Detecting a level of printable fluid in a container

What is claimed is: 1. A fluid level sensor for detecting a level of fluid in a container comprising: an array of sensing locations associated with a plurality of fluid levels, each sensing location comprising: a heating element to heat a surrounding area of the sensing location; a capacitor to discharge a voltage through a field effect transistor (FET); and a voltage comparator coupled to the sensing locations to compare a voltage of the capacitor to a voltage threshold over time to determine a rate of the discharge of the capacitor which is indicative of a temperature decay rate at the FET which indicates whether fluid is present at the sensing location to determine a level of the fluid along the array of sensing locations. 2. The fluid level sensor of claim 1 , further comprising control logic to control when a first one of the sensing locations is actuated. 3. The fluid level sensor of claim 2 , wherein the control logic: sends a heat pulse to a first one of the heating elements of the first one of the sensing locations when the first one of the sensing locations is selected; and determines the rate of the discharge of the capacitor from the sensing location from output of the voltage comparator. 4. The fluid level sensor of claim 2 , wherein the control logic actuates a subsequent sensing locations of the array of sensing locations. 5. The fluid level sensor of claim 1 , wherein the number of sensing locations within the array of sensing locations defines a granularity of fluid level detection. 6. The fluid level sensor of claim 1 , wherein the FET is thermally coupled to an interface between the array of sensing locations and a fluid or air within the container. 7. A print cartridge that detects a level of printable fluid therein comprising: an array of sensing locations associated with a plurality of fluid levels, each sensing location comprising: a heating element to heat a surrounding area of the sensing location; a capacitor to leak current through a field effect transistor (FET); and a voltage comparator coupled to the sensing locations to compare, for any sensing location, a voltage of the capacitor to a voltage threshold over time to, based on a rate of current leakage from the capacitor through the field-effect transistor (FET), determine a level of the fluid along the array of sensing locations. 8. The print cartridge of claim 7 , further comprising control logic to select which of the sensing locations within the array to analyze. 9. The print cartridge of claim 8 , wherein the control logic selects which of the sensing locations within the array to analyze based on a binary search scheme, based on a previously-identified level of printable fluid, based on a series analysis of the sensing locations. 10. The print cartridge of claim 7 , wherein: the FET cools at a first cooling rate relatively faster than a second cooling rate, the first cooling rate defines a first capacitor current leak off rate that is slower than a second capacitor current leak off rate, and the first capacitor current leak-off rate indicates the presence of the printable fluid at the at least one sensing location. 11. The print cartridge of claim 7 , wherein the voltage comparator: senses a rate at which the voltage within the capacitor drops below a threshold; and based on the rate at which the voltage within the capacitor drops below the threshold, determine the level of the fluid along the array of sensory locations. 12. The print cartridge of claim 7 , wherein the voltage comparator: senses a rate at which the voltage within the capacitor rises above a threshold; and based on the rate at which the voltage within the capacitor rises above the threshold, determine the level of the fluid along the array of sensory locations. 13. The print cartridge of claim 11 , further comprising control logic to: discharge the capacitor through the FET when a heat pulse signal sent to the heating element ends, send a signal to the capacitor to pre-charge the capacitor associated with a respective heating element to a predetermined voltage. 14. A method of detecting a level of printable fluid in a container comprising: with at least one sensing location on a die in thermal contact with the printable fluid in the container, sensing a voltage of a capacitor over time as the capacitor leaks through a field effect transistor (FET), the FET and capacitor being associated with the sensing location; based on the voltage of the capacitor over time and a threshold voltage, determining whether the printable fluid is present at the at least one sensing location. 15. The method of claim 14 , further comprising: sending a heat pulse signal to a heating element located juxtaposition to the sensor to heat the heating element; pre-charging the capacitor associated with a respective heating element to a predetermined voltage; and discharging the capacitor through the FET when the heat pulse signal ends, wherein: the FET cools at a first cooling rate relatively faster than a second cooling rate, the first cooling rate defines a first capacitor current leak off rate that is slower than a second capacitor current leak off rate, and the first capacitor current leak-off rate indicates the presence of the printable fluid at the at least one sensing location. 16. The fluid level sensor of claim 1 , wherein at least one of the sensing locations is disposed on a die that includes both the capacitor and FET of the at least one sensing location, the capacitor discharging by leaking current through the FET. 17. The fluid level sensor of claim 3 , wherein the heating element comprises a resistor that emits heat for a specific amount of time during application of the heat pulse sent by the control logic. 18. The fluid level sensor of claim 2 , wherein a command interface is connected to the control logic for the control logic to both actuate a sensing location and to receive output of the voltage comparator. 19. The fluid level sensor of claim 18 , wherein the voltage threshold is variable and is input to the voltage comparator from the control logic via the command interface. 20. The fluid level sensor of claim 18 , wherein the command interface is digital to support communication using digital signals.