System and method for dispensing consumable liquids

What is claimed is: 1. A liquid dispenser station comprising: a filler including a filler outlet for delivering a liquid; a sensor assembly configured to provide a sensor assembly electronic signal indicative of object presence proximate the filler outlet; and a controller configured with a processor and a computer readable medium including computer executable instructions for carrying out a set of liquid dispenser station management operations, wherein the controller is configured with computer executable instructions for performing filler control operations for managing flow of liquid via the filler when in object is detected by the controller based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, and wherein the computer executable instructions for performing the filler control operations comprises executable filler control logic that, while operating in an off state characterized by no flow of liquid via the filler outlet, continuously generates a zero level signal value corresponding to a clear field of view for the sensor assembly, the zero level signal value being calculated from multiple samples of the sensor assembly electronic signal indicative of object presence proximate the filler outlet. 2. The liquid dispenser station of claim 1 further comprising a liquid conditioning system. 3. The liquid dispenser station of claim 2 wherein the liquid conditioning system includes a filtering subsystem including an electronic filter identification tag reader, and wherein the controller is configured with computer executable instructions for performing filter manager operations for: reading an identification information associated with a filter identification tag of an installed filter, and executing filter management tasks based upon the identification information and tracked usage of the installed filter. 4. The liquid dispenser station of claim 2 wherein the liquid conditioning system includes a liquid cooling subsystem including a cooled liquid reservoir and a liquid temperature sensor configured to provide a liquid temperature sensor signal indicative of a liquid temperature within the cooled liquid reservoir, and wherein the controller is configured with computer executable instructions for performing liquid cooling control operations comprising: receiving a temperature reading value corresponding to the liquid temperature sensor signal, applying a transfer function to the received temperature reading to render a predicted liquid temperature, and applying the predicted liquid temperature to a control definition for activation of a cooling component to render a cooling control instruction, and issuing a cooling control signal to the cooling component in accordance with the cooling control instruction. 5. The liquid dispenser station of claim 4 wherein the transfer function is based upon a thermal circuit topology including: a liquid thermal mass, a cooling coil, and a metallic thermal mass interposed between the liquid thermal mass and a temperature sensor thermal mass of the liquid temperature sensor. 6. The liquid dispenser station of claim 1 wherein the controller is configured with computer executable instructions for performing filler control operations for managing flow of liquid via the filler when an object is detected by the controller based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, wherein the computer executable instructions for performing filler control operations comprises executable filler control logic including at least an off state characterized by no flow of liquid via the filler outlet and an on state characterized by flow of liquid via the filler outlet, and wherein the executable filler control logic does not transition from the off state to the on state until the controller has received a sequence of sensor signal values from the sensor assembly having signal levels indicating that an object has been sufficiently still within a target range of the sensor assembly for a specified stillness period. 7. A liquid dispenser station comprising: a filler including a filler outlet for delivering a liquid; a sensor assembly configured to provide a sensor assembly electronic signal indicative of object presence proximate the filler outlet; a controller configured with a processor and a computer readable medium including computer executable instructions for carrying out a set of liquid dispenser station management operations; wherein the controller is configured with computer executable instructions for performing filler control operations for managing flow of liquid via the filler when an object is detected by the controller based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, wherein the computer executable instructions for performing filler control operations comprises executable filler control logic including at least an off state characterized by no flow of liquid via the filler outlet and an on state characterized by flow of liquid via the filler outlet, wherein the executable filler control logic, while in the on state, monitors the object for excessive movement, and wherein an excessive movement of the object is determined by taking a difference between two consecutive sensor signals provided by the sensor assembly, and wherein a threshold value for excessive movement is determined by calculating a fraction of a prior signal reading value of a signal sensor signal. 8. The liquid dispenser station of claim 1 wherein the controller is configured with computer executable instructions for performing filler control operations for managing flow of liquid via the filler when an object is detected by the controller based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, wherein the computer executable instructions for performing filler control operations comprises executable filler control logic including at least an off state characterized by no flow of liquid via the filler outlet, an on state characterized by flow of liquid via the filler outlet, and a waiting to clear state characterized by discontinued fluid flow and a continued sensing of the object by the sensor assembly, wherein the executable filler control logic, while in the waiting to clear state, monitors the object until a transitioning event is detected by the filler control logic based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, wherein the transitioning event is selected from the group consisting of: removal of the object from the sensor assembly targeting area, excessive movement of the object as determined by a comparison of a current sensor assembly measurement and a previous sensor assembly measurement, and expiration of a period of time while waiting for the object to be removed from a sensor assembly targeting area. 9. The liquid dispenser station of claim 1 wherein the zero level signal value is calculated as an average of consecutive ones of the multiple samples. 10. The liquid dispenser station of claim 1 wherein the controller is configured with computer executable instructions for performing filler control operations for managing flow of liquid via the filler when an object is detected by the controller based upon the sensor assembly electronic signal indicative of an object proximate the filler outlet, wherein the computer executable instructions for performing filler control operations comprises executable filler control logic including at least an off state characterized by no flow of liquid via the filler outlet, an on state characterized by flow