Multiple voltage regulator integrated circuit having control circuits for selectively disabling a voltage regulator in an over-current condition
First Claim
1. In an integrated circuit having a first voltage regulator providing a first output current to a first load and having a second voltage regulator providing a second output current to a second load, a method of selectively disabling a single one of said first and second voltage regulators having an over-current condition, comprising the steps of:
- monitoring the magnitudes of said first and second output currents;
comparing the magnitude of said first output current to a first threshold current magnitude and generating a first over-current signal only when the magnitude of said first output current exceeds said first threshold current magnitude;
comparing the magnitude of said second output current to a second threshold current magnitude and generating a second over-current signal only when the magnitude of said second output current exceeds said second threshold current magnitude;
monitoring the magnitude of the temperature of the integrated circuit;
comparing the magnitude of said temperature to a selected threshold temperature magnitude and generating a single over-temperature signal when said magnitude of said temperature exceeds said selected threshold temperature magnitude; and
disabling only a single one of said first and second voltage regulators when its respective over-current signal is present at the same time as said single over-temperature signal.
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Accused Products
Abstract
A quadruple voltage regulator has four independently controllable power circuits in a single integrated circuit, and includes a current sensor for each of the power circuits. Each current sensor generates an active output signal when the magnitude of the current produced by the corresponding voltage regulator exceeds a selected limit. A single temperature sensing device monitors the temperature of the integrated circuit and generates a control signal when the temperature exceeds a selected threshold temperature magnitude. The output of the each current sensor is independently combined with the control signal from the temperature sensor to disable the corresponding voltage regulator circuit when the temperature exceeds the threshold magnitude coincident with an excess current produced by the regulator.
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Citations
3 Claims
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1. In an integrated circuit having a first voltage regulator providing a first output current to a first load and having a second voltage regulator providing a second output current to a second load, a method of selectively disabling a single one of said first and second voltage regulators having an over-current condition, comprising the steps of:
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monitoring the magnitudes of said first and second output currents; comparing the magnitude of said first output current to a first threshold current magnitude and generating a first over-current signal only when the magnitude of said first output current exceeds said first threshold current magnitude; comparing the magnitude of said second output current to a second threshold current magnitude and generating a second over-current signal only when the magnitude of said second output current exceeds said second threshold current magnitude; monitoring the magnitude of the temperature of the integrated circuit; comparing the magnitude of said temperature to a selected threshold temperature magnitude and generating a single over-temperature signal when said magnitude of said temperature exceeds said selected threshold temperature magnitude; and disabling only a single one of said first and second voltage regulators when its respective over-current signal is present at the same time as said single over-temperature signal.
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2. An integrated circuit which provides a plurality of regulated output voltages to a plurality of loads, said integrated circuit comprising:
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a first voltage regulator which provides a first output voltage; a second voltage regulator which provides a second output voltage; a temperature sensor which generates a single active over-temperature signal when the magnitude of the temperature of said integrated circuit exceeds a threshold temperature magnitude; a first control circuit comprising; a first current sensor which monitors a first output current provided by said first voltage regulator, and which compares the magnitude of said first output current to a first threshold current magnitude, and which provides a first over-current signal that has an active state when said first output current exceeds said first threshold current magnitude; and a first memory circuit which selectively enables and disables said first voltage regulator, said first memory circuit operable in response to the coincidence of said single active over-temperature signal and said active state of said first over-current signal and disables only said first voltage regulator without disabling said second voltage regulator; and a second control circuit comprising; a second current sensor which monitors a second output current provided by said second voltage regulator, and which compares the magnitude of said second output current to a second threshold current magnitude, and which provides a second over-current signal that has an active state when said second output current exceeds said second threshold current magnitude; and a second memory circuit which selectively enables and disables said second voltage regulator, said second memory circuit operable in response to the coincidence of said single active over-temperature signal and said active state of said second over-current signal and disables only said second voltage regulator without disabling said first voltage regulator. - View Dependent Claims (3)
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Specification