Patent ID: 8579396

Claim:
A method of sensing the level of at least one fluid in a device comprising: applying a voltage to a first probe in a first reservoir to generate a first calibration current; receiving the first calibration current with a first surface of a second probe in the first reservoir; applying the voltage to a third probe in the first reservoir to generate a second calibration current; receiving the second calibration current with a second surface of the second probe in the first reservoir; obtaining a first plurality of data indicative of the first calibration current received at the first surface of the second probe; associating each datum in the first plurality of data with a different portion of a surface area of the first surface of the second probe that contacts a first fluid in the first reservoir, each different portion of the surface area corresponding to a fluid level in the first reservoir; storing the first plurality of data and the associated portions of the surface area of the first surface of the second probe in a memory; obtaining a plurality of data indicative of the second calibration current received at the second surface of the second probe in the first reservoir; associating each datum of the plurality of data indicative of the second calibration current with a different portion of a surface area of the second surface of the second probe that contacts the first fluid in the first reservoir; storing the plurality of data indicative of the second calibration current with the associated portions of the surface area of the second surface of the second probe in the memory with the first plurality of data; applying the voltage to the first probe in the first reservoir to generate a first operational current; receiving the first operational current with the first surface of the second probe in the first reservoir; obtaining a first signal indicative of the first operational current received at the first surface of the second probe in the first reservoir; associating the first signal with a fluid level associated with a corresponding datum in the first plurality of data stored in the memory; applying the voltage to the third probe to generate a second operational current; receiving the second operational current with the second surface of the second probe; obtaining a signal indicative of the second operational current received at the second surface of the second probe in the first reservoir; and associating the signal indicative of the second operational current with a fluid level associated with a corresponding datum in the plurality of data indicative of the second calibration current stored in the memory.