Electrical arcing protection circuit

US 7,061,252 B2
Filed: 07/02/2004
Issued: 06/13/2006
Est. Priority Date: 07/02/2004
Status: Expired due to Fees

First Claim

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1. An electrical arcing protection circuit, configured to detect and suppress electrical pre-arcing and arcing conditions in a resistive heater wire circuit, wherein the heater wire is coupled to a voltage source, comprising:

a voltage suppressor, coupled to the voltage source and configured to detect and suppress transient voltage spikes in a voltage signal supplied by the voltage source;

a first sensing load, coupled to the voltage suppressor;

detection and control circuitry, coupled to the sensing load and configured to determine whether a voltage level at the first sensing load exceeds a first predefined voltage level; and

a switch, coupled to the control circuitry and the heater wire, wherein said detection and control circuitry is configured to open the switch upon determining that the voltage level at the first sensing load exceeds the first predefined voltage level; and

a second sensing load coupled to the voltage source and the detection and control circuitry.

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Abstract

A protection circuit, configured to detect and suppress electrical pre-arcing and arcing conditions in a resistive heater wire circuit, comprises a transient voltage suppressor, signal level sensing load coupled to the output of the voltage suppressor, detection and control circuitry, and a high-speed switch or electrical gate. The control circuitry is configured to control the operation of the switch, coupled between said control circuitry and the heater wire, wherein the switch is opened in response to an electrical pre-arcing or arcing condition or a short circuit condition.

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35 Claims

1. An electrical arcing protection circuit, configured to detect and suppress electrical pre-arcing and arcing conditions in a resistive heater wire circuit, wherein the heater wire is coupled to a voltage source, comprising:
- a voltage suppressor, coupled to the voltage source and configured to detect and suppress transient voltage spikes in a voltage signal supplied by the voltage source;
  
  a first sensing load, coupled to the voltage suppressor;
  
  detection and control circuitry, coupled to the sensing load and configured to determine whether a voltage level at the first sensing load exceeds a first predefined voltage level; and
  
  a switch, coupled to the control circuitry and the heater wire, wherein said detection and control circuitry is configured to open the switch upon determining that the voltage level at the first sensing load exceeds the first predefined voltage level; and
  
  a second sensing load coupled to the voltage source and the detection and control circuitry.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The protection circuit of claim 1, wherein the detection and control circuitry is further configured to determine whether a voltage level at the second sensing load exceeds a second predefined voltage level, and to open the switch upon determining that the voltage level at the second sensing load exceeds the second predefined voltage level.
  - 3. The protection circuit of claim 2, wherein the second sensing load is a resistor.
  - 4. The protection circuit of claim 1, wherein the voltage suppressor is configured to suppress both positive and negative transient voltage spikes.
  - 5. The protection circuit of claim 1, wherein the voltage suppressor is configured to dissipate excess current through the first sensing load in response to detection of a transient voltage spike or when the switch is opened.
  - 6. The protection circuit of claim 1, wherein the switch is a MOSFET.
  - 7. The protection circuit of claim 1, wherein the first sensing load is a resistor.
  - 8. The protection circuit of claim 1, wherein the first sensing load is an inductor.

9. An electrical arcing protection circuit, configured to detect and suppress electrical pre-arcing and arcing conditions in a resistive heater wire circuit, wherein the heater wire is coupled to a voltage source, comprising:
- a voltage suppressor, coupled to the voltage source and configured to detect and suppress transient voltage spikes in a voltage signal supplied by the voltage source;
  
  a first sensing load, coupled to the voltage suppressor;
  
  detection and control circuitry, coupled to the sensing load and configured to determine whether a voltage level at the first sensing load exceeds a first predefined voltage level; and
  
  a switch, coupled to the control circuitry and the heater wire, wherein said detection and control circuitry is configured to open the switch upon determining that the voltage level at the first sensing load exceeds the first predefined voltage level, and wherein the switch is configured to open in less than 100 ns in response to a signal from the control circuitry.

10. A protection circuit, configured to detect electrical arcing conditions in a resistive heater wire circuit, comprising:
- a voltage rectifier coupled to a voltage source, said voltage rectifier comprising a first signal output and a second signal output, wherein the first signal output is coupled to ground and the second signal output is coupled to a first end of the heater wire;
  
  a first signal level sensing load, coupled to said first signal output of said voltage rectifier;
  
  a voltage suppressor, coupled to said second signal output of said voltage rectifier;
  
  a second signal level sensing load, coupled to said voltage suppressor;
  
  detection and control circuitry, comprising a first input coupled to the output of said first signal level sensing load, and a second input coupled between said voltage suppressor and said second signal level sensing load, wherein the control circuitry comprises at least one comparator; and
  
  a switch coupled between said detection and control circuitry and a second end of the heater wire, wherein the position of the switch is controlled by the detection and control circuitry such that the switch is opened in response to detection of an electrical pre-arcing or arcing condition.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
- - 11. The protection circuit of claim 10, wherein the voltage rectifier is a full-wave bridge rectifier.
  - 12. The protection circuit of claim 10, wherein the first signal level sensing load is a resistor.
  - 13. The protection circuit of claim 10, wherein the second signal level sensing load is a resistor.
  - 14. The protection circuit of claim 10, wherein the first signal level sensing load is an inductor.
  - 15. The protection circuit of claim 10, wherein the second signal level sensing load is an inductor.
  - 16. The protection circuit of claim 10, wherein the switch is a MOSFET.
  - 17. The protection circuit of claim 10, further comprising a voltage regulator coupled between said second signal output of said voltage rectifier and said detection and control circuitry and configured to provide a regulated voltage signal to the detection and control circuitry.
  - 18. The protection circuit of claim 10, wherein the voltage suppressor is configured to dissipate excess energy stored in the heater wire in response to detection of an electrical pre-arcing or arcing condition.

19. A respiratory breathing circuit comprising one or more limbs of hollow gas delivery tubing having a heater wire extending interiorly therein along a substantial portion of the length of one or more limbs of said hollow tubing, andan arc suppression and arc detection circuit cooperating with said heater wire comprising:
- a voltage suppressor, coupled to a voltage source and configured to detect and suppress transient voltage spikes in a voltage signal supplied by the voltage source;
  
  a first sensing load, coupled to the voltage suppressor;
  
  detection and control circuitry, coupled to the first sensing load and configured to determine whether a voltage level at the first sensing load exceeds a first predefined voltage level; and
  
  a switch, coupled to the detection and control circuitry and the heater wire, wherein said detection and control circuitry is configured to open the switch upon determining that the voltage level at the first sensing load exceeds the first predefined voltage levels,wherein the arc suppression and arc detection circuit further comprises a second sensing load coupled to the voltage source and the detection and control circuitry, wherein the detection and control circuitry is further configured to determine whether a voltage level at the second sensing load exceeds a second predefined voltage level, and to open the switch upon determining that the voltage level at the second sensing load exceeds the second predefined voltage level.
- View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29)
- - 20. The respiratory breathing circuit of claim 19, wherein the second sensing load is a resistor.
  - 21. The respiratory breathing circuit of claim 19, wherein the second sensing load is an inductor.
  - 22. The respiratory breathing circuit of claim 19, wherein the voltage suppressor is configured to suppress both positive and negative transient voltage spikes.
  - 23. The respiratory breathing circuit of claim 19, wherein the voltage suppressor is configured to dissipate excess current through the first sensing load in response to detection of a transient voltage spike or when the switch is opened.
  - 24. The respiratory breathing circuit of claim 19, wherein the switch is a MOSFET.
  - 25. The respiratory breathing circuit of claim 19, further comprising a voltage rectifier coupled to the voltage source, comprising a first signal output and a second signal output, wherein the first signal output is coupled to the second sensing load and ground, and the second signal output is coupled to a first end of the heater wire and the voltage suppressor, and wherein the control circuitry is coupled to the second sensing load and configured to open the switch in response to detecting the voltage at the second sensing load above a second predefined voltage threshold.
  - 26. The respiratory breathing circuit of claim 25, wherein the voltage rectifier is a full-wave bridge rectifier.
  - 27. The respiratory breathing circuit of claim 19, wherein the signal level sensing load is a resistor.
  - 28. The respiratory breathing circuit of claim 19, wherein the first sensing load is a resistor.
  - 29. The respiratory breathing circuit of claim 19, wherein the first sensing load is an inductor.

30. A respiratory breathing circuit comprising one or more limbs of hollow gas delivery tubing having a heater wire extending interiorly therein along a substantial portion of the length of one or more limbs of said hollow tubing, andan arc suppression and arc detection circuit cooperating with said heater wire comprising:
- a voltage suppressor, coupled to a voltage source and configured to detect and suppress transient voltage spikes in a voltage signal supplied by the voltage source;
  
  a first sensing load, coupled to the voltage suppressor;
  
  detection and control circuitry, coupled to the first sensing load and configured to determine whether a voltage level at the first sensing load exceeds a first predefined voltage level; and
  
  a switch, coupled to the detection and control circuitry and the heater wire, wherein said detection and control circuitry is configured to open the switch upon determining that the voltage level at the first sensing load exceeds the first predefined voltage level, and wherein the switch is configured to open in less than 100 ns in response to a signal from the control circuitry.

31. A method of detecting arcing conditions in a resistive heater wire circuit, comprising:
- suppressing a voltage level of a rectified power signal in response to the voltage level of said rectified power signal exceeding a predefined threshold, thereby providing a suppressed voltage signal;
  
  sensing a first current level of said suppressed voltage signal at a first sensing load;
  
  sensing a second current level at a second sensing load;
  
  comparing said first sensed current level to a first threshold level;
  
  comparing said second sensed current level to a second threshold level;
  
  stopping the supply of current to the heater wire in response to detection of said first sensed current level exceeding said first threshold level; and
  
  stopping the supply of current to the heater wire in response to detection of said second sensed current level exceeding said second threshold level.
- View Dependent Claims (32, 33)
- - 32. The method of claim 31, wherein sensing said current level comprises generating a voltage signal having a value corresponding to the current level supplied to the heater wire.
  - 33. The method of claim 31, further comprising rectifying the input power signal to provide a rectified power signal, prior to suppressing a voltage level of the input power signal.

34. A method of detecting arcing conditions in a resistive heater wire circuit, comprising:
- suppressing transient voltage spikes detected in a power signal supplied to the heater wire in response to the voltage level of the power signal exceeding a predefined threshold;
  
  sinking excess current through a first load;
  
  sensing a first current level in said first load;
  
  comparing said first sensed current level to a first predefined threshold;
  
  stopping the supply of current to the heater wire in response to detection of said first sensed current level exceeding said first predefined threshold;
  
  sinking excess current through a second load;
  
  sensing a second current level in said second load;
  
  comparing said second sensed current level to a second predetermined threshold; and
  
  stopping the supply of current to the heater wire in response to detection of said second sensed current level exceeding said second predefined threshold.
- View Dependent Claims (35)
- - 35. The method of claim 34, wherein sensing said current level comprises generating a voltage signal having a value corresponding to the current level supplied to the heater wire.

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Current Assignee
Teleflex Medical Incorporated (Teleflex Incorporated)
Original Assignee
Hudson Respiratory Care, Inc. (Teleflex Incorporated)
Inventors
Bouton, Chad E., Ruggeri, Felicia R.
Primary Examiner(s)
Lee, Diane
Assistant Examiner(s)
Kramskaya, Marina

Application Number

US10/884,087
Publication Number

US 20060001433A1
Time in Patent Office

711 Days
Field of Search

324/536, 324/522, 324/509, 361/2
US Class Current

324/536
CPC Class Codes

A61M 16/1095 in the connecting tubes

H02H 1/0015 Using arc detectors

Electrical arcing protection circuit

First Claim

6 Assignments

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Abstract

24 Citations

35 Claims

Specification

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Electrical arcing protection circuit

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

24 Citations

35 Claims

Specification

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Solutions

Use Cases

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