Differentially-charged and sequentially-switched square-wave pulse forming network
First Claim
1. A pulse forming network for generating a high-energy square-wave pulse for delivery to a load, including:
- a series of sections, each section comprising an inductor and a capacitor, one of said sections being connectable directly to the load and the other ones of said sections being serially arranged with one another and serially connected to said one section and the load, each of said other sections having respective inductors connectable to the inductor and capacitor in the next adjacent section serially connected closer to the load;
means connected to the capacitor of each of said sections for simultaneously charging each of said capacitors to a respective differential voltage level, each of said respective voltage levels being lower than the voltage level in the next adjacent section that is serially connected further from the load; and
switching means for sequentially switching the stored charge in each of said sections to the load to thereby deliver a high-energy square-wave pulse to the load, said switching means including a plurality of switches, adjacent ones of said other sections having one of said switches connected between the inductor of each of said other sections to the capacitor and inductor of the next adjacent section that is serially connected closer to the load, each of said switches being normally open during charging of said capacitors to said differential voltage levels, each of said switches being responsive to a predetermined potential difference between voltages across capacitors in adjacent sections to close and thereby sequentially provide a current path from each capacitor to the load.
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Accused Products
Abstract
A pulse forming network for delivering a high-energy square-wave pulse to a load, including a series of inductive-capacitive sections wherein the capacitors are differentially charged higher further from the load. Each charged capacitor is isolated from adjacent sections and the load by means of a normally open switch at the output of each section. The switch between the load and the closest section to the load is closed to begin discharge of the capacitor in that section into the load. During discharge of each capacitor, the voltage thereacross falls to a predetermined potential with respect to the potential across the capacitor in the next adjacent section further from the load. When this potential is reached, it is used to close the switch in the adjacent section further from the load and thereby apply the charge in that section to the load through the adjacent section toward the load. Each successive section further from the load is sequentially switched in this manner to continuously and evenly supply energy to the load over the period of the pulse, with the differentially charged capacitors providing higher potentials away from the load to compensate for the voltage drop across the resistance of each inductor. This arrangement is low in cost and yet provides a high-energy pulse in an acceptable square-wave form.
12 Citations
9 Claims
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1. A pulse forming network for generating a high-energy square-wave pulse for delivery to a load, including:
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a series of sections, each section comprising an inductor and a capacitor, one of said sections being connectable directly to the load and the other ones of said sections being serially arranged with one another and serially connected to said one section and the load, each of said other sections having respective inductors connectable to the inductor and capacitor in the next adjacent section serially connected closer to the load; means connected to the capacitor of each of said sections for simultaneously charging each of said capacitors to a respective differential voltage level, each of said respective voltage levels being lower than the voltage level in the next adjacent section that is serially connected further from the load; and switching means for sequentially switching the stored charge in each of said sections to the load to thereby deliver a high-energy square-wave pulse to the load, said switching means including a plurality of switches, adjacent ones of said other sections having one of said switches connected between the inductor of each of said other sections to the capacitor and inductor of the next adjacent section that is serially connected closer to the load, each of said switches being normally open during charging of said capacitors to said differential voltage levels, each of said switches being responsive to a predetermined potential difference between voltages across capacitors in adjacent sections to close and thereby sequentially provide a current path from each capacitor to the load. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification