Bypass flow element for diverter flow measurement

What is claimed is: 1. A ventilator comprising: a first pathway configured to supply a first gas; a second pathway configured to supply a second gas; and a bypass element configured to bypass a portion of the first gas through a first bypass conduit, and bypass a portion of the second gas through a second bypass conduit, the bypass element comprising a first rib adjacent to the first bypass conduit and a second rib adjacent to the second bypass conduit, wherein: the bypass element is not tapered where each of the first and second bypass conduits bypass the portion of the respective first and second gasses, the first rib provides a geometric chord with an inner perimeter of the first pathway when viewed from a perspective of a cross-section of the first pathway the first rib divides first unobstructed sections of the first pathway, the second rib provides a geometric chord with an inner perimeter of the second pathway when viewed from a perspective of a cross-section of the second pathway, and the second rib divides second unobstructed sections of the second pathway. 2. The ventilator of claim 1 , wherein the first gas comprises air and the second gas comprises oxygen. 3. The ventilator of claim 1 , wherein the bypass element is in fluid communication with a flow sensor or a volume sensor. 4. The ventilator of claim 3 , wherein the first gas comprises air and the second gas comprises oxygen, the second bypass conduit is configured to carry oxygen from the ventilator, and the first bypass conduit is configured to carry air from the ventilator. 5. The ventilator of claim 1 , further comprising a plurality of ribs adjacent to the first bypass conduit and another plurality of ribs adjacent to the second bypass conduit. 6. The ventilator of claim 1 , wherein: flow of the first gas in the first bypass conduit is less than 2.5 cm H 2 O, and flow of the second gas in the second bypass conduit is less than 2.5 cm H 2 O. 7. The ventilator of claim 1 , wherein flow of the first gas through the first bypass conduit does not exceed ±1 LPM when the flow of the first gas through the first pathway is between ±240 SLPM. 8. A bypass element configured to direct a first gas and a second gas from a ventilator, the bypass element comprising: a first pathway that conveys the first gas; and a first bypass conduit and a first bypass return that are in fluid communication with the first pathway, the first bypass conduit and first bypass return cooperate to bypass a portion of the first gas around a portion of the first pathway in which a first rib extends lengthwise within the first pathway between the first bypass conduit and the first bypass return, wherein: the first pathway is not tapered where the first bypass conduit bypasses the portion of the first gas, the first rib provides a geometric chord with an inner perimeter of the first pathway when viewed from a perspective of a cross-section of the first pathway, and the first rib divides unobstructed sections of the first pathway. 9. The bypass element of claim 8 , wherein the first gas comprises air. 10. The bypass element of claim 8 , wherein the bypass element is in fluid communication with a flow sensor or a volume sensor. 11. The bypass element of claim 8 , further comprising: a second pathway that conveys the second gas; and a second bypass conduit and a second bypass return that are in fluid communication with the second pathway, the second bypass conduit and second bypass return cooperate to bypass a portion of the second gas around a portion of the second pathway in which a second rib extends lengthwise within the second pathway between the second bypass conduit and the second bypass return, wherein the first gas comprises air and the second gas comprises oxygen, the second bypass conduit is configured to carry oxygen, and the first bypass conduit is configured to carry air. 12. The bypass element of claim 11 , further comprising a plurality of ribs adjacent to the first bypass conduit and another plurality of ribs adjacent to the second bypass conduit. 13. A bypass element of a ventilator, the bypass element comprising: a pathway that conveys a gas; and a bypass conduit and a bypass return that are in fluid communication with the pathway, the bypass conduit and bypass return cooperate to bypass a portion of the gas around a portion of the pathway in which a plurality of ribs extend lengthwise within the pathway substantially an entire distance between the bypass conduit and the bypass return but do not overlap either the bypass conduit or the bypass return, wherein: the pathway is not tapered where the bypass conduit bypasses the portion of the gas, each of the plurality of ribs provides a geometric chord with an inner perimeter of the pathway when viewed from a perspective of a cross-section of the pathway, and each of the plurality of ribs divides respective unobstructed sections of the pathway. 14. The bypass element of claim 13 , wherein each of the plurality of ribs provides a geometric chord with the inner perimeter of the pathway when viewed from each of opposite perspectives of a cross-section of the pathway taken midway along the pathway between the bypass conduit and the bypass return.