Resonant-circuit weighing system for a conveyor belt

What is claimed is: 1. A weighing system comprising: a conveyor belt including: a belt body having a top side and an opposite bottom side; a plurality of passive resonant circuits disposed at individual positions within the belt body, each of the passive resonant circuits having a resonant frequency and including: a force-sensitive element changing the resonant frequency of the passive resonant circuit as a function of the force applied from conveyed articles on the top surface to the force-sensitive element; a plurality of measuring circuits external to and disposed near the bottom side of the conveyor belt, each of the measuring circuits including: an oscillator oscillating at a nominal frequency and coupled to one of the passive resonant circuits as the conveyor belt passes; wherein the passive resonant circuits are energized by the measuring circuits only when the measuring circuits are coupled to the passive resonant circuits as they pass closely by; wherein the changes in the resonant frequency of the passive resonant circuit change the frequency of the oscillator from its nominal frequency as a function of the force applied by conveyed articles on the top side of the conveyor belt to the force-sensitive element. 2. A weighing system as in claim 1 wherein the passive resonant circuits are arranged in columns extending along the length of the conveyor belt and wherein the measuring circuits are arranged in rows and columns under the conveyor belt. 3. A weighing system as in claim 1 wherein the plurality of passive resonant circuits have first and second inductive coils and wherein the second inductive coils are near the bottom side of the belt and the first inductive coils are near the bottom side of the belt to improve the inductive coupling. 4. A weighing system as in claim 1 wherein each of the passive resonant circuits includes: a capacitor; and an inductive coil electrically connected to the capacitor; wherein one of the inductive coil and the capacitor is the force-sensitive element. 5. A weighing system as in claim 1 wherein each of the plurality of measuring circuits includes a frequency detector determining the frequency of the oscillator and converting the determined frequency into a weight measurement. 6. A weighing system as in claim 5 wherein the frequency detector is a frequency counter. 7. A weighing system as in claim 5 wherein the frequency detector is a spectrum analyzer. 8. A weighing system as in claim 1 wherein the conveyor belt further includes a salient protrusion on the top side of the conveyor belt at each of the individual positions, wherein the weight of conveyed articles supported atop the salient protrusions is transmitted through the salient protrusions and the conveyor belt to the force-sensitive element. 9. A weighing system as in claim 8 wherein the force-sensing element is a capacitor having a capacitance that changes as a function of the force applied to change the resonant frequency of the passive resonant circuit. 10. A weighing system as in claim 9 wherein the capacitor has a fixed plate and a movable plate that moves relative to the first plate as a function of the force applied to change the capacitance of the capacitor. 11. A weighing system as in claim 8 wherein the force-sensing element is an inductor having an inductance that changes as a function of the force applied to change the resonant frequency of the passive resonant circuit. 12. A weighing system as in claim 11 wherein a force applied to the inductor changes at least one of the length, the shape, or the cross-sectional area of the inductor to change the inductance of the inductor. 13. A force-sensing system comprising: a conveyor belt including: a belt body having a top side and an opposite bottom side; a plurality of passive resonant circuits disposed at individual positions within the belt body, each of the passive resonant circuits having a resonant frequency and including: a force-sensitive element changing the resonant frequency of the passive resonant circuit as a function of a force applied to the force-sensitive element; a plurality of measuring circuits disposed external to and near the bottom side of the conveyor belt, each of the measuring circuits including: an oscillator oscillating at a nominal frequency and coupled to one of the passive resonant circuits as the conveyor belt passes; wherein the passive resonant circuits are energized by the measuring circuits only when the measuring circuits are coupled to the passive resonant circuits as they pass closely by; wherein the changes in the resonant frequency of the passive resonant circuit change the frequency of the oscillator from its nominal frequency as a function of the force applied to the force-sensitive element.