Method and apparatus for load adaptive LDO bias and compensation
First Claim
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1. An adaptive low dropout (LDO) regulator comprising:
- a pass gate, having a pass gate output and having a control input for receiving a pass gate control signal, wherein the pass gate is configured to provide, for a load current, a variable resistance current path from an external power rail to the pass gate output, at a resistance based, at least in part, on the pass gate control signal, and to output the load current from the pass gate output;
a load-based bias controller circuit, configured to generate a load-based bias control signal at a value that corresponds to the load current, wherein the load-based bias control signal switches from a first bias control level to a second bias control level in response to the load current increasing past a threshold and switches from the second bias control level to the first bias control level in response to the load current decreasing from a level that is above the threshold to a level that is less than the threshold;
an adaptive bias differential amplifier, having a first input, a second input and a transistor, wherein the first input is coupled to the pass gate output, and the transistor has a gate coupled to the first input or to the second input,wherein the adaptive bias differential amplifier is configured to receive the load-based bias control signal with a bias current, the bias current being, in response to the first bias control level of the load-based bias control signal, a light load bias current and, in response to the second bias control level of the load-based bias control signal, being a heavy load bias current, wherein the light load bias current is higher than the heavy load bias current, and wherein the adaptive bias differential amplifier is further configured to generate the pass gate control signal based on voltages received on the first input and the second input.
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Abstract
An adaptive low dropout (LDO) regulator includes a load-based bias controller that generates a bias control signal based on the output load current, and has a differential amplifier with a bias adjustment that receives the bias control signal and responds by adjusting a bias of a transistor within the adaptive LOD regulator. Optionally, the bias control signal is generated according to a hysteresis rule. Optionally, the adaptive LOD regulator includes an adaptive load-based compensation network having a zero, the zero having a location based, at least in part, one more of an adjustable resistance or capacitance value controlled by the load-based bias controller.
52 Citations
14 Claims
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1. An adaptive low dropout (LDO) regulator comprising:
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a pass gate, having a pass gate output and having a control input for receiving a pass gate control signal, wherein the pass gate is configured to provide, for a load current, a variable resistance current path from an external power rail to the pass gate output, at a resistance based, at least in part, on the pass gate control signal, and to output the load current from the pass gate output; a load-based bias controller circuit, configured to generate a load-based bias control signal at a value that corresponds to the load current, wherein the load-based bias control signal switches from a first bias control level to a second bias control level in response to the load current increasing past a threshold and switches from the second bias control level to the first bias control level in response to the load current decreasing from a level that is above the threshold to a level that is less than the threshold; an adaptive bias differential amplifier, having a first input, a second input and a transistor, wherein the first input is coupled to the pass gate output, and the transistor has a gate coupled to the first input or to the second input, wherein the adaptive bias differential amplifier is configured to receive the load-based bias control signal with a bias current, the bias current being, in response to the first bias control level of the load-based bias control signal, a light load bias current and, in response to the second bias control level of the load-based bias control signal, being a heavy load bias current, wherein the light load bias current is higher than the heavy load bias current, and wherein the adaptive bias differential amplifier is further configured to generate the pass gate control signal based on voltages received on the first input and the second input. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for controlling a low dropout (LDO) regulator having a voltage-controlled pass gate that includes a pass gate output and having a transistor-based differential amplifier that is configured to control the voltage-controlled pass gate to pass a load current from a power rail to the pass gate output, comprising:
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generating a bias control signal, wherein the bias control signal is indicative of a characteristic of the load current, wherein generating the bias control signal switches a value of the bias control signal from a first bias control level to a second bias control level in response to the load current increasing past a threshold level, and switches the value of the bias control signal from the second bias control level to the first bias control level in response to the load current decreasing from a level above the threshold level to a level less than the threshold level; and biasing the transistor-based differential amplifier with a load bias current, wherein the load bias current is according to the bias control signal, wherein, in response to the first bias control level, the load bias current is a light load bias current and, in response to the second bias control level, the load bias current is a heavy load bias current, and wherein the light load bias current level is higher than the heavy load bias current. - View Dependent Claims (10, 11)
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12. A low dropout (LDO) regulator comprising:
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a pass gate, configured to receive pass gate control signal, and configured to provide, for a load current, a variable resistance current path from an external power rail to a pass gate output, at a resistance based, at least in part, on the pass gate control signal, and to output the load current from the pass gate output; a differential amplifier having a first input, a second input, and a transistor, wherein the first input is coupled to the pass gate output, wherein the transistor has a gate coupled to the first input or to the second input, wherein the differential amplifier is configured to generate the pass gate control signal based on voltages received on the first input and the second input; and means for adapting a bias of the transistor according to the load current, wherein said means comprises means for generating a bias control signal, wherein the means for generating the bias control signal is configured to switch a value of the bias control signal, in response to the load current increasing past a threshold level, from a first bias control level to a second bias control level and, in response to the load current decreasing from a level above the threshold level to a level less than the threshold level, to switch the value of the bias control signal from the second bias control level to the first bias control level, and means for biasing the transistor with a load bias current, wherein the load bias current is according to the bias control signal, wherein, in response to the first bias control level, the load bias current has a light load bias current and, in response to the second bias control level, the load bias current has a heavy load bias current, and wherein the light load bias current is higher than the heavy load bias current. - View Dependent Claims (13)
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14. A method for controlling a low dropout (LDO) regulator having a pass gate output and having a transistor-based differential amplifier that is configured to control a voltage-controlled pass gate to pass a load current from a power rail to the pass gate output, comprising:
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generating a bias control signal indicative of a magnitude of the load current; and biasing the transistor-based differential amplifier with a load bias current, wherein the load bias current is at a level according to the bias control signal, wherein the bias control signal is generated at stepped values, and wherein the stepped values include; a first bias control level in response to the load current not exceeding a first current threshold, a second bias control level in response to the load current exceeding the first current threshold concurrent with not exceeding a second current threshold that is greater than the first current threshold, and a third bias control level in response to the load current exceeding the second current threshold.
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Specification