Patent ID: 7096792

Claim:
An electrical circuit capable of producing a first, carrier frequency from 250 to 500 kHz and further capable of concurrently producing a second frequency of 15 to 50 Hz, said electric circuit further being capable of regulating said first, carrier frequency to deliver discharges of from 2 to 45 pulses per second with an initial discharge of from 2 to 8 seconds duration and at least two subsequent discharges of at least 3 seconds duration each, said electric circuit being adapted to being charged by an independent electrical power source capable of delivering a charge of 1.5 volts and said electric circuit further terminating in at least one pair of electrodes, wherein the members of each of said at least one pair of electrodes are capable of penetrating the skin of a target individual and further are capable of delivering a disabling shock to said target individual, said disabling shock being from approximately about 250 volts to 400 volts and from 3 to 50 amps, and said disabling shock being transmitted and delivered concurrently by said first carrier frequency and by said second frequency at a pulse rate of from 2 to 45 pulses per second, and further wherein said electric circuit comprises: a. an electrical energy source to charge said electrical circuit, said electrical energy source having an electrical output means; b. a first oscillator in electrical input communication with said output means of said electrical energy source, said first oscillator further having electrical output means; c. a second oscillator in electrical input communication with said electrical output means of said electrical energy source, said second oscillator further having electrical output means; d. at least one electrically chargeable, storage element having electrical input means, and electrical output means, said electrical input means being in functional communication with said electrical output means of said electrical energy source; e. a timing circuit in electrical communication with said output means of said electrical energy source; f. an analog switch in functional communication with said electrical energy source; g. a control and amplifier means, said controller and amplifier means being in electrical, functional communication with said electrical power source and with said first oscillator and with said second oscillator, and being further in functional communication with said analog switch; h. a proximity sensor in functional communication with said timing circuit and via said timing switch further in functional communication with said at least one pair of electrodes; and i. at least one pair of electrodes, the ground member of said at least one pair of electrodes being in electrical communication with electrical output flowing through said analog switch.