Respiratory gas sensors in folw path
First Claim
1. A respiratory gas meter for detecting a gas component of a respiratory gas flowing in a flow path of the meter as a user breathes, with a respiratory gas sensor disposed in the flow path, said respiratory gas sensor comprising:
- a fluorescence gas sensor having a radiation emitter for directing radiation along the flow path and a radiation detector for detecting fluorescence from the respiratory gas induced by the radiation; and
a narrow band filter disposed between the detector and the gas, to pass fluorescence to the radiation detector, to instantaneously detect components of the respiratory gas passing through the flow path.
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Accused Products
Abstract
A respiratory gas meter is useful in detecting a gas component of a respiratory gas flowing along a flow path in the meter as a user breathes. The meter includes a respiratory gas sensor disposed in the flow path of the meter. One example of a respiratory gas sensor includes a fluorescence gas sensor having a radiation emitter for directing radiation along the flow path and a radiation detector for detecting fluorescence from the respiratory gas induced by the radiation. The respiratory gas sensor also includes a narrow band filter disposed between the detector and the gas, to pass fluorescence to the radiation detector, so as to instantaneously detect components of the respiratory gas passing through the flow path. Another example of a respiratory gas sensor includes a micromachined sensor that detect nitric oxide through the change in resonance frequency of the micromechanical structure due to absorption of nitric oxide on the surface of the structure.
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Citations
13 Claims
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1. A respiratory gas meter for detecting a gas component of a respiratory gas flowing in a flow path of the meter as a user breathes, with a respiratory gas sensor disposed in the flow path, said respiratory gas sensor comprising:
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a fluorescence gas sensor having a radiation emitter for directing radiation along the flow path and a radiation detector for detecting fluorescence from the respiratory gas induced by the radiation; and
a narrow band filter disposed between the detector and the gas, to pass fluorescence to the radiation detector, to instantaneously detect components of the respiratory gas passing through the flow path. - View Dependent Claims (2, 3, 4, 5)
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6. A respiratory gas meter for detecting a gas component of a respiratory gas flowing in a flow path of the meter as a user breathes, with a respiratory gas sensor disposed in the flow path, said respiratory gas sensor comprising:
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a fluorescence quenching gas sensing means having a radiation emitter for directing radiation along the flow path and a radiation detector for detecting fluorescence from the respiratory nitric oxide gas induced by the radiation;
a fluorescent material that changes in fluorescence in response to changes in the level of nitric oxide;
a radiation source means that induces fluorescence in the fluorescent material;
a nitric oxide permeable membrane disposed between the fluorescent material and the gas flow, so that nitric oxide from the gas flow interacts with the fluorescent material;
a detector means for detecting fluorescence from the fluorescent material; and
signal processing circuitry for detecting changes in the fluorescence due to the presence of nitric oxide in the respiratory gas of the user. - View Dependent Claims (7, 8, 9)
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10. A respiratory gas meter for detecting a gas component of a respiratory gas flowing in a flow path of the meter as a user breathes, with a respiratory gas sensor disposed in the flow path, said respiratory gas sensor comprising:
a micromachined gas sensor disposed in the flow path to instantaneously detect components of the respiratory gas passing through the flow path by a change in resonance frequency of a micromechanical structure due to gas absorption on the surface of the structure. - View Dependent Claims (11, 12, 13)
Specification