Compact transcutaneous electrical nerve stimulator
First Claim
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1. A compact transcutaneous electrical nerve stimulator device, comprising:
- (a) a battery power supply including two C cell batteries placed side-by-side and connected together electrically in series;
(b) a voltage interrupter means for generating an asymmetrical bipolar waveform signal from a spark gap, wherein the voltage interrupter means is connected to the battery power supply, wherein the asymmetrical bipolar waveform signal includes a positive spike waveform signal having a first duration and a first maximum amplitude followed by a negative waveform signal having a second duration which is longer than the first duration and a second maximum amplitude which is less then the first maximum amplitude, and wherein the asymmetrical bipolar waveform signal further includes high frequency signal components in the gigahertz range;
(c) a transformer having a primary winding and a secondary winding, wherein the primary winding of the transformer is connected to the voltage interrupter means, and wherein the asymmetrical bipolar waveform signal generated by the voltage interrupter means is increased in amplitude by the transformer such that a high voltage asymmetrical bipolar waveform signal is provided on the secondary winding of the transformer;
(d) a signal conditioning potentiometer connected to the secondary winding of the transformer and including means for adjusting the potential of the signal conditioning potentiometer to adjust the amplitude of the high voltage asymmetrical bipolar waveform signal;
(e) an electrical receptacle means for connecting the adjusted amplitude high voltage asymmetrical bipolar waveform signal to an electrode lead line and connected to the signal conditioning potentiometer; and
(f) an enclosing container enclosing the battery power supply, the voltage interrupter means, and the transformer, and wherein the means for adjusting the potential of the signal conditioning potentiometer and the electrical receptacle means extend to an outside of the enclosing container.
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Abstract
An improved compact transcutaneous electrical nerve stimulator (TENS) is provided. The compact TENS of the present invention may be used as a therapeutic device for the reduction of the symptoms of chronic and acute pain. The TENS device includes a power supply and electronics which are packaged to provide a compact, light-weight device which may be worn for an extended period of time by a patient requiring pain relief. Electronic circuitry in the TENS generates an output signal in the form of a positive spike waveform followed by a negative longer duration, lower voltage, waveform. The TENS output signal includes a broad range of frequency components, extending into the gigahertz range. Signal conditioning potentiometers are provided for adjustment of the maximum TENS output signal amplitude. Multiple output channel operation may be provided.
112 Citations
20 Claims
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1. A compact transcutaneous electrical nerve stimulator device, comprising:
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(a) a battery power supply including two C cell batteries placed side-by-side and connected together electrically in series; (b) a voltage interrupter means for generating an asymmetrical bipolar waveform signal from a spark gap, wherein the voltage interrupter means is connected to the battery power supply, wherein the asymmetrical bipolar waveform signal includes a positive spike waveform signal having a first duration and a first maximum amplitude followed by a negative waveform signal having a second duration which is longer than the first duration and a second maximum amplitude which is less then the first maximum amplitude, and wherein the asymmetrical bipolar waveform signal further includes high frequency signal components in the gigahertz range; (c) a transformer having a primary winding and a secondary winding, wherein the primary winding of the transformer is connected to the voltage interrupter means, and wherein the asymmetrical bipolar waveform signal generated by the voltage interrupter means is increased in amplitude by the transformer such that a high voltage asymmetrical bipolar waveform signal is provided on the secondary winding of the transformer; (d) a signal conditioning potentiometer connected to the secondary winding of the transformer and including means for adjusting the potential of the signal conditioning potentiometer to adjust the amplitude of the high voltage asymmetrical bipolar waveform signal; (e) an electrical receptacle means for connecting the adjusted amplitude high voltage asymmetrical bipolar waveform signal to an electrode lead line and connected to the signal conditioning potentiometer; and (f) an enclosing container enclosing the battery power supply, the voltage interrupter means, and the transformer, and wherein the means for adjusting the potential of the signal conditioning potentiometer and the electrical receptacle means extend to an outside of the enclosing container. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A compact transcutaneous electrical nerve stimulator device, comprising:
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(a) a compact battery power supply; (b) a voltage interrupter means for generating an asymmetrical bipolar waveform signal from a spark gap, wherein the voltage interrupter means is connected to the battery power supply, wherein the asymmetrical bipolar waveform signal includes a positive spike waveform signal having a first duration and a first maximum amplitude followed by a negative waveform signal having a second duration which is longer than the first duration and a second maximum amplitude which is less then the first maximum amplitude, and wherein the asymmetrical bipolar waveform signal further includes high frequency signal components in the gigahertz range; (c) a transformer having a primary winding and a secondary winding, wherein the primary winding of the transformer is connected to the voltage interrupter means, and wherein the asymmetrical bipolar waveform signal generated by the voltage interrupter means is increased in amplitude by the transformer such that a high voltage asymmetrical bipolar waveform signal is provided on the secondary winding of the transformer; (d) a plurality of signal conditioning potentiometers connected to the secondary winding of the transformer, wherein each signal conditioning potentiometer includes means for adjusting the potential of the signal conditioning potentiometer to adjust the amplitude of the high voltage asymmetrical bipolar waveform signal; (e) an electrical receptacle means for connecting the adjusted amplitude high voltage asymmetrical bipolar waveform signal to an electrode lead line connected to each of the plurality of signal conditioning potentiometers; and (f) an enclosing container enclosing the battery power supply, the voltage interrupter means, and the transformer, and wherein the means for adjusting the potential of the signal conditioning potentiometers and the electrical receptacle means extend to an outside of the enclosing container. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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19. A compact transcutaneous electrical nerve stimulator device, comprising:
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(a) a battery power supply including two C cell alkaline batteries placed side-by-side and connected together electrically in series; (b) a voltage interrupter means for generating an asymmetrical bipolar waveform signal from a spark gap, wherein the voltage interrupter means is connected to the battery power supply, wherein the asymmetrical bipolar waveform signal includes a positive spike waveform signal having a first duration and a first maximum amplitude followed by a negative waveform signal having a second duration which is longer than the first duration and a second maximum amplitude which is less then the first maximum amplitude, and wherein the asymmetrical bipolar waveform signal further includes high frequency signal components in the gigahertz range; (c) a transformer having a primary winding and a secondary winding, wherein the primary winding of the transformer is connected to the voltage interrupter means, and wherein the asymmetrical bipolar waveform signal generated by the voltage interrupter means is increased in amplitude by the transformer such that a high voltage asymmetrical bipolar waveform signal is provided on the secondary winding of the transformer; (d) a plurality of signal conditioning potentiometers connected to the secondary winding of the transformer, wherein each signal conditioning potentiometer includes an adjustment knob connected to the signal conditioning potentiometer for adjusting the potential of the signal conditioning potentiometer to adjust the amplitude of the high voltage asymmetrical bipolar waveform signal; (e) an electrical receptacle means adapted for connecting the adjusted amplitude high voltage asymmetrical bipolar waveform signal to an electrode lead line connected to each of the signal conditioning potentiometers; (f) an on/off switch for turning the device on and off; and (g) an enclosing container enclosing the battery power supply, the voltage interrupter means, and the transformer, wherein the enclosing container is no larger than approximately 7.0 cm×
11.7 cm×
3.6 cm, and wherein the adjustment knobs for adjusting the potential of the signal conditioning potentiometers, the electrical receptacle means, and the on/off switch extend to an outside of the enclosing container. - View Dependent Claims (20)
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Specification
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Current AssigneeBiogenics II LLC
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Original AssigneeBiogenics II LLC
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InventorsTiller, William A., Tiller, Jeffrey E. J., Shealy, C. Norman
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Primary Examiner(s)Getzow, Scott M.
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Application NumberUS08/852,932Time in Patent Office1,006 DaysField of Search607/46, 607/47, 607/58, 607/65, 607/72, 607/73, 607/74US Class Current607/74CPC Class CodesA61N 1/0456 Specially adapted for trans...A61N 1/36021 for treatment of painA61N 1/378 Electrical supplyA61N 1/40 Applying electric fields by...
