulator of claim 8, wherein the current sense circuit comprises a ratio switch coupled in series with a resistor that is coupled to the input power source, wherein the ratio switch and the resistor is coupled in parallel with the power switch, and wherein both the power switch and the ratio switch is controlled by the same control signal. 11. The burst-mode switching voltage regulator of claim 8, wherein the feedback compensator circuit comprises: a summing point coupled to the current sense circuit and receiving the current signal and the voltage feedback control signal, the summing point to combine the current signal and the voltage feedback control signal; and a comparator having a first input coupled to an output of the summing point and a second input coupled to a reference voltage supply, the comparator to produce an output signal based upon a comparison of the output of the summing point and a signal produced by the reference voltage supply. 12. The burst-mode switching voltage regulator of claim 8, wherein the voltage regulator circuit is integrated into an integrated circuit, and wherein an inductor and the output capacitor are discrete components. 13. The burst-mode switching voltage regulator of claim 8, wherein the burst-mode switching voltage regulator is a buck burst-mode switching voltage regulator. 14. The burst-mode switching voltage regulator of claim 8, wherein the burst-mode switching voltage regulator is a boost burst-mode switching voltage regulator. 15. A method for regulating a voltage in a burst-mode switching voltage regulator, the method comprising: sensing a current feedback signal based upon an output current consisting essentially of an AC component therof; sensing a voltage feedback signal that is a direct measurement of an output voltage; deriving a control signal based upon the current feedback signal and the voltage feedback signal; and using the control signal to control the state of a switch regulating current flow in the burst-mode switching voltage regulator. 16. The method of claim 15 further comprising after the first sensing, processing the current feedback signal. 17. The method of claim 16, wherein the processing comprises: amplifying the current feedback signal; and filtering the current feedback signal. 18. The method of claim 15, wherein the first sensing comprises sensing a current flowing through a ratio transistor that is coupled in parallel with a main transistor, wherein the ratio transistor is significantly smaller than the main transistor. 19. The method of claim 15, wherein the second sensing comprises using a resistor-divider network to produce a scaled version of the output voltage. 20. The method of claim 15, wherein the deriving comprises using a comparator to compare a combination of the current feedback signal and the voyage feedback signal with a reference voltage.