Sensing and control arrangements for respiratory device

What is claimed is: 1. A sensor module adapted to be positioned between components of a respiratory therapy system, the sensor module comprising: a body comprising: a gases inlet; a gases outlet; a lumen extending between the gases inlet and the gases outlet; and a mechanical interface configured to removably couple the gases inlet with a gases conduit, a sensing element body coupled to the body, the sensing element body comprising: one or more sensors adapted to determine one or more characteristics of gases passing through the lumen; an electrical interface; and an input device adapted to transmit an input signal to control at least one of the components of the respiratory therapy system; and wherein the mechanical interface is configured to electrically couple the electrical interface with a complementary electrical interface in the gases conduit when the gases inlet is coupled with the gases conduit. 2. The sensor module of claim 1 , wherein the sensor module is adapted to be positioned between a gases conduit and a patient interface. 3. The sensor module of claim 2 , wherein the sensor module is configured to electrically interface with a heating wire positioned in, on, around or near the gases conduit. 4. The sensor module of claim 3 , wherein the sensor module is adapted to transmit a data signal from the one or more sensors to the at least one component by superimposing the data signal over a power signal of the heating wire. 5. The sensor module of claim 3 , wherein the sensor module is adapted to transmit the input signal from the input device to the at least one component by superimposing the input signal over a power signal of the heating wire. 6. The sensor module of claim 1 , wherein the input device comprises a depressible member, and wherein the sensor module is configured to transmit a first input signal when the depressible member is actuated in a first manner and to transmit a second input signal when the depressible member is actuated in a second manner. 7. The sensor module of claim 1 , further comprising an output device adapted to receive an output signal from at least one of the components of the respiratory therapy system and communicate the output signal to a user. 8. The sensor module of claim 7 , wherein the output device comprises an alarm that actuates upon receiving an output signal indicating a disconnection, fault condition, attachment or removal of one or more of the components of the respiratory therapy system. 9. The sensor module of claim 1 , wherein at least one of the one or more sensors is positioned in a gases sampling passageway present outside of but in pneumatic communication with the lumen. 10. The sensor module of claim 9 , further comprising an aperture allowing for communication between the gases sampling passageway and ambient air outside of the respiratory therapy system. 11. The sensor module of claim 9 , wherein the gases sampling passageway extends in a direction substantially perpendicular to the lumen. 12. The sensor module of claim 1 , wherein one or more of the sensors comprise a membrane that allows for the passage of water vapour without allowing for the passage of liquid water. 13. The sensor module of claim 1 , wherein the one or more sensors comprise at least one of a pressure sensor, a flow sensor, an enthalpy sensor, a CO 2 sensor, or an O 2 sensor. 14. A sensor module adapted to be positioned between components of a respiratory therapy system, the sensor module comprising: a body comprising: a gases inlet; a gases outlet; a lumen extending between the gases inlet and the gases outlet; and a mechanical interface configured to removably couple the gases inlet with a gases conduit; and a sensing element body coupled to the body, the sensing element body comprising: one or more sensors adapted to determine one or more characteristics of gases passing through the lumen; a controller adapted to transmit a signal to at least one of the components of the respiratory therapy system using an electrical interface, the signal being a function of a data signal received from at least one of the one or more sensors; and wherein the mechanical interface is configured to electrically couple the electrical interface with a complementary electrical interface in the gases conduit when the gases inlet is coupled with the gases conduit. 15. The sensor module of claim 14 , wherein the controller is adapted to receive a data signal from a sensor in communication with a component of the respiratory therapy system and transmit an output signal to the component, the output signal being a function of the data signal received. 16. The sensor module of claim 14 , wherein the controller transmits a fault signal to at least one of the components of the respiratory therapy system if an implausible data signal is obtained at one or more of the sensors. 17. A respiratory therapy system, the system comprising: a controller configured to control components of the respiratory therapy system; a sensor module comprising: a body comprising: a gases inlet; a gases outlet; a lumen extending between the gases inlet and the gases outlet; and a mechanical interface configured to removably couple the gases inlet with a gases conduit, a sensing element body coupled to the body, the sensing element body comprising: one or more sensors adapted to determine one or more characteristics of gases passing through the lumen; an electrical interface; and an input device adapted to transmit an input signal to control at least one of the components of the respiratory therapy system; and wherein the mechanical interface is configured to electrically couple the electrical interface with a complementary electrical interface in the gases conduit when the gases inlet is coupled with the gases conduit. 18. The respiratory therapy system of claim 17 , wherein the controller is configured to determine a target absolute humidity value and a target temperature value based at least in part on the one or more characteristics of the gases passing through the lumen. 19. The respiratory therapy system of claim 18 , wherein the target absolute humidity value is a target end-of-hose humidity value and the target temperature value is a target end-of-hose temperature value. 20. The respiratory therapy system of claim 18 , wherein the controller is configured to use the target absolute humidity value and the target temperature value to execute closed loop control of components of the respiratory therapy system.