Resuscitation device with onboard processor

What is claimed is: 1. A pressure sensor comprising: a substrate; a wall formed on and extending from the substrate; a flexible disk coupled to the wall, wherein the substrate, the wall, and the flexible disk form an inner volume; one of a plurality of concentric conductive rings and a plurality of radial conductive strips is formed on a surface of the substrate within the inner volume; the other of the plurality of concentric conductive rings and the plurality of radial conductive strips is formed on a surface of the flexible disk within the inner volume; and wherein the plurality of radial conductive strips comprise different lengths, and deformation of the flexible disk due to a pressure differential between a first pressure within the inner volume and a second pressure outside of the inner volume will cause radial conductive strips to contact concentric conductive rings. 2. The sensor of claim 1 , wherein the plurality of concentric conductive rings and the plurality of radial conductive strips are formed on inner surfaces of the substrate and the flexible disk. 3. The sensor of claim 1 , wherein the number of concentric conductive rings contacted by the at least one radial conductive strip is related to a magnitude of the pressure differential. 4. A pressure sensor comprising: a substrate spaced apart from a flexible disk, and an inner volume formed therebetween; one of a plurality of concentric conductive rings and a plurality of radial conductive strips formed on a surface of the substrate within the inner volume; the other of the plurality of concentric conductive rings and the plurality of radial conductive strips formed on a surface of the flexible disk within the inner volume; and wherein deformation of the flexible disk due to a pressure differential between a first pressure within the inner volume and a second pressure outside of the inner volume will cause radial conductive strips to contact concentric conductive rings. 5. The sensor of claim 4 , wherein a wall extends from the substrate to the flexible disk. 6. The sensor of claim 4 , wherein the plurality of concentric conductive rings and the plurality of radial conductive strips are formed on inner surfaces of the substrate and the flexible disk. 7. The sensor of claim 4 , wherein the number of concentric conductive rings contacted by the at least one radial conductive strip is related to a magnitude of the pressure differential. 8. The sensor of claim 4 , wherein the inner volume is vented to an ambient atmosphere. 9. A resuscitator comprising: a patient airway interface device, a bag, and a flow passage coupled between the bag and patient airway interface device; a sensor assembly comprising a display and a pressure sensor coupled to the flow passage and configured to provide a measurement of at least one pressure, the pressure sensor comprising: a substrate spaced apart from a flexible disk, and an inner volume formed therebetween; one of a plurality of concentric conductive rings and a plurality of radial conductive strips formed on a surface of the substrate within the inner volume; the other of the plurality of concentric conductive rings and the plurality of radial conductive strips formed on a surface of the flexible disk within the inner volume; wherein deformation of the flexible disk due to a pressure differential between a first pressure within the inner volume and a second pressure outside of the inner volume will cause radial conductive strips to contact concentric conductive rings; and a processor coupled to the display and the pressure sensor, the processor configured to receive the measurement from the pressure sensor and provide information on the display based on the received measurement. 10. The resuscitator of claim 9 , wherein the information provided on the display further comprises pressure information. 11. The resuscitator of claim 10 , wherein the information comprises a pressure-vs-time curve. 12. The resuscitator of claim 9 , wherein the information further comprises an alarm. 13. The resuscitator of claim 9 , wherein the information further comprises real-time guidance related to operation of the resuscitator. 14. The resuscitator of claim 9 , wherein: the sensor assembly comprises a memory coupled to the processor; and the processor is configured to store a portion of the measurement in the memory. 15. The resuscitator of claim 9 , wherein the patient airway interface device comprises a mask. 16. The resuscitator of claim 9 , wherein the patient airway interface device comprises an endotracheal tube. 17. A method comprising the steps of: measuring a pressure in exhaled breath of a patient using at least one pressure sensor comprising: a substrate spaced apart from a flexible disk, and an inner volume formed therebetween; one of a plurality of concentric conductive rings and a plurality of radial conductive strips formed on a surface of the substrate within the inner volume; the other of the plurality of concentric conductive rings and the plurality of radial conductive strips formed on a surface of the flexible disk within the inner volume; wherein deformation of the flexible disk due to a pressure differential between a first pressure within the inner volume and a second pressure outside of the inner volume will cause radial conductive strips to contact concentric conductive rings; and actuating an indicator so as to provide information related to the pressure measurement including at least one of a breath rate, a tidal volume, a pressure-vs-time curve, or a condition of the patient. 18. The method of claim 17 , further comprising the step of actuating an indicator so as to provide guidance related to achieving at least one of a target breath rate and a target tidal volume. 19. The method of claim 17 , further comprising venting the inner volume to an ambient atmosphere. 20. The method of claim 17 , wherein measuring a pressure comprises measuring a resistance between two or more rings connected by a strip.