EMI stability indicator for tympanic thermometer

US 5,991,700 A
Filed: 10/15/1997
Issued: 11/23/1999
Est. Priority Date: 10/15/1997
Status: Expired due to Term

First Claim

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1. A stability indicator for use in a thermometer, said indicator detecting the presence of a high electromagnetic field in the vicinity of a thermometer body, said indicator comprising:

a detection circuit for detecting the presence of the high electromagnetic field, said detection circuit including various circuit components, said detection circuit further including a null input operatively connected to one of said circuit components for registering the presence of a high electromagnetic event, said null input registering an offset voltage in the presence of a high electromagnetic event;

a microprocessor, said microprocessor in communication with said detection circuit for reading a plurality of said offset voltages, said microprocessor determining whether the difference in the maximum and minimum values of said offset voltages detected by said detection circuit exceeds a predetermined threshold, said predetermined threshold being a preset value stored in the microprocessor which establishes a point beyond where the thermometer is unable to take an accurate core body temperature;

a disabling means for preventing the display of a core body temperature when said difference in said offset voltages exceeds said preset value; and

a display for displaying a message.

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Abstract

The present invention is directed to an electronic device for sensing and indicating the presence of electromagnetic interference in the vicinity of a electronic thermometer and preventing the display of a core body temperature reading when the electromagnetic interference exceeds a predetermined threshold. Disclosed is a tympanic thermometer comprising circuitry and a microprocessor that takes a a plurality of voltage readings from the null input of an operational amplifier in the circuitry. After taking into account ambient temperature conditions into the temperature calculations, the microprocessor compares the average value of the voltage readings taken from the null input against a predetermined threshold in the memory of the microprocessor. If the value exceeds the predetermined threshold, then the microprocessor prevents the display of the core body temperature and directs a display to write an error message. However, if the value does not exceed the predetermined threshold, the microprocessor directs the displays the core body temperature taken by the tympanic thermometer.

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15 Claims

1. A stability indicator for use in a thermometer, said indicator detecting the presence of a high electromagnetic field in the vicinity of a thermometer body, said indicator comprising:
- a detection circuit for detecting the presence of the high electromagnetic field, said detection circuit including various circuit components, said detection circuit further including a null input operatively connected to one of said circuit components for registering the presence of a high electromagnetic event, said null input registering an offset voltage in the presence of a high electromagnetic event;
  
  a microprocessor, said microprocessor in communication with said detection circuit for reading a plurality of said offset voltages, said microprocessor determining whether the difference in the maximum and minimum values of said offset voltages detected by said detection circuit exceeds a predetermined threshold, said predetermined threshold being a preset value stored in the microprocessor which establishes a point beyond where the thermometer is unable to take an accurate core body temperature;
  
  a disabling means for preventing the display of a core body temperature when said difference in said offset voltages exceeds said preset value; and
  
  a display for displaying a message.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The stability indicator according to claim 1, wherein said display displays a core body temperature reading when said offset voltage does not exceed said preset value.
  - 3. The stability indicator according to claim 1, wherein said detection circuit includes a probe sensor and an operational amplifier in series with an analog-to-digital converter.
  - 4. The stability indicator according to claim 3, wherein said detection circuit further includes a switch, said switch changing the input to said operational amplifier between a first position and a second position, said first position establishing a ground at said input to said operational amplifier, thereby creating a null input thereto, said second position terminating said ground and establishing a link between said probe sensor and said operational amplifier for taking a temperature reading.
  - 5. The stability indicator according to claim 4, wherein in the first position said detection circuit senses a plurality of offset voltage readings at said null input created by the presence of an electromagnetic field.
  - 6. The stability indicator according to claim 4, wherein said switch switches to said first position when the thermometer is turned on and before a temperature reading is taken.

7. A stability indicator for use in tympanic thermometers, said indicator detecting the presence of a high electomagnetic field in the immediate area of thermometer body, said indicator comprising:
- a detection circuit including an operational amplifier in series with an analog to digital converter, said detection circuit further including a switch for changing an input to said operational amplifier between a first position and a second position, said first position establishing a ground at said input to said operational amplifier, thereby creating a null input thereto, said second position terminating said ground and establishing a link between a probe sensor and said operational amplifier for taking a temperature reading;
  
  a display for displaying a message; and
  
  a microprocessor having a memory and a sensor, said microprocessor sensing a plurality of offset voltages from said null input of said amplifier when the thermometer is turned on and switched to the first position,whereby in the first position said microprocessor determines the difference between the maximum and minimum offset voltage readings detected from said null input, if said difference is greater than a predetermined threshold, said predetermined threshold being a preset value stored in the microprocessor which establishes a point beyond where the thermometer is unable to take an accurate core body temperature then said display displays only a warning message, if said difference is less than said predetermined threshold then said switch switches said detection circuit from said first position to said second position.
- View Dependent Claims (8)
- - 8. The stability indicator according to claim 7, wherein in the second position said sensor senses any voltage spikes at said null input created by the presence of an electromagnetic field, said sensor communicating the presence of an electromagnetic field to said microprocessor.

9. A stability indicator for use in thermometers, said indicator detecting the presence of a high electromagnetic field in the immediate area of the thermometer body, said indicator comprising:
- a detection means for detecting the presence of a high electromagnetic field by detecting a plurality of offset voltages from a circuit ground;
  
  a microprocessor means for determining whether the difference in values of said offset voltages detected by said detection means exceeds a predetermined threshold, said predetermined threshold being a preset value stored in the microprocessor which establishes a point beyond where the thermometer is unable to take an accurate core body temperature; and
  
  a display means for displaying messages communicated by said microprocessor meansa disabling means for preventing the display of a core body temperature when said difference in said offset voltages exceeds said preset value.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The stability indicator according to claim 9 wherein said detection means includes a sensing means and an operational amplifier in series with an analog to digital converter.
  - 11. The stability indicator according to claim 10, wherein said detection means includes a switching means, said switching means changing the input to said operational amplifier between a first position and a second position, said first position establishing a ground at said input to said operational amplifier, thereby creating a null input thereto, said second position terminating said ground and establishing a link between a probe sensor and said operational amplifier for taking a temperature reading.
  - 12. The stability indicator according to claim 11, wherein the first position said sensor senses any voltage variations at said null input created by the presence of an electromagnetic field, said sensor communicating the presence of an electromagnetic field to said microprocessor means.
  - 13. The stability indicator according to claim 10, wherein said switching means switches to said first position when the thermometer is turned on and before a temperature reading is taken.
  - 14. The stability indicator according to claim 9, wherein said sensing means takes a plurality of readings from said null input.

15. A method for determining the presence of a high electromagnetic field in the immediate vicinity of a electric thermometer that includes a detection circuit which detects offset voltages from a circuit ground, a microprocessor including a memory, the steps of the method comprising:
- a) detecting a plurality of offset voltages from said circuit ground;
  
  b) communicating said offset voltages to the microprocessor;
  
  c) determining the maximum and minimum differences in said offset voltages;
  
  d) comparing said difference in said offset voltage values against a preset value residing in the memory of the microprocessor, said preset being a value which establishes a point beyond where the thermometer is unable to take an accurate core body temperature; and
  
  e) a disabling means for preventing the taking of a core body temperature by the electric thermometer if said difference in said offset voltage values exceeds said preset value.

Specification

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Litigation Campaign Assessment

Current Assignee
Cardinal Health Ireland Unlimited Company (Cardinal Health, Inc.)
Original Assignee
Sherwood Services AG
Inventors
Clay, Bradford G., Korff, John J.
Primary Examiner(s)
Hoff, Marc S.
Assistant Examiner(s)
Bui, Bryan

Application Number

US08/950,711
Time in Patent Office

769 Days
Field of Search

702/131-132, 702/64-65, 702/99, 374/2, 374/126, 374/129, 374/131-133, 374/164, 374/183, 374/100, 374/163, 600/473-475, 600/549
US Class Current

702/131
CPC Class Codes

G01J 5/02   Constructional details

G01J 5/025   Interfacing a pyrometer to ...

G01J 5/026   Control of working procedur...

G01J 5/04   Casings

G01J 5/049   Casings for tympanic thermo...

G01J 5/05   Means for preventing contam...

G01J 5/16   Arrangements with respect t...

EMI stability indicator for tympanic thermometer

First Claim

9 Assignments

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Abstract

Citations

15 Claims

Specification

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EMI stability indicator for tympanic thermometer

First Claim

9 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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