Sensor, controller and system

The invention claimed is: 1. A sensor for measuring temperature of a fluid at different regions within a vessel, the sensor comprising: an array of elements coupled together between an input and an output, each element having a temperature-dependent parameter; wherein the array of elements is extendable along the vessel for measuring a temperature profile of the fluid within the vessel, with the input coupled to a driving source for driving the sensors and the output coupled to a detector for measuring an aggregate of the temperature-dependent parameter from the array of elements, the aggregate being indicative of a quantity of useful fluid in the vessel, useful fluid being fluid having a temperature above a threshold temperature; and wherein at least one of the elements in the array comprises a fixed value resistor connected in parallel with a Positive Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest or a Negative Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest. 2. The sensor according to claim 1 , wherein the array comprises a substrate that can be cut to length to determine the number of elements within the array. 3. The sensor according to claim 2 , wherein the substrate comprises adhesive tape. 4. The sensor according to claim 1 , wherein the elements of the array are non-uniformly distributed along the length of the array. 5. The sensor according to claim 1 arranged to provide output relating to a thermal property of the fluid within a vessel, and a processor arranged to identify removal of the fluid from the vessel in dependence on a rate of change of the output from the sensor and a predetermined threshold value of the output, whereby to identify removal of fluid from a vessel. 6. The sensor according to claim 1 , for determining a thermal property of a fluid within a vessel, wherein the sensor is arranged to be fitted onto an exterior wall of the vessel; and a processor for receiving the output from the sensor and adjusting the output according to thermal properties of the wall of the vessel, whereby to measure temperature of a fluid within a vessel. 7. The sensor according to claim 1 , for determining a useful volume of a fluid within a vessel, wherein the sensor is arranged to be fitted onto an exterior wall of the vessel; and a processor for receiving an output from the sensor and adjusting the output from the sensor in dependence upon changes induced in the fluid by a thermal source, whereby to measure temperature of a fluid within a vessel. 8. A vessel for holding a fluid, the vessel comprising a sensor according to claim 1 . 9. The sensor according to claim 1 , wherein at least two adjacent elements of the array comprise a Positive Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest and a Negative Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest. 10. The sensor according to claim 1 , wherein at least one of the elements of the array comprises a Positive Temperature Coefficient thermistor connected in parallel with a Negative Temperature Coefficient thermistor and in series thereto a fixed value thermistor, and wherein at least one of the Positive Temperature Coefficient thermistor and Negative Temperature Coefficient thermistor is a non-linear thermistor. 11. The sensor according to claim 1 , wherein at least one of the elements of the array is configured such that the temperature-dependence of the temperature-dependent parameter is at or near a maximum or minimum at or near a temperature that is a threshold temperature between a useful temperature of the fluid and a non-useful temperature of the fluid. 12. The sensor according to claim 1 , wherein the parameter is resistance, impedance, inductance and/or capacitance. 13. The sensor according to claim 1 , wherein the elements of the array are coupled together in series or in parallel. 14. The sensor according to claim 1 , wherein the Positive Temperature Coefficient thermistor and/or Negative Temperature Coefficient thermistor is a non-linear thermistor. 15. A sensing arrangement comprising: a sensor comprising an array of elements coupled together between an input and an output, each element having a temperature-dependent parameter, wherein the array of elements is extendable along the vessel for measuring the temperature profile of the fluid within the vessel, with the input coupled to a driving source for driving the sensors and the output coupled to a detector for measuring an aggregate of the temperature-dependent parameter from the array of elements, the aggregate being indicative of a quantity of useful fluid in the vessel, useful fluid being fluid having a temperature above a threshold temperature, wherein at least one of the elements in the array comprises a fixed value resistor connected in parallel with a Positive Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest or a Negative Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of interest; and at least one thermometer, the sensor and said at least one thermometer having a shared output. 16. The sensing arrangement according to claim 15 , wherein the sensor and said at least one thermometer are coupled together to provide only two output connectors for the shared output, and/or wherein the sensor and said at least one thermometer are arranged in parallel, and/or further comprising means for measuring an output from the thermometer separately to the output from the sensor, and/or wherein the thermometer is arranged to monitor temperature adjacent the vessel outlet or inlet to detect when fluid is at an unsanitary temperature. 17. The sensing arrangement according to claim 15 in combination with a controller arranged to process the shared output from the sensing arrangement, wherein the sensing arrangement and/or controller is arranged to determine signals from the sensor and at least one thermometer separately and to compute the useful quantity of thermal energy within a vessel containing a fluid. 18. The sensing arrangement according to claim 17 , wherein the combination is arranged to determine signals from the sensor and thermometer separately by impedance isolation of the thermometer. 19. A fluid temperature controller comprising: a first input for receiving a first signal indicating a measurement of an aggregate of a temperature-dependent parameter from a sensor deployed within or adjacent a vessel containing a fluid having a temperature profile, the sensor comprising an array of elements coupled together between an input and an output, each element having a temperature-dependent parameter, wherein the array of elements is extendable along the vessel for measuring the temperature profile of the fluid within the vessel, with the input coupled to a driving source for driving the sensors and the output coupled to a detector for measuring an aggregate of the temperature-dependent parameter from the array of elements, the aggregate being indicative of a quantity of useful fluid in the vessel, useful fluid being fluid having a temperature above a threshold temperature, wherein at least one of the elements in the array comprises a fixed value resistor connected in parallel with a Positive Temperature Coefficient thermistor with a Curie transition temperature at or near a temperature of