Inhaler system

What is claimed is: 1 . An inhaler comprising: a housing that comprises a mouthpiece, a medication canister, and an airflow channel formed between an air inlet and the mouthpiece; a pressure sensor configured to measure a pressure indicative of the pressure in the airflow channel, wherein the pressure sensor is configured to be in a first position relative to the airflow channel when the medication canister is not actuated, and in a second position relative to the airflow channel when the medication canister is in an actuated position; and a processor that is configured to: receive pressure measurements from the pressure sensor; and determine that the medication canister was actuated based on the pressure measurements. 2 . The inhaler of claim 1 , wherein the processor is configured to determine the position of the pressure sensor or the medication canister based on the pressure measurements received from the pressure sensor while a user is inhaling through the mouthpiece of the inhaler. 3 . The inhaler of claim 1 , wherein the processor is configured to generate an error event based on a slope of the received pressure measurements not exceeding a slope threshold that is indicative of the canister actuation during an inhalation; and send, via a transmitter, the error event to an external device for display via a user interface of the external device. 4 . The inhaler of claim 1 , wherein the processor is configured to generate a late inhalation error event based on the determination that the actuation of the medication canister did not occur during an inhalation; and send, via a transmitter, the late inhalation error event to an external device for display via a user interface of the external device. 5 . The inhaler of claim 1 , wherein the processor is configured to generate a good inhalation event based on a slope of the received pressure measurements exceeding a slope threshold that is indicative of the canister actuation during an inhalation; and send, via a transmitter, the good inhalation event to an external device for display via a user interface of the external device. 6 . The inhaler of claim 1 , wherein the sensor is connected to the medication canister. 7 . The inhaler of claim 1 , wherein the pressure sensor comprises a differential pressure sensor or a barometric pressure sensor. 8 . (canceled) 9 . The inhaler of claim 1 , wherein the processor is configured to determine an inhalation event based on the pressure measurements received from the pressure sensor exceeding an inhalation threshold, and determine a canister actuation event based on the pressure measurements exceeding a canister actuation threshold. 10 . The inhaler of claim 9 , wherein the canister actuation threshold is a slope threshold. 11 . The inhaler of claim 9 , wherein the processor is configured to determine that the canister moved back to the first position upon the release of the canister based on a slope in the pressure measurements exceeding a canister released threshold. 12 . (canceled) 13 . (canceled) 14 . The inhaler of claim 9 , wherein the processor is configured to determine a duration of an inhalation event based on the pressure measurements received from the pressure sensor. 15 . The inhaler of claim 14 , wherein the duration of the inhalation event starts at the time of the canister actuation event and ends when the parameters return to a predetermined value. 16 . The inhaler of claim 1 , wherein the processor is configured to determine a peak inspiratory flow (PIF) based on the received pressure measurements, and generate an late actuation error event based on the PIF exceeding a threshold prior to the determination that the canister is actuated. 17 . The inhaler of claim 1 , wherein the processor is configured to generate an late actuation error event based on a slope of the pressure measurements exceeding a threshold for a period of time that exceeds a duration threshold prior to the determination that the canister is actuated. 18 . (canceled) 19 . The inhaler of claim 1 , wherein the pressure sensor comprises a pressure port, and wherein the pressure sensor is configured such that it does not extend into the inhaler housing when the pressure sensor is in the first position or the second position. 20 . (canceled) 21 . (canceled) 22 . The inhaler of claim 1 , further comprising a capillary tube connected to a sensor port of the pressure sensor, wherein the capillary tube is configured to extend from the pressure sensor into the housing. 23 . (canceled) 24 . The inhaler of claim 1 , wherein the processor is configured with a first flow rate calibration curve for when the pressure sensor is in the first position, and a second flow rate calibration curve for when the pressure sensor is in the second position. 25 . (canceled) 26 . (canceled) 27 . The inhaler of claim 1 , wherein the processor is configured to determine a shake event of the inhaler based on the pressure measurements received from the pressure sensor. 28 . The inhaler of claim 1 , wherein the processor is configured to determine a start time of the user's inhalation based on the pressure measurements, determine an end time of the user's inhalation based on a determination that an exhalation occurred using the pressure measurements, and determine a duration of the user's inhalation based on the start time and the end time; wherein the processor is configured to send data indicating the duration of the user's inhalation to an external device for display to the user. 29 . The inhaler of claim 1 , wherein the processor is configured to determine that the medication canister was manually actuated based on the pressure measurements. 30 .- 129 . (canceled)