Apparatus and method for controlling a power supply
First Claim
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1. A control circuit for controlling a first power supply, comprising:
- a feedback circuit;
an input for coupling to a temporary load through the feedback circuit; and
an output for coupling to the first power supply wherein, in response to the coupling to the temporary load for a predetermined time period, a signal is provided to control the first power supply.
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Abstract
In a dual power supply, a main power supply is shut down by providing a signal from an auxiliary power supply. To generate the shutdown signal, a load is temporarily applied to the output of the auxiliary power supply for a predetermined time. The application of the load is detected using a hysteretic comparator in the auxiliary power supply that remains in a high state for a time period that exceeds a reference time period, which is established by a timer circuit. In response to exceeding the reference time period, the shutdown signal is sent to the main power supply.
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Citations
25 Claims
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1. A control circuit for controlling a first power supply, comprising:
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a feedback circuit;
an input for coupling to a temporary load through the feedback circuit; and
an output for coupling to the first power supply wherein, in response to the coupling to the temporary load for a predetermined time period, a signal is provided to control the first power supply. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a second power supply provides an output supply voltage;
the output of the comparator varies alternately between an on state corresponding to an increasing output supply voltage and an off state corresponding to a decreasing output supply voltage;
the on state corresponds to a first time period prior to the coupling to the temporary load;
in response to the coupling to the temporary load, the output of the comparator goes to the on state for a second time period greater than the first time period; and
in response to the output of the comparator going to the on state for the second time period, the signal is provided to the first power supply.
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3. The control circuit of claim 2 wherein the predetermined time period is greater then the first time period.
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4. The control circuit of claim 2 wherein the comparator is a hysteretic comparator.
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5. The control circuit of claim 2 further comprising a timer circuit having an input coupled to the output of the comparator and having an output for providing the signal to control the first power supply in response to the second time period exceeding a reference time period.
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6. The control circuit of claim 5 wherein the average power output of the second power supply is less than the average power output of the first power supply.
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7. The control circuit of claim 5 wherein the signal is used to turn the first power supply on and off.
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8. A control circuit for controlling a first power supply, comprising:
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a first control input for receiving a feedback signal;
a feedback circuit having an output for providing the feedback signal;
a first comparator for generating, responsive to the feedback signal, a compare signal having a first state and a second state;
a first control output for providing a control signal to the first power supply, wherein the control signal changes state in response to the compare signal being in the first state for a time period exceeding a reference time period;
a second control input for coupling to a power circuit to receive a signal indicative of the current supplied to the power circuit, wherein an output of the power circuit is coupled to an input of the feedback circuit;
a second control output for coupling to the power circuit to control the current supplied to the power circuit;
a logic gate having a first input coupled to an output of the first comparator and having an output coupled to the second control output of the control circuit; and
a timer circuit having an input coupled to the output of the first comparator and an output coupled to the first control output of the control circuit. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
the feedback circuit further comprises a voltage divider; and
the power circuit further comprises;
a transformer having a primary side coupled to the second control input of the control circuit and a secondary side coupled to the output of the power circuit; and
a transistor having a control electrode coupled to the second control output of the control circuit and having a current electrode coupled to the primary side of the transformer.
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10. The control circuit of claim 8 further comprising:
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a latch having an output coupled to a second input of the logic gate, a first input coupled to an oscillator, and a second input coupled to the second control input of the control circuit; and
a reference voltage coupled to a non-inverting input to the first comparator, wherein an inverting input to the first comparator is coupled to the first control input of the control circuit.
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11. The control circuit of claim 8 wherein the timer circuit comprises:
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a second comparator;
a latch having an input coupled to an output of the second comparator and having an output for providing the control signal to the first power supply; and
a resistor and capacitor coupled to a non-inverting input of the second comparator for providing the reference time period.
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12. The control circuit of claim 8 wherein:
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the output of the power circuit is coupled continuously to a control load;
the input of the feedback circuit is temporarily coupled to a temporary load for a predetermined time; and
the control signal is responsive to the feedback circuit being temporarily coupled to the temporary load.
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13. The control circuit of claim 12 wherein the temporary load is coupled to the feedback circuit by activating a switch coupled to the temporary load, wherein the switch comprises a control input for receiving a switching signal from control circuitry in the control load.
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14. The control circuit of claim 13 wherein the control circuitry in the control load comprises a microprocessor having an output coupled to provide the switching signal.
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15. The control circuit of claim 8 wherein the control signal is provided to a second power supply for switching the first power supply on and off.
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16. A dual power supply, comprising:
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a first power supply comprising a control circuit and a power circuit, wherein the power circuit has an output for coupling to a temporary load;
a second power supply coupled to an output of the control circuit; and
wherein the control circuit generates a signal to control the second power supply in response to the coupling to the temporary load for a time period that exceeds a reference time period. - View Dependent Claims (17)
a hysteretic comparator having an input coupled to the output of the power circuit; and
a timer circuit having an input coupled to an output of the hysteretic comparator, wherein an output of the timer circuit provides the signal to control the second power supply.
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18. A method of operating a dual power supply, wherein the dual power supply comprises a first power supply and a second power supply, comprising:
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coupling a temporary load to an output of the first power supply; and
responsive to the coupling of the temporary load for a predetermined time, providing a signal to the second power supply for switching the second power supply on and off. - View Dependent Claims (19, 20, 21)
detecting the coupling of the temporary load by monitoring a time period that an output from a comparator is in a first state, wherein the comparator has an input coupled to the output of the first power supply and wherein the output of the comparator alternates between a first state and a second state; and
providing the signal to the second power supply when the time period exceeds a reference time period.
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20. The method of claim 19 wherein:
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prior to coupling the temporary load, the voltage of the output of the first power supply rises and falls between a first level and a second level;
prior to coupling the temporary load, the first state of the output of the comparator corresponds to an increasing voltage at the output of the first power supply and the second state of the output of the comparator corresponds to a decreasing voltage at the output of the first power supply; and
after coupling the temporary load, the first state of the output of the comparator corresponds to a decreasing voltage at the output of the first power supply.
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21. The method of claim 20 wherein the signal to the second power supply is alternately latched between an on state and an off state;
- wherein the on state corresponds to turning on the second power supply and the off state corresponds to turning off the second power supply.
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22. A method of operating a first power supply, comprising:
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applying a temporary load to a second power supply to provide a signal for controlling the first power supply, wherein the second power supply comprises a comparator and further comprising providing the signal to the first power supply responsive to an output of the comparator remaining in an on state longer than a reference time period. - View Dependent Claims (23, 24, 25)
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Specification
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Current AssigneeSemiconductor Components Industries LLC (ON Semiconductor Corporation)
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Original AssigneeSemiconductor Components Industries LLC (ON Semiconductor Corporation)
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InventorsBasso, Christophe
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Primary Examiner(s)TOATLEY, GREGORY J
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Application NumberUS09/785,084Publication NumberTime in Patent Office1,323 DaysField of Search307/43, 307/44, 307/130, 323/234, 348/730US Class Current307/43CPC Class CodesH02J 9/005 using a power saving mode f...
