D.C. power supply circuit and electronic apparatus using such circuits
First Claim
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1. A method for supplying a load voltage to a load, comprising:
- supplying said load voltage from a D.C. power supply coupled to said load, wherein said D.C. power supply asserts a first value when an internal voltage is above a predetermined voltage, asserts a second value when said load voltage is above a reference voltage; and
stops output of said load voltage, when said first value and said second value are asserted; and
supplying said load voltage from a redundant D.C. power supply coupled to said load, so that said load voltage continues to be supplied even if said D.C. power supply stops output of said load voltage.
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Abstract
The present invention relates generally to D.C. power supplies and more particularly to overvoltage protection in one or more D.C. power supply circuits, where a plurality of D.C. power supplies may be connected together to supply power to an electronic system. In one embodiment a D.C. power supply circuit is provided which, when used with the plurality of D.C. power supply circuits connected in parallel, is capable of stopping only the power supply circuit having run into an overvoltage state with minimal effect on the other D.C. power supply circuits. Thus power to the load is continued.
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Citations
25 Claims
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1. A method for supplying a load voltage to a load, comprising:
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supplying said load voltage from a D.C. power supply coupled to said load, wherein said D.C. power supply asserts a first value when an internal voltage is above a predetermined voltage, asserts a second value when said load voltage is above a reference voltage; and
stops output of said load voltage, when said first value and said second value are asserted; and
supplying said load voltage from a redundant D.C. power supply coupled to said load, so that said load voltage continues to be supplied even if said D.C. power supply stops output of said load voltage. - View Dependent Claims (4)
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2. A D.C. power supply system with overvoltage protection for supplying power to a load, comprising a plurality of D.C. power supply circuits connected in parallel, said plurality of D.C. power supply circuits comprising:
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a first D.C. power supply circuit of said plurality of D.C. power supply circuits comprising;
a first overvoltage detection circuit for detecting if a voltage internal to said first D.C. power supply circuit exceeds a first predetermined voltage;
a second overvoltage detection circuit for detecting if a first output of said first D.C. power supply circuit exceeds a first reference voltage, wherein said first output is connected to said load; and
a first control circuit for shutting off said first D.C. power supply circuit, when said first overvoltage detecting circuit detects exceeding of said predetermined voltage and said second overvoltage detecting circuit detects exceeding of said reference voltage; and
a second D.C. power supply circuit of said plurality of D.C. power supply circuits for continuing to supply power to said load, when said first D.C. power supply circuit is shut off due to overvoltage.
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3. A D.C. power supply circuit for obtaining a D.C. output by filtering signals that are pulse width-modulated and rectified, said filtering using a filter, said D.C. power supply comprising:
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a first overvoltage detecting circuit for detecting any surpassing of a first reference voltage by filtering an input of said filter;
a second overvoltage detecting circuit for detecting any surpassing of a second reference voltage by filtering an output of said filter; and
a logic circuit for asserting an overvoltage output when said first overvoltage detecting circuit detects surpassing of said first reference voltage and second overvoltage detecting circuit detects surpassing of said second reference voltage, wherein;
said D.C. output is stopped, when said overvoltage output is asserted.
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5. A D.C. power supply circuit for obtaining a D.C. output by filtering signals that are pulse width-modulated and rectified, said filtering using a filtering circuit, said D.C. power supply comprising:
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a diode coupled at an anode side to said filtering circuit and at a cathode side to a load;
filteringa first overvoltage detecting circuit for detecting any surpassing of a first reference voltage by said anode side voltage of said diode;
a second overvoltage detecting circuit for detecting any surpassing of a second reference voltage by said cathode side voltage of said diode; and
a logic circuit for asserting an overvoltage output when said first overvoltage detecting circuit detects surpassing of said first reference voltage and second overvoltage detecting circuit detects surpassing of said second reference voltage, wherein;
said D.C. output is stopped, when said overvoltage output is asserted.
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6. A D.C. power supply circuit for obtaining a D.C. output by filtering signals that are pulse width-modulated and rectified, said filtering using a filtering circuit, said D.C. power supply comprising:
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a diode coupled at an anode side to said filtering circuit and at a cathode side to a load;
a first overvoltage detecting circuit for detecting any surpassing of a load voltage by an attenuated anode side voltage of said diode;
a second overvoltage detecting circuit for detecting any surpassing of a reference voltage by said cathode side voltage of said diode; and
a logic circuit for asserting an overvoltage output when said first overvoltage detecting circuit detects surpassing of said load voltage and second overvoltage detecting circuit detects surpassing of said reference voltage, wherein;
said D.C. output is stopped, when said overvoltage output is asserted. - View Dependent Claims (7)
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8. An overvoltage circuit in a D.C. power supply, for inhibiting a D.C. output of said D.C. power supply from rising above a prescribed voltage, wherein said D.C. power supply comprises a voltage supplying source coupled to a filter, said overvoltage circuit comprising:
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a first overvoltage detecting circuit coupled to an input of said filter;
a second overvoltage detecting circuit coupled to an output of said filter; and
a logic gate coupled to said first overvoltage detecting circuit and said second overvoltage detecting circuit, said logic gate having a gate output for controlling said voltage supplying source. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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16. An overvoltage system for N+1 D.C. power supplies supplying a load voltage to a load, said N+1 D.C. power supplies coupled together in parallel, wherein N is an integer, said overvoltage system comprising:
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a first power supply of said N+1 D.C. power supplies, comprising;
a plurality of overvoltage detecting circuits in said first power supply, wherein one overvoltage detecting circuit of said plurality of overvoltage detecting circuits compares said load voltage with a reference voltage; and
a logic gate receiving outputs of said plurality of overvoltage detecting circuits for turning off said first power supply when an overvoltage occurs in said first power supply; and
N other power supplies of said N+1 D.C. power supplies, wherein when said first power supply is turned off, said N other power supplies continue to supply power to said load to maintain said load voltage.
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17. A method for stopping operation of a D.C. power supply circuit with an overvoltage, wherein said D.C. power supply circuit is coupled to a load, said method comprising:
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determining a first comparison value by comparing an output voltage of said a D.C. power supply circuit to said load with a reference voltage;
determining a second comparison value using at least one voltage internal to said D.C. power supply circuit;
evaluating a logic value of said first comparison value logically combined with said second comparison value; and
when said logic value indicates said overvoltage, stopping D.C. power output of said D.C. power supply to said load. - View Dependent Claims (18, 19, 20, 21, 22, 23)
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24. An electronic apparatus, comprising a plurality of D.C. power supply circuits, each D.C. power supply circuit of said plurality of D.C. power supply circuits for obtaining a D.C. output by filtering a rectified, pulse width-modulated signal, wherein a D.C. power supply circuit of said plurality of D.C. power supply circuits comprises:
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a first overvoltage detecting circuit for detecting any surpassing of a first reference voltage by an input of said filtering circuit;
a second overvoltage detecting circuit for detecting any surpassing of a second reference voltage by an output of said filtering circuit; and
a logic circuit for producing an overvoltage state output when said first overvoltage detecting circuit has surpassed said first reference voltage and said second overvoltage detecting circuit has surpassed said second reference voltage, wherein;
said D.C. power supply circuit D.C. output is stopped by said overvoltage state output.
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25. An electronic apparatus, comprising a plurality of D.C. power supply circuits, each D.C. power supply circuit of said plurality of D.C. power supply circuits for obtaining a D.C. output by filtering, a rectified, pulse width-modulated signal, wherein a D.C. power supply circuit of said plurality of D.C. power supply circuits comprises:
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a diode, including an input coupled to a filtering circuit of said D.C. power supply circuit and an output coupled to a load;
a first overvoltage detecting circuit for detecting any surpassing of a first reference voltage by an input voltage of said diode;
a second overvoltage detecting circuit for detecting any surpassing of a second reference voltage by an output voltage of said diode; and
a logic circuit for producing an overvoltage state output when said first overvoltage detecting circuit has surpassed said first reference voltage and said second overvoltage detecting circuit has surpassed said second reference voltage, wherein;
said D.C. power supply circuit D.C. output is stopped by said overvoltage state output.
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Specification