Switching power supply apparatus for converting a high DC voltage into a low DC voltage
First Claim
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1. A power supply apparatus comprising:
- an input terminal;
an output terminal;
a switching means and an inductance means that are connected in series between the input terminal and the output terminal;
a monitoring circuit connected between the output terminal and a reference potential node, for monitoring a voltage at the output terminal;
a drive circuit for putting the switching means into either a conducting state or a nonconducting state according to a monitoring result of the monitoring circuit; and
a path means for forming a path for a current resulting from a back electromotive force that is developed in the inductance means when the switching means is put into a non-conducting state, said path means including a capacitor connected between an output of said switching means and an input of said drive circuit.
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Abstract
A power supply circuit has a switching transistor and a inductance coil that are connected between an input terminal and an output terminal. A voltage across a capacitor that is connected between the output terminal and a ground potential node is extracted as an output voltage. Between the output terminal and the ground potential node, a Zener diode and a resistor are connected in series. When a voltage across the resistor exceeds a predetermined value, the switching transistor is put into a cut-off state by a drive circuit.
31 Citations
17 Claims
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1. A power supply apparatus comprising:
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an input terminal; an output terminal; a switching means and an inductance means that are connected in series between the input terminal and the output terminal; a monitoring circuit connected between the output terminal and a reference potential node, for monitoring a voltage at the output terminal; a drive circuit for putting the switching means into either a conducting state or a nonconducting state according to a monitoring result of the monitoring circuit; and a path means for forming a path for a current resulting from a back electromotive force that is developed in the inductance means when the switching means is put into a non-conducting state, said path means including a capacitor connected between an output of said switching means and an input of said drive circuit. - View Dependent Claims (2, 3, 4)
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5. A switching power supply circuit in which on/off operation of a switching transistor allows a current on an input side of the switching transistor to flow into a first capacitor connected on an output side of the switching transistor in order to charge the first capacitor and in which an output from the first capacitor is supplied as a power source to a load, comprising:
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means for connecting a base of said switching transistor to said output side through a drive transistor; means for connecting a base of said drive transistor to said input side; a second capacitor connected between an output of said switching transistor and a base of said drive transistor; detection means for detecting whether or not a voltage on said output side is above a predetermined value; and control means for controlling said drive transistor to be turned on and off according to an output from the detection means, therein to control the switching transistor to be turned on and off.
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6. A switching power supply apparatus comprising:
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a pnp-type first transistor whose emitter is connected to an input terminal; a coil and a first capacitor that are serially connected therebetween a collector of the first transistor and ground; an output terminal for extracting an output from a node between said coil and said first capacitor; an npn-type second transistor whose collector is connected to a base of the first transistor, whose base is connected to said input terminal, and whose emitter is connected to said output terminal; a second capacitor connected between the collector of the first transistor and the base of the second transistor; a constant voltage generating means and a first resistor that are serially connected between said output terminal and ground; and a control means which is connected, at its one end, to a base of the second transistor and which turns the second transistor off when a voltage at a node between said constant voltage generating means and said first resistor exceeds a predetermined voltage. - View Dependent Claims (7, 8, 9)
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10. A power supply apparatus comprising:
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an input terminal to which a voltage is applied; an output terminal for outputting a voltage; a switching means and an inductance means that are connected in series between the input terminal and the output terminal; a monitoring means for monitoring a current flowing at the output terminal; a drive circuit for putting the switching means into either a conducting state or a non-conducting state according to a monitoring result of the monitoring means; a first diode for forming a path for a current resulting from a back electromotive force that is developed in the inductance means when the switching means is put into a non-conducting state; and a cut-off means, connected between an output of said drive circuit and said path, for keeping said switching means in a cut-off state until the back electromotive force developed in said inductance means becomes too small to maintain a forward voltage of said first diode. - View Dependent Claims (11)
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12. A power supply apparatus comprising:
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an input terminal for receiving a DC voltage; an output terminal for outputting a DC voltage; a pnp-type switching transistor whose emitter is connected to the input terminal; an inductance coil that is connected, at its one end, to the collector of the switching transistor and, at its other end, to the output terminal; a capacitor that is connected between the output terminal and a reference voltage node; a drive transistor which is connected between a base of the switching transistor and the reference potential node and whose base is connected to the input terminal; a monitoring circuit for monitoring a current flowing at the output terminal; a control means for controlling the drive transistor to put the switching transistor into either a conducting state or a non-conducting state according to a monitoring result of the monitoring circuit; a first diode whose cathode is connected to the inductance coil and whose anode is connected to the reference potential node to form a path for a current resulting from a back electromotive force that is developed in the inductance coil when the switching transistor is put into a non-conducting state; and a second diode whose cathode is connected to a cathode of the first diode and whose anode is connected to a base of the drive transistor.
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13. A power supply apparatus comprising:
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an input terminal for receiving a DC voltage; an output terminal for outputting a DC voltage; a pnp-type switching transistor whose emitter is connected to the input terminal; an inductance coil that is connected, at its one end, to the collector of the switching transistor and, at its other end, to the output terminal; a capacitor that is connected between the output terminal and a reference potential node; a drive transistor which is connected between a base of the switching transistor and the reference potential node and whose base is connected to the input terminal; a monitoring circuit for monitoring a current flowing at the output terminal; a control transistor which is connected between a base of the drive transistor and the potential voltage node and which is made to conduct by an output from the monitoring circuit when an amount of a current flowing at the output terminal is above a predetermined amount in order to control the drive transistor to put the switching transistor into a non-conducting state; a first diode whose cathode is connected to the inductance coil and whose anode is connected to the reference potential node to form a path for a current resulting from a back electromotive force that is developed in the inductance coil when the switching transistor is put into a non-conducting state; and a second diode whose cathode is connected to a cathode of the first diode and whose anode is connected to a base of the drive transistor. - View Dependent Claims (14, 15, 16, 17)
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Specification
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Current AssigneeROHM Co., Ltd.
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Original AssigneeROHM Co., Ltd.
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InventorsHayashi, Hiroshi
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Primary Examiner(s)Wong, Peter S.
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Assistant Examiner(s)Vu, Bao Q.
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Application NumberUS08/736,072Time in Patent Office615 DaysField of Search323/282, 323/284, 323/285, 323/222, 323/274, 323/246, 323/275US Class Current323/222CPC Class CodesH02M 3/1563 without using an external c...
