Noncontact infrared tympanic thermometer

US 5,159,936 A
Filed: 08/17/1990
Issued: 11/03/1992
Est. Priority Date: 08/17/1990
Status: Expired due to Fees

First Claim

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1. An apparatus for measuring a temperature of an infrared radiation emissive target, comprising:

means for sensing the amount of incident infrared radiation emitted by said infrared radiation emissive target, comprising;

a substrate,first and second thermopiles, connected in opposed relation to each other and positioned on the same said substrate so as to receive incident infrared radiation emitted by said infrared radiation emissive target and by an ambient environment of said first and second thermopiles, for producing output electrical signals representative of the intensity of said incident infrared radiation,a bandpass filter, disposed in an energy path between said infrared radiation emissive target and said first and second thermopiles, for passing a predetermined range of infrared wavelengths of incident infrared radiation from said radiation emissive target to said first and second thermopiles, andan attenuating neutral density filter, disposed in said energy path so as to attenuate the incident infrared radiation impinging upon only one of said thermopiles from said radiation emissive target without attenuating incident infrared radiation in said energy path due to infrared emissions by said ambient environment of said first and second thermopiles; and

means for processing said output electrical signals to determine said temperature of said radiation emissive target substantially independent of ambient temperature variations of said ambient environment.

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Abstract

A noncontact infrared tympanic thermometer which does not require environmental stabilization or waveguide temperature control because it utilizes an optically stabilized infrared detector for detecting the infrared energy emitted by the tympanic membrane. The optical stabilization renders the instrument insensitive to ambient temperature effects and allows it to read true tympanic membrane temperatures unaffected by the temperature of the side walls of the detector package. This selectivity is accomplished by locating a neutral density filter over half of the optical aperture of the detector package such that the neutral density filter "shadows" only one of two thermopile channels for detecting the infrared energy emitted by the tympanic membrane. The two thermopile channels are connected in series opposition such that any optical signal equally present in both channels will yield a zero net output. Since the infrared energy emitted by the walls of the detector package reach each detector equally, the effects of these emissions on the temperature measurement are eliminated. The neutral density filter prevents the energy from the tympanic membrane from falling equally on the two thermopile detectors and similarly cancelling. Instead, the resulting differential signal may be processed along with the ambient temperature signal to determine the temperature of the tympanic membrane. The infrared detector of the invention may also be incorporated into an otoscope.

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21 Claims

1. An apparatus for measuring a temperature of an infrared radiation emissive target, comprising:
- means for sensing the amount of incident infrared radiation emitted by said infrared radiation emissive target, comprising;
  
  a substrate,first and second thermopiles, connected in opposed relation to each other and positioned on the same said substrate so as to receive incident infrared radiation emitted by said infrared radiation emissive target and by an ambient environment of said first and second thermopiles, for producing output electrical signals representative of the intensity of said incident infrared radiation,a bandpass filter, disposed in an energy path between said infrared radiation emissive target and said first and second thermopiles, for passing a predetermined range of infrared wavelengths of incident infrared radiation from said radiation emissive target to said first and second thermopiles, andan attenuating neutral density filter, disposed in said energy path so as to attenuate the incident infrared radiation impinging upon only one of said thermopiles from said radiation emissive target without attenuating incident infrared radiation in said energy path due to infrared emissions by said ambient environment of said first and second thermopiles; and
  
  means for processing said output electrical signals to determine said temperature of said radiation emissive target substantially independent of ambient temperature variations of said ambient environment.
- View Dependent Claims (2, 3, 4)
- - 2. An apparatus as in claim 1, further comprising a reference detector for detecting an ambient temperature of said ambient environment of said first and second thermopiles and generating a reference temperature signal, said reference temperature signal being processed with said output electrical signals by said processing means to determine an absolute temperature of said infrared radiation emissive target.
  - 3. An apparatus as in claim 2, wherein said processing means comprises an amplifier for increasing the gain of said output electrical signals and a microprocessor for determining said temperature from said output electrical signals and said reference temperature signal.
  - 4. An apparatus as in claim 1, wherein said infrared radiation emissive target comprises an internal tissue of a patient.

5. A tympanic thermometer for measuring the internal temperature of a patient'"'"'s body from infrared radiation emitted by the patient'"'"'s tympanic membrane, comprising:
- a housing adapted for insertion into the patient'"'"'s ear canal;
  
  means within said housing for sensing the amount of infrared radiation emitted by the patient'"'"'s tympanic membrane, comprising;
  
  first and second thermopiles, connected in opposed relation to each other and positioned in said housing so as to receive infrared radiation emitted by the patient'"'"'s tympanic membrane and by a portion of said housing in an energy path between the patient'"'"'s tympanic membrane and said first and second thermopiles, for producing output electrical signals representative of the intensity of the radiation emitted by the patient'"'"'s tympanic membrane,a bandpass filter, disposed in said energy path between the patient'"'"'s tympanic membrane and said first and second thermopiles, for passing a predetermined range of infrared wavelengths of infrared radiation from the patient'"'"'s tympanic membrane through said energy path to said first and second thermopiles, andan attenuating neutral density filter disposed at an end of said housing in said energy path between the patient'"'"'s tympanic membrane and one of said first and second thermopiles so as to attenuate the infrared radiation from the patient'"'"'s tympanic membrane which impinges upon said one thermopile without attenuating incident infrared radiation in said energy path due to infrared emissions by said portion of said housing in said energy path between the patient'"'"'s tympanic membrane and said first and second thermopiles; and
  
  means for processing said output electrical signals to determine said temperature of the patient'"'"'s tympanic membrane substantially independent of ambient temperature variations.
- View Dependent Claims (6, 7, 8, 9, 10)
- - 6. A thermometer as in claim 5, further comprising a reference detector for detecting an ambient temperature of said first and second thermopiles and generating a reference temperature signal, said reference temperature signal being processed with said output electrical signals by said processing means to determine an absolute temperature of the patient'"'"'s tympanic membrane.
  - 7. A thermometer as in claim 6, wherein said processing means comprises an amplifier for increasing the gain of said output electrical signals and a microprocessor for determining said temperature of the patient'"'"'s tympanic membrane from said output electrical signals and said reference temperature signal.
  - 8. A thermometer as in claim 5, further comprising a display mounted on said housing for displaying said temperature of the patient'"'"'s tympanic membrane.
  - 9. A thermometer as in claim 5, further comprising a speculum for covering said portion of said housing adapted for insertion into the patient'"'"'s ear canal so as to prevent contamination of said housing when said thermometer is inserted into the patient'"'"'s ear canal for the measurement of the amount of infrared radiation emitted by the patient'"'"'s tympanic membrane.
  - 10. A thermometer as in claim 5, wherein said attenuating neutral density filter has a transmission coefficient of approximately 0.50.

11. A method of measuring a temperature of an infrared radiation emissive target, comprising the steps of:
- sensing the amount of incident infrared radiation emitted by said infrared radiation emissive target, comprising the steps of;
  
  positioning first and second thermopiles in opposed relation to each other and on the same substrate so as to receive incident infrared radiation emitted by said infrared radiation emissive target and by an ambient environment of said first and second thermopiles,passing a predetermined range of infrared wavelengths of incident infrared radiation from said infrared radiation emissive target to said first and second thermopiles,attenuating the incident infrared radiation impinging upon only one of said first and second thermopiles from said radiation emissive target without attenuating incident infrared radiation received from said ambient environment of said first and second thermopiles; and
  
  producing output electrical signals representative of the intensity of said incident infrared radiation received by said first and second thermopiles; and
  
  processing said output electrical signals to determine said temperature of said radiation emissive target substantially independent of ambient temperature variations of said ambient environment.
- View Dependent Claims (12, 13, 14)
- - 12. A method as in claim 11, comprising the further steps of detecting an ambient temperature of said ambient environment of said first and second thermopiles, generating a reference temperature signal corresponding to the detected ambient temperature, and processing said reference temperature signal with said output electrical signals to determine an absolute temperature of said infrared radiation emissive target.
  - 13. A method as in claim 12, wherein said processing step comprises the steps of amplifying said output electrical signals so as to increase the gain of said output electrical signals and determining said temperature from said output electrical signals and said reference temperature signal.
  - 14. A method as in claim 11, wherein said infrared radiation emissive target comprises an internal tissue of a patient and said positioning step includes the step of placing said first and second thermopiles in a body cavity containing said internal tissue.

15. A method of measuring the internal temperature of a patient'"'"'s body from infrared radiation emitted by the patient'"'"'s tympanic membrane, comprising the steps of:
- sensing the amount of incident infrared radiation emitted by the patient'"'"'s tympanic membrane, comprising the steps of;
  
  positioning first and second thermopiles in opposed relation to each other in a housing adapted for insertion in to the patient'"'"'s ear canal and so as to receive incident infrared radiation emitted by the patient'"'"'s tympanic membrane and by an ambient environment of said first and second thermopiles,passing a predetermined range of infrared wavelengths of incident radiation from the patient'"'"'s tympanic membrane to said first and second thermopiles,attenuating, using an attenuating neutral density filter disposed at an end of said housing, the incident infrared radiation impinging upon only one of said first and second thermopiles from the patient'"'"'s tympanic membrane without attenuating incident infrared radiation received from said ambient environment of said first and second thermopiles, andproducing output electrical signals representative of the intensity of said incident infrared radiation received by said first and second thermopiles; and
  
  processing said output electrical signals to determine said temperature of the patient'"'"'s tympanic membrane substantially independent of ambient temperature variations of said ambient environment.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. A method as in claim 15, comprising the further steps of detecting an ambient temperature of said ambient environment of said first and second thermopiles, generating a reference temperature signal corresponding to the detected ambient temperature, and processing said reference temperature signal with said output electrical signals to determine an absolute temperature of the patient'"'"'s tympanic membrane.
  - 17. A method as in claim 15, wherein said processing step comprises the steps of amplifying said output electrical signals so as to increase the gain of said output electrical signals and determining said temperature from said output electrical signals and said reference temperature signal.
  - 18. A method as in claim 15, wherein said positioning step includes the step of placing a device housing said first and second thermopiles into the patient'"'"'s ear canal.
  - 19. A method as in claim 15, comprising the further step of displaying said temperature on a temperature display.
  - 20. A method as in claim 15, comprising the further step of covering a device housing said first and second thermopiles with a speculum to prevent contamination of said device when said device is inserted into the patient'"'"'s ear canal for the measurement of the amount of infrared radiation emitted by the patient'"'"'s tympanic membrane.

21. A tympanic thermometer for measuring the internal temperature of a patient'"'"'s body from infrared radiation emitted by the patient'"'"'s tympanic membrane, comprising:
- a housing adapted for insertion into the patient'"'"'s ear canal;
  
  first and second thermopiles, connected in opposed relation to each other and positioned in said housing so as to receive infrared radiation emitted by the patient'"'"'s tympanic membrane and by a portion of said housing in an energy path between the patient'"'"'s tympanic membrane and said first and second thermopiles, for producing output electrical signals representative of the intensity of the radiation emitted by the patient'"'"'s tympanic membrane;
  
  a bandpass filter, disposed in said energy path between the patient'"'"'s tympanic membrane and said first and second thermopiles, for passing a predetermined range of infrared wavelengths of infrared radiation from the patient'"'"'s tympanic membrane through said energy path to said first and second thermopiles;
  
  a speculum for covering said portion of said housing adapted for insertion into the patient'"'"'s ear canal so as to prevent contamination of said housing when said thermometer is inserted into the patient'"'"'s ear canal for the measurement of the amount of infrared radiation emitted by the patient'"'"'s tympanic membrane, said speculum comprising an integral attenuating neutral density filter disposed in said energy path so as to attenuate the infrared radiation from the patient'"'"'s tympanic membrane which impinges upon only one of said thermopiles; and
  
  means for processing said output electrical signals to determine said temperature of the patient'"'"'s tympanic membrane substantially independent of ambient temperature variations.

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Current Assignee
Thermacare Partnership
Original Assignee
Daniel S. Goldberger, James R. Braig, Mark Yelderman
Inventors
Goldberger, Daniel S., Yelderman, Mark, Braig, James R.
Primary Examiner(s)
Cohen, Lee S.
Assistant Examiner(s)
PONTIUS, KEVIN LANE

Application Number

US07/570,205
Time in Patent Office

809 Days
Field of Search

128/736, 128/664, 374/120, 374/121, 374/126, 374/158, 374/179, 374/181
US Class Current

600/549
CPC Class Codes

A61B 1/227   for ears, i.e. otoscopes

G01J 2005/066   Differential arrangement, i...

G01J 5/02   Constructional details

G01J 5/028   using a charging unit or ba...

G01J 5/04   Casings

G01J 5/045   Sealings; Vacuum enclosures...

G01J 5/049   Casings for tympanic thermo...

G01J 5/064   Ambient temperature sensor;...

G01J 5/08   Optical arrangements

G01J 5/0802   Optical filters

G01J 5/0816   using attenuators

G01J 5/14   Electrical features thereof

Noncontact infrared tympanic thermometer

First Claim

1 Assignment

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Accused Products

Abstract

104 Citations

21 Claims

Specification

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Noncontact infrared tympanic thermometer

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

104 Citations

21 Claims

Specification

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Use Cases

Quick Links

Others