Multiphase voltage regulator using coupled inductors
First Claim
1. A method comprising:
- in response to a first condition not being met;
asserting a control input of a driver to close a low side switch of a first phase leg of a multiphase voltage regulator, wherein the first phase leg includes a first inductor;
in response to a signal to close a first high side switch of the first phase leg, de-asserting the control input to open the low side switch; and
in response to a signal to open the first high side switch, asserting the control input to close the low side switch;
in response to the first condition being met;
de-asserting the control input to open the low side switch;
in response to a signal to close a second high side switch of a second phase leg of the multiphase voltage regulator and to the control input being de-asserted, asserting the control input to close the low side switch, wherein the second phase leg comprises a second inductor magnetically coupled to the first inductor; and
in response to a signal to open the second high side switch and to a second condition being met, wherein the second condition includes the control input being asserted, de-asserting the control input to open the low side switch; and
determining a value of a current flowing through the first inductor, wherein the determining further comprises calculating the value of the current based on a leakage inductance of the first inductor, a magnetizing inductance of the first inductor, an input voltage to the voltage regulator and an output voltage of the voltage regulator;
wherein the second condition further comprises the value of the current flowing through the first inductor being less than or equal to a predetermined value.
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Accused Products
Abstract
In response to a condition not being met, asserting a control input of a driver to close a low side switch in a phase leg of a multiphase voltage regulator using coupled inductors, de-asserting the control input in response to a signal to close a high side switch of the phase leg, and asserting the control input in response to a signal to open the high side switch; and in response to the condition not being met, de-asserting the control input, asserting the control input in response to a signal to close a high side switch of another phase leg, and de-asserting the control input in response to a signal to open the high side switch of the other phase leg and to the current in the phase leg being less than a threshold.
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Citations
15 Claims
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1. A method comprising:
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in response to a first condition not being met; asserting a control input of a driver to close a low side switch of a first phase leg of a multiphase voltage regulator, wherein the first phase leg includes a first inductor; in response to a signal to close a first high side switch of the first phase leg, de-asserting the control input to open the low side switch; and in response to a signal to open the first high side switch, asserting the control input to close the low side switch; in response to the first condition being met; de-asserting the control input to open the low side switch; in response to a signal to close a second high side switch of a second phase leg of the multiphase voltage regulator and to the control input being de-asserted, asserting the control input to close the low side switch, wherein the second phase leg comprises a second inductor magnetically coupled to the first inductor; and in response to a signal to open the second high side switch and to a second condition being met, wherein the second condition includes the control input being asserted, de-asserting the control input to open the low side switch; and determining a value of a current flowing through the first inductor, wherein the determining further comprises calculating the value of the current based on a leakage inductance of the first inductor, a magnetizing inductance of the first inductor, an input voltage to the voltage regulator and an output voltage of the voltage regulator; wherein the second condition further comprises the value of the current flowing through the first inductor being less than or equal to a predetermined value. - View Dependent Claims (2, 3, 4, 5)
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6. An information handling system comprising:
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a central processing unit; and a multiphase voltage regulator coupled to the central processing unit and providing a load current to the information handling system, the voltage regulator including; a first phase leg comprising a first inductor, a first high side switch, and a low side switch; a second phase leg comprising a second inductor and a second high side switch, wherein the second inductor is magnetically coupled to the first inductor; a first driver having a first input, wherein asserting the first input closes the low side switch and de-asserting the input opens the low side switch; a second driver having a second input, wherein asserting the second input closes the second high side switch and de-asserting the second input opens the second high side switch; a third driver having a third input, wherein asserting the third input closes the first high side switch and de-asserting the third input opens the first high side switch; circuitry to determine an induced current in the first inductor; and control logic coupled to the first input, the second input and the third input;
wherein;the control logic is operable in a first mode to; assert the first input to close the low side switch; de-assert the first input to open the low side switch and assert the third input, in response to the beginning of a first time interval; and assert the first input to close the low side switch and de-assert the third input, in response to the end of the first time interval; and the control logic is operable in a second mode to; de-assert the first input to open the first low side switch; assert the first input to close the first low side switch and assert the second input, in response to the beginning of a second time interval; de-assert the second input, in response to the end of the second time interval; and de-assert the first input to open the low side switch, in response to a condition being met, wherein the condition comprises the end of the second time interval and the induced current being less than or equal to a predetermined threshold; wherein the circuitry to determine the induced current comprises a resistor coupled to the first low side switch and to the first inductor. - View Dependent Claims (7, 8, 9, 10, 11)
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12. A multiphase buck voltage regulator comprising:
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a coupled inductor having a first winding and a second winding; a switch operable to direct current in the first winding to electrical ground; a driver having a control input, wherein the driver is operable to close the switch in response to the control input being asserted and operable to open the switch in response to the control input being de-asserted; and control circuitry operable in a first mode and a second mode, wherein the first mode includes; in response to the beginning of a first time interval, begin driving a current through the first winding and de-assert the control input to open the switch; in response to the end of the first time interval, stop driving a current through the first winding and assert the control input to close the switch; in response to the beginning of a second time interval, begin driving a current through the second winding; and in response to the end of the second time interval, stop driving a current through the second winding; and
the second mode includes;in response to the beginning of a third time interval, begin driving a current through the second winding and assert the control input to close the switch; in response to the end of the third time interval, stop driving a current through the second winding; and in response to the end of the third time interval and to an induced current in the first winding being less than or equal to a first predetermined threshold, de-assert the control input to open the switch; and circuitry to calculate the induced current based on a leakage inductance of the first inductor, a magnetizing inductance of the first inductor, an input voltage to the voltage regulator and an output voltage of the voltage regulator. - View Dependent Claims (13, 14, 15)
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Specification