Systems and methods for wirelessly detecting a sold-out state for beverage dispensers

What is claimed is: 1. A detection device for detecting that a source is sold-out for a beverage dispenser, the beverage dispenser dispensing from the source via a valve controlled by a solenoid, the detection device comprising: a circuit board configured to be positioned on the valve proximal to the solenoid; a detector coupled to the circuit board, wherein the solenoid creates a magnetic field when dispensing from the valve, and wherein the detector is configured to detect the magnetic field created by the solenoid and to produce an electrical output when the magnetic field is detected; and a control system coupled to the circuit board in communication with the detector, wherein the control system is configured to access threshold data, wherein the control system is configured to compare the electrical output of the detector to the threshold data, and wherein the control system indicates that the source is sold-out based upon the comparison of the electrical output to the threshold data. 2. The detection device according to claim 1 , wherein the solenoid axially translates an armature when the magnetic field is generated, and wherein the circuit board defines an opening configured to allow the armature to be axially translated therethrough. 3. The detection device according to claim 1 , wherein the solenoid is contained within a frame and axially translates an armature out a top of the frame when the magnetic field is generated, and wherein the circuit board is configured to be positioned on the top of the frame opposite the solenoid. 4. The detection device according to claim 1 , wherein the threshold data includes both a magnitude threshold and a time threshold, wherein the magnitude threshold is a magnitude of the electrical output of the detector, and wherein the time threshold corresponds to an elapsed time between crossings of the magnitude value by the electrical output of the detector. 5. The detection device according to claim 4 , wherein the magnitude threshold includes a lower magnitude threshold and an upper magnitude threshold, wherein a first time crossing occurs when the electrical output of the detector first exceeds the lower magnitude threshold, wherein a second time crossing occurs when the electrical output of the detector first decreases below the upper magnitude threshold after the first time crossing, and wherein the elapsed time is the difference between the second time crossing and the first time crossing. 6. The detection device according to claim 5 , wherein the time threshold for the source is 12 ms, and wherein the control system indicates that the source is sold-out when the elapsed time is determined to be greater than the time threshold. 7. The detection device according to claim 1 , wherein the source is nitrogen gas. 8. The detection device according to claim 1 , wherein the solenoid has a coil that creates the magnetic field, and wherein the detector is axially aligned with the coil. 9. The detection device according to claim 1 , wherein the detector is a Hall Effect sensor. 10. The detection device according to claim 1 , wherein the detector is a coil, and wherein the coil harvests induction energy from the magnetic field to provide power for the detection device. 11. The detection device according to claim 10 , wherein the detector is electrically isolated from the valve. 12. The detection device according to claim 1 , wherein the detection device is configured to communicate wirelessly with a stable system displaced from the detection device. 13. The detection device according to claim 12 , wherein the detection device wirelessly communicates operating time information for the solenoid to the stable system. 14. A method for detecting that a source is sold-out for a beverage dispenser, the beverage dispenser dispensing from the source via a valve controlled by a solenoid, the method comprising: coupling a detector to a circuit board, wherein the solenoid creates a magnetic field when dispensing from the valve, and wherein the detector is configured to detect the magnetic field created by the solenoid and to produce an electrical output when the magnetic field is detected; providing threshold data accessible relating to the electrical output of the detector when detecting the magnetic field from the solenoid; coupling the control system to the circuit board in communication with the detector, wherein the control system is configured to access the threshold data, and wherein the control system is configured to compare the electrical output of the detector to the threshold data; and positioning the circuit board on the valve proximal to the solenoid, wherein the control system indicates whether the source is sold-out based upon the comparison of the electrical output to the threshold data. 15. The method according to claim 14 , wherein the threshold data includes both a magnitude threshold and a time threshold, wherein the magnitude threshold is a magnitude of the electrical output of the detector, and wherein the time threshold corresponds to an elapsed time between crossings of the magnitude value by the electrical output of the detector. 16. The method according to claim 15 , wherein the magnitude threshold includes a lower magnitude threshold and an upper magnitude threshold, wherein a first time crossing occurs when the electrical output of the detector first exceeds the lower magnitude threshold, wherein a second time crossing occurs when the electrical output of the detector first decreases below the upper magnitude threshold after the first time crossing, and wherein the elapsed time is the difference between the second time crossing and the first time crossing. 17. The method according to claim 15 , wherein the control system indicates that the source is sold-out when the elapsed time is determined to be greater than the time threshold. 18. The method according to claim 14 , wherein the detector is a coil, and wherein the coil harvests induction energy from the magnetic field to provide power for the detection device. 19. The method according to claim 14 , further comprising configuring the control system to communicate wirelessly with a stable system regarding operation of the solenoid. 20. A detection device for detecting that a source is sold-out for a beverage dispenser, the beverage dispenser dispensing from the source via a valve controlled by a solenoid that axially translates an armature through a top of a frame containing the solenoid, the detection device comprising: a circuit board configured to be positioned on top of the valve proximal to the solenoid, wherein the circuit board is electrically and fluidly isolated from the solenoid, and wherein an opening is defined in the circuit board such that the armature extends therethrough; a detector coupled to the circuit board, wherein the solenoid creates a magnetic field when dispensing from the valve, and wherein the detector is configured to detect the magnetic field created by the solenoid and to produce an electrical output when the magnetic field is detected; and a control system coupled to the circuit board in communication with the detector, wherein the control system is configured to access threshold data, wherein the threshold data includes both a magnitude threshold and a time threshold, wherein the magnitude threshold includes a lower magnitude threshold and an upper magnitude threshold, wherein a first time crossing occurs when the electrical output of the detector first exceeds the lower magnitude threshold, w