Apparatus and method for humidity conditioning sample gas of a patient breathing circuit affiliated with a ventilator and/or nitric oxide delivery system

What is claimed is: 1. A sample gas conditioning apparatus, comprising: a housing, at least partially defining a chamber, and at least partially defining an air input path into the chamber and an air egress path from the chamber, the housing comprising: an annular end plate comprising: an inner perimeter edge that is spaced from and circumferential around a winding axis; an outer perimeter edge; and a winding support extending from the inner perimeter edge, a support length toward a housing open end; and housing side walls that extend from the outer a peripheral rim region to the housing open end, in a direction parallel to the winding axis; a fan, connected to the housing, configured to urge an ambient air flow through the chamber, the ambient air flow entering through the air input path into the chamber, and exiting the chamber through the air egress path; a sample gas tube having a coiled tube section that comprises a water permeable material, at least a portion of the coiled tube section being arranged in the chamber as a ventilated section, the ventilated section being ventilated by the ambient air flow through the chamber, wherein the coiled tube section comprises a coil winding around the winding axis and the winding support, wherein the fan, the air input path, the air egress path, and the housing have a joint configuration that urge the ambient air flow through the chamber to have a flow direction, the flow direction being generally parallel to the winding axis. 2. The sample gas conditioning apparatus of claim 1 , wherein the fan, the housing and the ventilated section have a joint configuration that establishes the ambient air flow through the chamber with a flow that prevents or significantly retards formation of a skin of dry gas around an outer surface of the ventilated section. 3. The sample gas conditioning apparatus of claim 2 , wherein the sample gas tube has an input end and an output end, wherein the ventilated section provides a passage for a sample gas, the passage having a passage length, wherein the passage length in combination with a flow rate of the sample gas provides, for at least a range of humidity level at the input end that is outside of a desired range, a humidity of the sample gas at the output end that is within the desired range. 4. The sample gas conditioning apparatus of claim 3 , wherein the desired range extends from approximately 15% relative humidity to approximately 90% relative humidity. 5. The sample gas conditioning apparatus of claim 1 , wherein the sample gas tube has an input and an output, wherein the sample gas conditioning apparatus further comprises a connection of the input to a conduit, wherein the conduit is configured to deliver a mixture of a mixture gas and a therapeutic gas to a patient, and wherein the sample gas tube is configured to provide passage of a sample of the mixture of the mixture gas and the therapeutic gas to the ventilated section, and to output, at the output, a humidity conditioned sample of the mixture of the mixture gas and the therapeutic gas, wherein the therapeutic gas comprises nitric oxide. 6. The sample gas conditioning apparatus of claim 1 , wherein the water permeable material comprises a sulfonated tetrafluoroethylene based fluoropolymer-copolymer. 7. The sample gas conditioning apparatus of claim 1 , wherein the water permeable material comprises Nafion. 8. The sample gas conditioning apparatus of claim 1 , wherein the ventilated section provides a ventilated tubular membrane formed of the water permeable material, and the water permeable material transfers humidity through the ventilated tubular membrane, based on First Order Kinetic reaction. 9. The sample gas conditioning apparatus of claim 8 , wherein the ventilated tubular membrane has a start and an end, and provides a passage length from the start to the end, wherein based at least in part on the passage length the ventilated tubular membrane provides, for at least a range of humidity level of a sample gas at the start that is outside of a given acceptable range, a humidity level of the sample gas at the end that is within the given acceptable range. 10. The sample gas conditioning apparatus of claim 1 , wherein the coiled tube section consists of at least two coil turns. 11. The sample gas conditioning apparatus of claim 1 , wherein the coil is a coil winding among a plurality of coil windings. 12. The sample gas conditioning apparatus of claim 1 , wherein the coil winding forms a coil winding outer surface, the coil winding outer surface being radially distal from the winding axis, wherein the chamber is defined, at least in part, by an inner surface of the housing that extends a length along the winding axis and, circumferentially around the winding axis, faces toward the winding axis. 13. The sample gas conditioning apparatus of claim 1 , wherein the winding support is configured to support the coil winding in a winding configuration having a winding radius, the winding radius extending radially from the winding axis. 14. The sample gas conditioning apparatus of claim 13 , wherein an inner surface of the housing side walls faces toward the winding axis, circumferentially around the winding axis, wherein the inner surface of the housing side walls and the winding radius define an annular volume within the chamber, centered around the winding axis, that extends from the annular end plate toward the housing open end. 15. The sample gas conditioning apparatus of claim 14 , wherein the winding support comprises a hollow structure, having longitudinal slots, configured to provide for ingress of the ambient air into the annular volume. 16. A sample gas conditioning system comprising: a housing, at least partially defining a chamber, and at least partially defining an air input path into the chamber and an air egress path from the chamber; a fan, connected to the housing, configured to urge an ambient air flow through the chamber, the ambient air flow entering through the air input path into the chamber, and exiting the chamber through the air egress path; and a sample gas tube, having a section that comprises a permeable material, at least a portion of the section being arranged in the chamber as a ventilated section, the ventilated section being ventilated by the ambient air flow through the chamber and including a coiled tube section comprising a coil winding around a winding axis, wherein the housing includes a housing cap, having a cap perimeter, and includes housing side walls that extend from the cap perimeter to a housing open end, parallel to the winding axis, wherein an inner surface of the housing side walls faces and has a clearance from an outer surface of the coil winding, wherein the housing open end has a housing open end area, wherein the air egress path includes at least a portion of the housing open end area. 17. The sample gas conditioning system of claim 16 , wherein the housing cap is a vented housing cap, providing a vent into the chamber, wherein the air input path comprises the vent. 18. The sample gas conditioning system of claim 16 , wherein the fan comprises an electric motor, supported in a fan housing, having a rotor shaft and a rotary fan blade attached to the rotor shaft, wherein the housing includes a housing mounting flange at the housing open end, and wherein the fan housing is secured to the housing mounting flange, in a configuration wherein the rotor shaft is parallel to the winding axis. 19. The sample gas conditioning system of claim 18 , wherein the