Multichannel gas analyzer and method of use

US 4,817,013 A
Filed: 10/17/1986
Issued: 03/28/1989
Est. Priority Date: 10/17/1986
Status: Expired due to Term

First Claim

Patent Images

1. A gas analyzer system, comprising:

(a) an optical bench, further comprising,(1) a gas pathway through the optical bench,(2) a flow shaper at gas inlet to the gas pathway for changing the cross-sectional shape of the entering gas flow from a first to a second cross-sectional shape,(3) at least one gas detector channel assembly disposed along the gas pathway,(4) modulating means for modulating the signals detected by the detector channel assembly,(5) circuit means associated with the detector channel assembly for separating the AC and DC components of a detected signal to correct the AC component of the signal based on changes in the DC components of the signal,(6) pressure sensing means disposed in the gas pathway for measuring the barometric pressure within the gas pathway,(7) temperature sensing means for measuring an internal temperature of the optical bench,(8) flow rate sensing means disposed in the gas pathway for measuring the flow rate of the gas stream through the gas pathway,(9) means for drawing the gas stream through the gas pathway and backflushing the pathway,(10) first circuit means for generating signals indicative of the detected gas levels of the predetermined gases by detector channel assembly, the pressure and gas flow rate within the gas pathway and the temperature within the optical bench,(11) second circuit means connected to the first circuit means for providing from memory circuit means signals representative of characterization of components of the optical bench, and(12) output circuit means connected to the first and second circuit means for providing an output signal indicative of the barometric pressure and gas flow rate within the gas pathway, the temperature within the optical bench, the gas level of the predetermined gas detected by the detector channel assembly, and signal representative of the characterization of the components of the optical bench;

(b) analog signal processing circuitry further comprising,(1) an input circuit for receiving signals output from the optical bench, processing these signals and converting them from analog to digital signals,(2) a digital signal processing circuit, further including a microprocessor and memory circuits for receiving the digital outputs from the input circuit and correcting the signals indicative of the partial gas pressure for temperature, changes in detector sensitivity, collision broadening, cross correction, barometric pressure and characterization of the optical bench components, and(3) output circuit for outputting at least the corrected signals for the partial gas pressure to display processing circuitry;

(c) a display processing circuitry further including at least a microprocessor and memory circuits for receiving the digital signals output from the analog signal processing circuitry and processing the signals to provide outputs for controlling display screen processing circuitry, for digital and analog output means and for alarm means;

(d) the display screen processing circuitry with means connected to display processing circuitry for generating signals for driving a display means; and

(e) power supply means for powering the system.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An improved gas analyzer system (FIG. 1) and method of use for detecting and displaying the constituent gases of a respiratory gas stream, the system comprising an optical bench (109) through which a respiratory gas flows and in which measurements of the gas are taken; analog input circuits (122) for receiving signals output from the optical bench (109); analog processing circuits (124) for processing signals output from the analog input circuits (122); display processing circuits (128) for processing the signals output from the analog processing circuits (124) and other system circuitry; pixel logic circuits/analog outputs (130) for processing signals output from the display processing circuitry (128) and providing analog output ports; a five button panel (148), an alarm-knob board (144), and a speaker driver (152) for operator interface and activation of audible and visual alarms; a CRT driver for driving the CRT; and a power supply (158) for powering the system.

Citations

21 Claims

1. A gas analyzer system, comprising:
- (a) an optical bench, further comprising,(1) a gas pathway through the optical bench,(2) a flow shaper at gas inlet to the gas pathway for changing the cross-sectional shape of the entering gas flow from a first to a second cross-sectional shape,(3) at least one gas detector channel assembly disposed along the gas pathway,(4) modulating means for modulating the signals detected by the detector channel assembly,(5) circuit means associated with the detector channel assembly for separating the AC and DC components of a detected signal to correct the AC component of the signal based on changes in the DC components of the signal,(6) pressure sensing means disposed in the gas pathway for measuring the barometric pressure within the gas pathway,(7) temperature sensing means for measuring an internal temperature of the optical bench,(8) flow rate sensing means disposed in the gas pathway for measuring the flow rate of the gas stream through the gas pathway,(9) means for drawing the gas stream through the gas pathway and backflushing the pathway,(10) first circuit means for generating signals indicative of the detected gas levels of the predetermined gases by detector channel assembly, the pressure and gas flow rate within the gas pathway and the temperature within the optical bench,(11) second circuit means connected to the first circuit means for providing from memory circuit means signals representative of characterization of components of the optical bench, and(12) output circuit means connected to the first and second circuit means for providing an output signal indicative of the barometric pressure and gas flow rate within the gas pathway, the temperature within the optical bench, the gas level of the predetermined gas detected by the detector channel assembly, and signal representative of the characterization of the components of the optical bench;
  
  (b) analog signal processing circuitry further comprising,(1) an input circuit for receiving signals output from the optical bench, processing these signals and converting them from analog to digital signals,(2) a digital signal processing circuit, further including a microprocessor and memory circuits for receiving the digital outputs from the input circuit and correcting the signals indicative of the partial gas pressure for temperature, changes in detector sensitivity, collision broadening, cross correction, barometric pressure and characterization of the optical bench components, and(3) output circuit for outputting at least the corrected signals for the partial gas pressure to display processing circuitry;
  
  (c) a display processing circuitry further including at least a microprocessor and memory circuits for receiving the digital signals output from the analog signal processing circuitry and processing the signals to provide outputs for controlling display screen processing circuitry, for digital and analog output means and for alarm means;
  
  (d) the display screen processing circuitry with means connected to display processing circuitry for generating signals for driving a display means; and
  
  (e) power supply means for powering the system.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 2. The system as recited in claim 1, wherein the pressure sensing means includes an absolute type pressure sensor.
  - 3. The system as recited in claim 1, wherein the flow rate sensing means includes a differential type pressure sensor.
  - 4. The system as recited in claim 1, wherein the flow rate of the gas stream through the gas pathway is preferably of 50 cc/min.
  - 5. The system as recited in claim 1, wherein the display screen processing circuitry further comprises;
    - a display control gate array circuit for receiving and processing control and data signals from the display processing circuitry and generating signals for controlling the display means;
      
      a scroll/pixel gate array circuitry for receiving and processing control signals and data signals from the display processing circuitry and generating signals for use in controlling the representations on the display means; and
      
      a memory circuit with means connected to the display control gate array circuit and the scroll pixel gate array circuit for storing predetermined information for use in displaying representations on the display means.
  - 6. The system as recited in claim 1, where the gas pathway has a first gas passageway, a second gas passageway and a third gas passageway.
  - 7. The system as recited in claim 6, wherein the system further comprises first, second and third gas detector channel assemblies, with the first gas detector channel assembly including a first window mounted as a first portion of a sidewall of the first gas passageway, a first light source mounted behind the first window to provide light through the first window into the first gas passageway, a first filter means mounted as a portion of an opposing sidewall of the first gas passageway from the first window for passing light of a predetermined wavelength range from the first light source in the first gas passageway through it and a first detector means spaced away and behind the first filter means for detecting the light within a predetermined wavelength range passing through the first filter, the second gas detector channel assembly including a second window mounted as a second portion of the sidewall of the first gas passageway, a second light source mounted behind the second window to provide light through the second window into the first gas passageway, a second filter means mounted as a portion of the opposing sidewall of the first gas passageway from the second window for passing light of a predetermined wavelength range from the second light source in the first gas passageway through it, and a second detector means spaced away and behind the the second filter means for detecting the light within a predetermined wavelength range passing through the second filter means, and the third gas detection channel assembly including a third light source disposed with the second gas passageway, third filter means associated with the portion of the second gas passageway opposing the third light source for passing light from the third light source of a predetermined wavelength range through it, and third detector means spaced away and behind the third filter means for detecting the light within a predetermined wavelength range passing through the third filter means with the optical path of the third detector channel assembly being parallel to the longitudinal axis of the second passageway.
  - 8. The system as recited in claim 1, wherein the flow shaping gas inlet means shapes the gas flow from a circular cross-section to a rectangular cross-section.
  - 9. The system as recited in claim 8, wherein the flow shaper further includes a filter disposed across the gas flow which assists in flow shaping.
  - 10. The system as recited in claim 7, wherein when the first, second and third windows are lead selenide detectors.
  - 11. The system as recited in claim 7, wherein the first filter means passes light having wavelengths in an absorption band of gases CO₂.
  - 12. The system as recited in claim 7, wherein the second filter means passes light having a wavelength in an absorption band of N₂ O.
  - 13. The system as recited in claim 7, wherein the third filter means passes light having wavelength in an absorption band of an anesthetic agent.
  - 14. The system as recited in claim 7, wherein the first, second and third light sources are infrared sources.
  - 15. The system as recited in claim 7, wherein the first gas passageway has a rectangular cross sectional shape.
  - 16. The system as recited in claim 7, wherein the second gas passageway has a circular cross sectional shape.
  - 17. The system as recited in claim 7, wherein the length of the optical path between the first and second windows and the first and second filters, respectively, is a first optical path length and the length of the optical path between the third light source and the third filter means is a second greater optical path length.

18. A gas analyzer apparatus, comprising:
- (a) a gas pathway through an optical bench;
  
  (b) a flow shaper at a gas inlet to the gas pathway for changing the cross-sectional shape of an entering gas flow from a first to a second cross-sectional shape;
  
  (c) at least one gas detector channel assembly disposed along the gas pathway;
  
  (d) modulating means for modulating the signal detected by the detector channel assembly;
  
  (e) means associated with the detector channel assembly for separating the AC and DC components of a detected signal to correct the AC component of the signal based on changes in the DC component of the signal;
  
  (f) pressure sensing means disposed in the gas pathway for measuring barometric pressure within the gas pathway;
  
  (g) temperature sensing means for measuring an internal temperature of the apparatus;
  
  (h) flow rate sensing means disposed in the gas pathway for the measuring flow rate of the gas stream through the gas pathway;
  
  (i) means for drawing the gas stream through the gas pathway and backflushing the pathway;
  
  (j) first circuit means for generating signals indicative of the detected gas levels of the predetermined gases by detector channel assembly, the pressure and flow rate within the gas pathway, and the temperature within the optical bench;
  
  (k) second circuit means connected to the first circuit means for providing from memory circuit means signals representative of characterization of components of the apparatus;
  
  (l) output circuit means connected to the first and second circuit means for providing output signals indicative of the barometric pressure and gas flow rate within the gas pathway, the temperature within the apparatus, the gas levels of the predetermined gases detected by the first, the second and the third detector channel assemblies, and signals representative of the characterization of the components of the apparatus; and
  
  (m) power supply means for supplying power to the apparatus.

19. A gas detector apparatus analyzing a multicomponent gas stream comprising:
- (a) an optical bench, further comprising;
  
  (1) a gas pathway through the optical bench;
  
  (2) a flow shaper at gas inlet to the gas pathway for changing the cross-sectional shape of the entering gas flow from a first to a second cross-sectional shape;
  
  (3) first, second and third gas detector channel assemblies disposed along the gas pathway, with at least an optical path of one detector channel assembly being parallel to the longitudinal axis at a portion of the pathway;
  
  (4) modulating means for modulating the signal detected by the detector channel assembly;
  
  (5) means associated with the detector channel assembly for separating the AC and DC components of a detected signal to correct the AC component of the signal based on changes in the DC component of the signal;
  
  (6) pressure sensing means disposed in the gas pathway for measuring the barometric pressure within the gas pathway;
  
  (7) temperature sensing means for measuring an internal temperature of the optical bench;
  
  (8) flow rate sensing means disposed in the gas pathway for measuring the flow rate of the gas stream through the gas pathway;
  
  (9) means for drawing the gas stream through the gas pathway and backflushing the pathway;
  
  (10) first circuit means for generating signals indicative of the detected gas levels of the predetermined gases by the first, the second and the third detector channel assemblies, the pressure and flow rate within the gas pathway and the temperature within the optical bench;
  
  (11) second circuit means connected to the first circuit means for providing from memory means signals representative of characterization of components of the optical bench; and
  
  (12) output circuit means connected to the first and second circuit means for providing an output signal indicative of the barometric pressure and gas flow rate within the gas pathway, the temperature within the optical bench, the gas level of the predetermined gas detected by the detector channel assembly, and signal representative of the characterization of the components of the optical bench;
  
  (b) analog signal processing circuitry further comprising,(1) an input circuit for receiving signals output from the optical bench, processing these signals and converting them from analog to digital signals,(2) digital signal processing circuit, further including a microprocessor and memory circuits for receiving the digital outputs from the input circuit and correcting the signals indicative of the partial gas pressure for temperature, changes in detector sensitivity, collision broadening, cross-correction, barometric pressure, and characteriztion of the optical bench components, and(3) output circuitry for outputting at least the corrected signals for the partial gas pressures from the analog processing circuitry; and
  
  (c) power supply means for powering the apparatus.

20. A method for measuring a partial pressure of a plurality of constituent gases of a gas stream with a gas analyzer apparatus comprising the steps of:
- (a) detecting and generating signals indicative of the amount of each of a plurality of predetermined constituent gases of the gas stream with an infrared detectors assembly for each of the plurality of constituent gases, including correcting a detected signal by separating the AC and DC components of the detected signal and correcting the AC component of the signal based on changes in the DC component of the signal;
  
  (b) detecting and generating a signal indicative of barometric pressure within the apparatus with a pressure sensing means;
  
  (c) storing and generating signals indicative of the characterization of the components of the apparatus;
  
  (d) detecting and generating a signal indicative of a temperature in the apparatus; and
  
  (e) calculating the partial pressure of each constituent gas and correcting the calculated value for barometric pressure within the apparatus, the temperature within the apparatus, cross correction collision broadening, changes in the detector sensitivity of each infrared detector and characterization of the components of the apparatus.

21. A circuit for use in a gas analyzer for separating AC and DC components of a signal from an infrared detector to correct the AC components of the signal based on changes in the DC component of the signal, comprising:
- means for biasing the signal;
  
  a first amplifier means for buffering the biased signal;
  
  means for passing the AC component and blocking the DC component for the buffered signal;
  
  a second amplifier which receives the AC component and outputs an amplified AC signal;
  
  means for filtering the DC component of the buffered signal and outputting the DC component of the signal andmeans for connecting to the AC component and DC component for modifying the amplitude of the AC component in response to the magnitude of the DC component.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Nellcor Puritan Bennett Incorporated (Medtronic Plc)
Original Assignee
Nellcor Incorporated (Medtronic Plc)
Inventors
Stone, James H., Braig, James R., Goldberger, Daniel S., Corenman, James E., Rojas, Emil P.
Primary Examiner(s)
Lall, Parshotam S.
Assistant Examiner(s)
Ramirez, Ellis B.

Application Number

US06/922,043
Time in Patent Office

893 Days
Field of Search

364/496-499, 250/341-347, 128/719, 422/83-84, 422/88, 73/23, 356/437
US Class Current

702/30
CPC Class Codes

G01N 2021/3129   Determining multicomponents...

G01N 21/3504   for analysing gases, e.g. m...

G01N 2201/121   Correction signals

Multichannel gas analyzer and method of use

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

Citations

21 Claims

Specification

Solutions

Use Cases

Quick Links

Multichannel gas analyzer and method of use

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links