Low power pulse oximeter

DC CAFC

US 10,433,776 B2
Filed: 10/29/2018
Issued: 10/08/2019
Est. Priority Date: 07/02/2001
Status: Expired due to Fees

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1. A method of operating a patient monitor configured to monitor at least a pulse rate of a patient by processing signals responsive to light attenuated by body tissue, the method comprising:

operating the patient monitor according to a first control protocol, wherein said operating includes activating a first control protocol light source in accordance with the first control protocol, the first control protocol light source including one or more of a plurality of light sources;

when operating according to the first control protocol, calculating, by the patient monitor, measurement values of the pulse rate, the measurement values responsive to light from the first control protocol light source, detected by a detector of an optical sensor after attenuation by body tissue of the patient using the patient monitor;

generating a trigger signal, wherein generating said trigger signal is responsive to at least one of;

a comparison of processing characteristics to a predetermined threshold, a physiological event, or signal quality characteristics of signals received from the detector;

in response to receiving the trigger signal, operating the patient monitor according to a second control protocol different from the first control protocol, wherein said operating includes activating a second control protocol light source in accordance with the second control protocol, the second control protocol light source including one or more of the plurality of light sources; and

when operating the patient monitor according to the second control protocol, calculating the measurement values of the pulse rate, the measurement values responsive to light from the second control protocol light source, detected by the detector after attenuation by the body tissue of the patient using the patient monitor,wherein said operating of the patient monitor according to the first control protocol operates the first control protocol light source according to a first duty cycle and said operating of the patient monitor according to the second control protocol operates the second control protocol light source according to a second duty cycle, wherein power consumption of the first control protocol light source according to the first duty cycle is different than power consumption of the second control protocol light source according to the second duty cycle.

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Abstract

A pulse oximeter may reduce power consumption in the absence of overriding conditions. Various sampling mechanisms may be used individually or in combination. Various parameters may be monitored to trigger or override a reduced power consumption state. In this manner, a pulse oximeter can lower power consumption without sacrificing performance during, for example, high noise conditions or oxygen desaturations.

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16 Claims

1. A method of operating a patient monitor configured to monitor at least a pulse rate of a patient by processing signals responsive to light attenuated by body tissue, the method comprising:
- operating the patient monitor according to a first control protocol, wherein said operating includes activating a first control protocol light source in accordance with the first control protocol, the first control protocol light source including one or more of a plurality of light sources;
  
  when operating according to the first control protocol, calculating, by the patient monitor, measurement values of the pulse rate, the measurement values responsive to light from the first control protocol light source, detected by a detector of an optical sensor after attenuation by body tissue of the patient using the patient monitor;
  
  generating a trigger signal, wherein generating said trigger signal is responsive to at least one of;
  
  a comparison of processing characteristics to a predetermined threshold, a physiological event, or signal quality characteristics of signals received from the detector;
  
  in response to receiving the trigger signal, operating the patient monitor according to a second control protocol different from the first control protocol, wherein said operating includes activating a second control protocol light source in accordance with the second control protocol, the second control protocol light source including one or more of the plurality of light sources; and
  
  when operating the patient monitor according to the second control protocol, calculating the measurement values of the pulse rate, the measurement values responsive to light from the second control protocol light source, detected by the detector after attenuation by the body tissue of the patient using the patient monitor,wherein said operating of the patient monitor according to the first control protocol operates the first control protocol light source according to a first duty cycle and said operating of the patient monitor according to the second control protocol operates the second control protocol light source according to a second duty cycle, wherein power consumption of the first control protocol light source according to the first duty cycle is different than power consumption of the second control protocol light source according to the second duty cycle.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1, wherein the first control protocol light source operates on the first duty cycle having an active time and an inactive time according to the first control protocol, wherein the second control protocol light source operates on the second duty cycle having an active time and an inactive time according to the second control protocol, the active time of the first duty cycle having a first duration and the active time of the second duty cycle having a second duration, wherein the first duration and the second duration are different.
  - 3. The method of claim 2, wherein the second duration is longer than the first duration.
  - 4. The method of claim 1, wherein power consumption during said operating at the second control protocol is greater than power consumption during said operating at the first control protocol.
  - 5. The method of claim 1, wherein said operating the patient monitor according to the first control protocol consumes a relatively small amount of power, and wherein said operating the patient monitor according to the second control protocol consumes a relatively large amount of power.
  - 6. The method of claim 1, wherein said operating the patient monitor in accordance with the first control protocol comprises operating the first control protocol light source in a data off state.
  - 7. The method of claim 1, wherein said signals received from the detector are responsive to the detected light of the first control protocol light source or the second control protocol light source.
  - 8. The method of claim 7, wherein the signal quality characteristics includes at least one of signal strength, a presence of noise, or a presence of motion induced noise.
  - 9. The method of claim 1, wherein the physiological event includes at least one of oxygen desaturation, an abnormal pulse rate, or an abnormal plethysmograph waveform.
  - 10. The method of claim 9, wherein the physiological event includes the abnormal pulse rate and wherein the abnormal pulse rate includes an elevated pulse rate.

11. A patient monitor configured to monitor at least a pulse rate of a patient by processing signals responsive to light attenuated by body tissue, the patient monitor comprising:
- a plurality of light sources;
  
  at least one detector of an optical sensor configured to receive light after attenuation by body tissue of the patient using the patient monitor; and
  
  one or more processors configured to;
  
  operate the patient monitor according to a first control protocol, wherein said operating includes activating a first control protocol light source in accordance with the first control protocol, the first control protocol light source including one or more of said plurality of light sources;
  
  when operating according to the first control protocol, calculate, by the patient monitor, measurement values of the pulse rate, the measurement values responsive to light from the first control protocol light source, detected by said at least one detector after attenuation by the body tissue of the patient using the patient monitor;
  
  generate a trigger signal, wherein generation of said trigger signal is responsive to at least one of;
  
  a comparison of processing characteristics to a predetermined threshold, a physiological event, or signal quality characteristics of signals received from the detector;
  
  in response to receiving the trigger signal, operate the patient monitor according to a second control protocol different from the first control protocol, wherein said operation includes activating a second control protocol light source in accordance with the second control protocol, the second control protocol light source including one or more of said plurality of light sources; and
  
  when operating the patient monitor according to the second control protocol, calculate the measurement values of the pulse rate, the measurement values responsive to light from the second control protocol light source, detected by said at least one detector after attenuation by the body tissue of the patient using the patient monitor,wherein said operation of the patient monitor according to the second control protocol operates the first control protocol light source according to a first duty cycle and said operation of the patient monitor according to the second control protocol operates the second control protocol light source according to a second duty cycle, wherein power consumption of the first control protocol light source according to the first duty cycle is different than power consumption of the second control protocol light source according to the second duty cycle.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The patient monitor of claim 11, wherein said operation of the first control protocol light source on the first duty cycle has an active time and an inactive time according to the first control protocol, wherein said operation of the second control protocol light source on the second duty cycle has an active time and an inactive time according to the second control protocol, wherein the active time of the first duty cycle has a first duration and the active time of the second duty cycle has a second duration, wherein the first duration and the second duration are different.
  - 13. The patient monitor of claim 12, wherein the second duration is longer than the first duration.
  - 14. The patient monitor of claim 11, wherein power consumption during said operation at the second control protocol is greater than power consumption during said operation at the first control protocol.
  - 15. The patient monitor of claim 11, wherein said operation of the patient monitor in accordance with the first control protocol comprises operating the first control protocol light source in a data off state.
  - 16. The patient monitor of claim 11, wherein said signals received from the detector are responsive to the detected light of the first control protocol light source or the second control protocol light source.

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Current Assignee
Masimo Corporation
Original Assignee
Masimo Corporation
Inventors
Al-Ali, Ammar
Primary Examiner(s)
Winakur, Eric F
Assistant Examiner(s)
Liu, Chu Chuan

Application Number

US16/174,144
Publication Number

US 20190069814A1
Time in Patent Office

344 Days
Field of Search
US Class Current
CPC Class Codes

A61B 2560/0209   adapted for power saving

A61B 5/1455   using optical sensors, e.g....

A61B 5/14551   for measuring blood gases

Low power pulse oximeter

First Claim

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1 Petition

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Abstract

Citations

16 Claims

Specification

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Low power pulse oximeter

First Claim

1 Assignment

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Litigations

1 Petition

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Accused Products

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Abstract

Citations

16 Claims

Specification

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Solutions

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