Icemaker with thermoformed ice tray providing heating and phase change sensing

What is claimed is: 1. An ice making apparatus comprising: an ice tray having multiple pockets of a thermoplastic material for molding water into ice cubes; a first and second electrode printed on at least one pocket for measuring a capacitance between the electrodes as influenced by a dielectric of material held within the pocket; an ejector arranged with respect to the ice tray to eject ice from the pockets after water in the pockets freezes into ice cubes; and a controller communicatively connected to the first and second electrode and the ejector to operate: (a) in a first state to allow filling of the multiple pockets of the ice tray with water; (b) in a second state after completion of the first state to monitor the first and second electrodes to detect a capacitance associated with a phase change of the water to ice; and (c) based on detection of the capacitance associated with the phase change of water to ice to activate the ejector to eject the ice cubes. 2. The apparatus of claim 1 wherein the electrodes are selected from the group consisting of: side-by-side parallel electrodes, interdigitated finger electrodes, or a first electrode partially or fully encircling a second electrode. 3. The apparatus of claim 1 wherein the electrodes are positioned adjacent to the water when the ice tray is filled with respect to a supporting structure of the ice tray. 4. The apparatus of claim 1 wherein the electrodes are printed in thick film ink. 5. The apparatus of claim 1 wherein the supporting structure of the ice tray is a thermoformed plastic sheet having a thickness less than 0.06 inches. 6. The apparatus of claim 1 wherein the ejector includes a heater positioned adjacent to at least one pocket and wherein the controller further operates to: (d) activate the heater of the ejector to eject ice cubes; (e) monitor the first and second electrodes to detect a capacitance associated with ejected ice from the pockets; and (f) in response to the detection of ejected ice, deactivate the heater. 7. The apparatus of claim 1 further including a valve arranged within a flow of water that selectively flows into the pockets; and wherein the controller communicates with the first and second electrode and the ejector to operate: (d) to open the valve to begin filling the pockets; (e) to monitor the first and second electrodes to detect a capacitance associated with a complete filling of the pockets; (f) based on detection of the capacitance associated with a complete filling of the pockets, to close the valve. 8. An ice making apparatus comprising: an ice tray having multiple pockets of a thermoplastic material for molding water into ice cubes; a first and second electrode printed on at least one pocket for measuring a capacitance between the electrodes as influenced by a dielectric of material held within the pocket and providing a corresponding a capacitive output value; a valve arranged within a flow of water that selectively flows into the pockets; an ejector arranged with respect to the ice tray to eject ice from the pockets after water in the pockets freezes into ice cubes; and a controller communicatively connected to the first and second electrode and including a capacitive sensing circuit, wherein the capacitive sensing circuit is configured to compare: the capacitive output value against a water level threshold value to determine a water fill level; and the capacitive output value against a phase threshold value to determine a phase state of the material held within the pocket; wherein the controller controls: the valve to permit of prevent the flow of water into the pockets based on the determined water fill level; and the ejector to permit or prevent the ejection of the ice cubes from the pockets based on the determined phase state. 9. The apparatus of claim 8 , wherein the first and second electrodes are: provided at a common height within the pocket; and transversely spaced with respect to each other within the pocket. 10. The apparatus of claim 9 , wherein each of the pockets is defined by interconnected walls and the apparatus further comprises: heater elements provided at multiple ones of the interconnected walls of each of the pockets. 11. The apparatus of claim 10 , wherein first and second electrodes and the heater elements are provided at different ones of the interconnected walls of each of the respective pocket.