Sensor systems, devices, and methods for continuous glucose monitoring

What is claimed is: 1. A method of operating a glucose sensor, the glucose sensor including physical sensor electronics, a microcontroller, and a working electrode, and being in operational contact with a display device configured to display glucose sensor data to a user, the method comprising: sensing, by the physical sensor electronics, a glucose level of a user of the glucose sensor; generating, by the microcontroller, glucose sensor data to be displayed on the display device based on the glucose level sensed by the physical sensor electronics; performing, by the microcontroller, an electrochemical impedance spectroscopy (EIS) procedure to continuously generate real impedance values for the working electrode; filtering, by the microcontroller, the real impedance values; analyzing the real impedance values by the microcontroller to determine a stability of the real impedance values; based on the determined stability, comparing, by the microcontroller, the real impedance values to a first threshold impedance value; based on the comparison, determining, by the microcontroller, whether the glucose sensor data to be displayed on the display device is valid; displaying, by the microcontroller, the glucose sensor data on the display device in response to a determination that the glucose sensor data is valid; blanking, by the microcontroller, the glucose sensor data from the display device in response to a determination that the glucose sensor data is invalid; comparing the real impedance values to a second threshold impedance value; and terminating, by the microcontroller, the glucose sensor in response to the real impedance values continuously exceeding the second threshold impedance value for a predetermined period of time. 2. The method of claim 1 , wherein the first threshold impedance value is 10,000Ω. 3. The method of claim 2 , wherein the glucose sensor data is determined to be valid if the real impedance values are less than the first threshold impedance value. 4. The method of claim 1 , wherein the pre-determined period of time is the past 3 hours. 5. The method of claim 1 , wherein the second threshold impedance value is between about 10,000Ω and about 12,000Ω. 6. A method of operating a glucose sensor, comprising: sensing, using a glucose sensor, a glucose level of a user of the glucose sensor; generating, by a microcontroller of the glucose sensor, glucose sensor data to be displayed on a display device based on the sensed glucose level; performing, by the microcontroller, an electrochemical impedance spectroscopy (EIS) procedure to a continuously generate real impedance values associated with the glucose sensor; filtering, by the microcontroller, the real impedance values; determining, by the microcontroller, a stability of the real impedance values based on the filtering of the real impedance values; based on the determined stability, comparing, by the microcontroller, the real impedance values to a first impedance threshold; determining, by the microcontroller, a validity of the glucose sensor data associated with the real impedance values based on the comparison; displaying, on a display device in communication with the microcontroller, the glucose sensor data in response to the validity of the glucose sensor data determined by the microcontroller; comparing the real impedance values to a second threshold impedance value; and terminating, by the microcontroller, the glucose sensor in response to the real impedance values continuously exceeding a second threshold impedance for a predetermined period of time.