Protection of exposed contacts connected to a bridge rectifier against electrostatic discharge
First Claim
1. A method of protecting a rectifier circuit from electrostatic pulses that occur between a power pad and an electronic device comprising:
- connecting a predetermined number of pairs of diodes in series in the same polarity direction to produce a plurality of series pairs of diodes;
connecting said plurality of series pairs of diodes in parallel so that cathodes of one diode in each of said series pairs is connected to a positive power line and anodes of the other diode in each of said series pairs of diodes is connected to a negative power line;
providing a predetermined number of contacts on said electronic device;
connecting said predetermined number of contacts to input nodes located between said predetermined number of pairs of diodes;
connecting a plurality of first bypass capacitors between said positive power line and said negative power line, proximate to each of said series pairs of diodes, to function as a bypass for said electrostatic pulses that have a rise time that allows said diodes to conduct and prevent damage to said diodes as a result of reverse biasing;
connecting a plurality of second bypass capacitors between said input node and said negative power line, proximate to said input node, to discharge said electrostatic pulses, that have a rise time that is faster than the turn-on time of said diodes, to said negative power line.
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Accused Products
Abstract
Disclosed is a protection circuit for protecting a rectifier circuit from electrostatic pulses. The circuit employs a first bypass capacitor that is connected between positive and negative power lines to bypass electrostatic pulses that have a rise time that allows the diodes to conduct and prevent damage to the diodes as a result of reverse biasing, and a second bypass capacitor that is connected between an input node and the negative power line to discharge the electrostatic pulses that have a rise time that is faster than the turn-on times of the diodes. Connection of the bypass capacitors at locations close to the rectifying diodes minimizes the effects of stray inductance that affects the operation of the rectifier circuit in response to fast rise time transient pulses.
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Citations
29 Claims
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1. A method of protecting a rectifier circuit from electrostatic pulses that occur between a power pad and an electronic device comprising:
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connecting a predetermined number of pairs of diodes in series in the same polarity direction to produce a plurality of series pairs of diodes; connecting said plurality of series pairs of diodes in parallel so that cathodes of one diode in each of said series pairs is connected to a positive power line and anodes of the other diode in each of said series pairs of diodes is connected to a negative power line; providing a predetermined number of contacts on said electronic device; connecting said predetermined number of contacts to input nodes located between said predetermined number of pairs of diodes; connecting a plurality of first bypass capacitors between said positive power line and said negative power line, proximate to each of said series pairs of diodes, to function as a bypass for said electrostatic pulses that have a rise time that allows said diodes to conduct and prevent damage to said diodes as a result of reverse biasing; connecting a plurality of second bypass capacitors between said input node and said negative power line, proximate to said input node, to discharge said electrostatic pulses, that have a rise time that is faster than the turn-on time of said diodes, to said negative power line. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of protecting a rectifier circuit from electrostatic pulses that occur between a power pad and an electronic device comprising:
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connecting a predetermined number of pairs of diodes in series in the same polarity direction to produce a plurality of series pairs of diodes; connecting said plurality of series pairs of diodes in parallel with cathodes of one diode in each of said series pairs connected to a positive power line and anodes of the other diode in each of said series pairs connected to a negative power line; providing a predetermined number of contacts on said electronic device; connecting said predetermined number of contacts to input nodes located between said predetermined number of pairs of diodes; connecting a plurality of first bypass capacitors between said positive power line and said negative power line, proximate to each of said series pairs of diodes, to function as a bypass for said electrostatic pulses that have a rise time that allows said diodes to conduct and prevent damage to said diodes as a result of reverse biasing; connecting a plurality of second bypass capacitors between said input node and said positive power line, proximate to said input node, to discharge said electrostatic pulses, that have a rise time that is faster than the turn-on time of said diodes, to said positive power line. - View Dependent Claims (8, 9, 10, 11)
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12. A rectifier circuit that is protected from electrostatic pulses that are applied to an electronic device from a power pad comprising:
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a plurality of pairs of diodes that are connected in series in the same polarity direction, said pairs of diodes being connected in parallel, with cathodes of one diode in each of said pairs connected to a positive power line, and anodes of the other diode in each of said pairs connected to a negative power line; an input node located between said pairs of diodes that are connected in series; power contacts that are connected to said input nodes; a first bypass capacitor that is connected between said positive power line and said negative power line, proximate to each of said pairs of diodes, that functions as a bypass for said electrostatic pulses that have a rise time that allows said diodes to conduct and prevent damage to said diodes as a result of reverse biasing; a second bypass capacitor that is connected between said input node and said negative power line, proximate to said input node, to discharge said electrostatic pulses, that have a rise time that is faster than the turn-on time of said diodes, to said negative power line. - View Dependent Claims (13, 14, 15, 16, 17)
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18. A rectifier circuit that is protected from electrostatic pulses and that are applied to an electronic device from a power pad comprising:
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a plurality of pairs of diodes that are connected in series in the same polarity direction, said pairs of diodes being connected in parallel, with cathodes of one diode in each of said pairs connected to a positive power line, and anodes of the other diode in each of said pairs connected to a negative power line; an input node located between said pairs of diodes that are connected in series; power contacts that are connected to said input nodes; a first bypass capacitor that is connected between said positive power line and said negative power line, proximate to each of said pairs of diodes, that functions as a bypass for said electrostatic pulses that have a rise time that allows said diodes to conduct and prevent damage to said diodes as a result of reverse biasing; a second bypass capacitor that is connected between said input node and said positive power line, proximate to said input node, to discharge said electrostatic pulses, that have a rise time that is faster than the turn-on time of said diodes, to said positive power line. - View Dependent Claims (19, 20, 21, 22)
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23. A rectifier circuit disposed in an electronic device that is protected from electrostatic pulses comprising:
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diode means for rectifying an input signal and applying said input signal to a positive power line and a negative power line depending upon the polarity of said input signal; first bypass capacitor means for providing a low impedance path for high frequency signals between said positive power line and said negative power line that discharges said electrostatic pulses applied to said rectifier circuit wherever said diode means has a response time that is sufficient to conduct said electrostatic pulses; second bypass capacitor means for providing a low impedance path between an input node of said rectifier circuit and said negative power line that discharges said electrostatic pulses that have a rise time that is faster than the turn-on time of said diode means. - View Dependent Claims (24)
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25. A mechanical discharge device for discharging electrostatic pulses between a power pad and contacts on a portable electronic device comprising:
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a contact disposed in an opening in a surface of said portable electronic device; a spring that bias said contact in said opening so that a portion of said contact protrudes from said surface of said electronic device and retracts when said portable electronic device is placed on said power pad; a discharge conductor adjacent to said contact that electrically connects said contact to ground potential, when said contact protrudes from said surface, to discharge said electrostatic pulses between said contact and said power pad, and electrically disconnects from said contact, when said connector retracts. - View Dependent Claims (26)
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27. A method of protecting circuitry in a portable electronic device from electrostatic pulses comprising:
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providing a contact that is disposed in an opening in a surface of said portable electronic device; biasing said contact with a spring so that said contact protrudes through said opening and so that said contact retracts from said opening when said portable electronic device is placed on a surface; providing a grounding conductor, adjacent to said contact, that electrically connects said contact to ground potential whenever said contact is biased by said spring to protrude through said opening; placing said portable electronic device on a power pad so that said contact touches said power pad, while said contact is biased to protrude from said opening and connected to said ground potential, causing said electrostatic pulses to initially discharge to said ground potential from said contact through said grounding conductor; electrically disconnecting said contact from said grounding conductor when said contact retracts. - View Dependent Claims (28)
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29. A mechanical discharge device for discharging electrostatic pulses between a power pad and contacts on a portable electronic device comprising:
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contact means disposed in an opening in a surface of said portable electronic device; spring means for biasing said contact in said opening so that a portion of said contact protrudes from said surface of said electronic device and retracts when said portable electronic device is placed on said power pad; discharge conductor means adjacent to said contact for electrically connecting said contact to ground potential, when said contact protrudes from said surface, to discharge said electrostatic pulses between said contact and said power pad, and electrically disconnecting from said contact, when said connector retracts, so that a power signal can be applied from said power pad through said contact to said portable electronic device.
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Specification