Thermoelectric self-charging scale

1 . A thermoelectric powered digital scale comprising: a weighing platform comprising an array of thermoelectric generator cells and a surface plate attached to a top side of the array, wherein the array is adapted to produce electrical energy from a temperature gradient across opposite sides of the array; a switching network electrically connected to the array; a load cell mechanically coupled to the weighing platform; a thermal cooling element thermally coupled to a bottom side of the array and comprising a thermal block and a collection of fins adapted to dissipate heat; a digital display; a rechargeable battery; a microcontroller circuit electrically connected to the switching network and the digital display; wherein the microcontroller is adapted to determine a weight from signals received from the load cell and send signals indicating the weight to the digital display; wherein the microcontroller is adapted to control the switching network to adaptively change between multiple electrical circuit topologies of the thermoelectric generator cells; a power management circuit electrically connected to the switching network, the rechargeable battery, and the microcontroller, wherein the power management circuit comprises an energy harvesting circuit and a voltage regulation circuit; wherein the energy harvesting circuit is adapted to harvest electrical energy from the array of thermoelectric generator cells; wherein the power management circuit is adapted to provide operating power to the microcontroller and the display; wherein the power management circuit is adapted use available power from the energy harvesting circuit for the operating power and for recharging the rechargeable battery. 2 . The thermoelectric powered digital scale of claim 1 , wherein the power management circuit is adapted use power from the rechargeable battery for the operating power when the electrical energy generated by the thermoelectric cell array is insufficient to provide operating power to the microcontroller and the display. 3 . The thermoelectric powered digital scale of claim 1 , further comprising a thermal switch adapted to divert energy to the rechargeable battery when the electrical energy from the array drops below a predetermined threshold power. 4 . The thermoelectric powered digital scale of claim 1 , wherein the power management circuit is adapted to maximize power delivered to the rechargeable battery depending on power consumption and a charge state of the rechargeable battery. 5 . The thermoelectric powered digital scale of claim 1 , wherein the power management circuit is adapted to perform maximum power point tracking (MPPT). 6 . The thermoelectric powered digital scale of claim 1 , further comprising an external power port electrically connected to the power management circuit, wherein the power management circuit is adapted to receive external electrical power to charge the rechargeable battery and/or to operate the thermoelectric cells in reverse to function as a hot plate or a cold plate. 7 . The thermoelectric powered digital scale of claim 1 , wherein the microcontroller is adapted to control the switching network to adaptively select individual cells in the array based on which cells are generating power. 8 . The thermoelectric powered digital scale of claim 1 , wherein the microcontroller is adapted to control the switching network to adaptively select between a series topology, a parallel topology, and a mixture of series and parallel circuit topologies of the thermoelectric generator cells. 9 . The thermoelectric powered digital scale of claim 1 , further comprising temperature sensors thermally coupled to the top side of the array and to the bottom side of the array, wherein the microcontroller circuit is electrically connected to the temperature sensors and is adapted to determine a temperature differential. 10 . The thermoelectric powered digital scale of claim 1 , wherein the array of thermoelectric generator cells comprises vertically stacked thermoelectric generator cells having various different sizes. 11 . The thermoelectric powered digital scale of claim 1 , wherein the thermoelectric generator cells comprise a material with a thermoelectric figure of merit, zT, that exceeds 0.2. 12 . The thermoelectric powered digital scale of claim 1 , wherein the thermoelectric generator cells have a thickness of at least 2 mm. 13 . The thermoelectric powered digital scale of claim 1 , wherein the surface plate comprises a material with a thermal conductivity exceeding 100 W/m·K. 14 . The thermoelectric powered digital scale of claim 1 , wherein the surface plate comprises a material film with a thickness less than 1 mm. 15 . The thermoelectric powered digital scale of claim 1 , wherein the microcontroller is adapted to compute a dynamic estimate of a change in weight per unit time. 16 . The thermoelectric powered digital scale of claim 1 , wherein the microcontroller is adapted to automatically tar the scale when the electrical energy from the array changes from zero to a positive value.