Breathing tube assemblies with adjustable elbow

What is claimed is: 1 . A breathing tube assembly comprising: a breathing tube comprising: a first end, a second end, an interior passage, and an integrated electrical circuit, a gases connector comprising a first end and a second end, the second end of the gases connector being non-rotatably coupled to the first end of the breathing tube and comprising: a flange having an arcuate portion and an extension portion that extends outwardly from the arcuate portion, a shaft extending from the flange and defining a connector internal passage that communicates with the interior passage of the breathing tube, and an electrical terminal extending from the extension portion of the flange, wherein the electrical terminal comprises a plug arranged to connect with a port of a respiratory therapy device and the plug is spaced apart from the shaft, the electrical terminal comprises two electrical contacts that are exposed along a side surface of the plug, the two electrical contacts extending parallel to each other in a direction parallel to the shaft, the side surface being an outwardly-facing surface that faces away from the shaft, wherein the electrical terminal is connected to the integrated electrical circuit, and wherein the gases connector is arranged to be non-rotatably connected to an outlet of the respiratory therapy device; wherein the shaft includes a protrusion on an outer surface of the shaft, wherein the protrusion is a shaped projection extending from an outer surface of the shaft and spaced from the first end of the shaft, wherein the protrusion defines an interference or interlocking surface. 2 . The breathing tube assembly of claim 1 , wherein the electrical terminal is arranged to engage a complimentary electrical terminal of the respiratory therapy device to permit electrical signals and/or electrical energy to be transmitted between the respiratory therapy device and the breathing tube assembly. 3 . The breathing tube assembly of claim 1 , wherein the integrated electrical circuit is a heating circuit, heating coil, data circuit or any combination thereof. 4 . The breathing tube assembly of claim 1 , wherein the integrated electrical circuit is a spiral wound heating coil. 5 . The breathing tube assembly of claim 4 , wherein the spiral wound heating coil is enclosed within a wall of the breathing tube. 6 . The breathing tube assembly of claim 1 , wherein a length of the plug is between ¾ of a length of the shaft to the same length or longer than the shaft. 7 . The breathing tube assembly of claim 1 , wherein the plug is parallel to and adjacent to the shaft. 8 . The breathing tube assembly of claim 1 , wherein the breathing tube includes a sensor at the second end to sense one or more parameters of a flow of air. 9 . The breathing tube assembly of claim 8 , wherein the sensor provides an output to the respiratory therapy device regarding one or more parameters of air flow via the integrated electrical circuit. 10 . The breathing tube assembly of claim 1 , wherein the protrusion is arranged to cooperate with a recess on the respiratory therapy device to couple the breathing tube assembly to the respiratory therapy device. 11 . The breathing tube assembly of claim 1 , wherein the gases connector is permanently coupled to the breathing tube. 12 . The breathing tube assembly of claim 1 , further comprising an elbow, wherein the elbow is configured to rotatably connect to the gases connector and direct a portion of the breathing tube into a bend or a curved orientation. 13 . The breathing tube assembly of claim 12 , wherein the elbow is more rigid than the breathing tube. 14 . The breathing tube assembly of claim 12 , wherein the flange includes a boss extending from the flange in an opposite direction of the shaft, and a connector engagement portion of the elbow receives the boss, thereby coupling the elbow and connector. 15 . The breathing tube assembly of claim 14 , wherein an interlocking arrangement secures the connector engagement portion to the boss in an axial direction, but permits rotation therebetween. 16 . The breathing tube assembly of claim 15 , wherein the interlocking arrangement includes a circumferential protrusion defined by one of the connector engagement portion and the boss, and a complementary circumferential groove defined by the other of the connector engagement portion and the boss. 17 . The breathing tube assembly of claim 16 , wherein the circumferential protrusion is defined by the boss and the complementary circumferential groove is defined by the connector engagement portion. 18 . The breathing tube assembly of claim 12 , wherein the elbow is rotatable in a single direction for multiple rotations. 19 . The breathing tube assembly of claim 12 , wherein a gap exists upon centering of the breathing tube relative to the elbow to facilitate relative rotation therebetween. 20 . The breathing tube assembly of claim 12 , wherein the elbow is rotatable about at least a longitudinal axis of the outlet of the respiratory therapy device to permit a position of the breathing tube to be varied relative to the respiratory therapy device. 21 . The breathing tube assembly of claim 1 , wherein the flange has a tube facing side and a therapy device facing side, wherein the electrical terminal extends parallel to the shaft from the therapy device facing side. 22 . The breathing tube assembly of claim 1 , wherein the flange has a tube facing side and a therapy device facing side, wherein the electrical terminal extends perpendicular to the therapy device facing side of the flange. 23 . The breathing tube assembly of claim 1 , further comprising a guide rib that extends in a lengthwise direction of the shaft. 24 . The breathing tube assembly of claim 23 , wherein the guide rib is configured to engage with a complementary groove of the outlet. 25 . The breathing tube assembly of claim 1 , wherein the extension portion extends radially relative to the shaft. 26 . The breathing tube assembly of claim 1 , wherein a width of the extension portion is less than a width of the arcuate portion. 27 . The breathing tube assembly of claim 1 , wherein the flange is planar. 28 . The breathing tube assembly of claim 1 , wherein the electrical terminal is configured to connect a heat source of the respiratory therapy device to a heating coil of the breathing tube assembly. 29 . A breathing tube assembly, comprising: a breathing tube, comprising: a first end; a second end; an interior passage; and an integrated electrical circuit; a gases connector being non-rotatably coupled to the first end of the breathing tube and comprising: a flange; a shaft extending from the flange and defining a connector internal passage that communicates with the interior passage of the breathing tube; and an electrical terminal extending from the flange, wherein the electrical terminal comprises a plug arranged to connect with a port of a respiratory therapy device, wherein the electrical terminal comprises two electrical contacts that are exposed along a side surface of the plug, the two electrical contacts extending parallel to each other in a direction parallel to the shaft; wherein the flange has a tube facing side and a therapy device facing side, wherein the plug extends perpend