Using thermal energy, kinetic energy, or both to charge a device

What is claimed is: 1. A device comprising: a charging circuit comprising: a kinetic energy generator comprising a chamber; a first spring located at one end of the chamber; a second spring located at an opposite end of the chamber; wire coiled around an exterior surface of the chamber; and a neodymium magnet inside the chamber, wherein when the chamber experiences motion, a weighted object travels inside the chamber between the first spring and the second spring to induce a current in the wire; a battery; a plurality of sensors comprising an accelerometer; and an embedded controller configured with logic instructions to perform operations comprising: determining that a level of the battery is below a first predetermined threshold; receiving motion data from the accelerometer; determining, based on the motion data, that the device is being moved; and connecting an output of the kinetic energy generator to an input of the battery to charge the battery. 2. The device of claim 1 , wherein the charging circuit further comprises: a thermoelectric generator. 3. The device of claim 2 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from a thermometer of the plurality of sensors; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device satisfies a second predetermined threshold; and connecting an output of the thermoelectric generator to the input of the battery to charge the battery. 4. The device of claim 2 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from a thermometer of the plurality of sensors; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device fails to satisfy a second predetermined threshold; and instructing the user to charge the battery. 5. The device of claim 4 , wherein instructing the user to charge the battery comprises instructing the user to perform at least one of: placing the device on a charging mat to wirelessly charge the battery; connecting a power source to the device to charge the battery; or moving the device at least a predetermined distance, at least a predetermined number of times. 6. A computing device comprising: a charging circuit comprising: a kinetic energy generator comprising a chamber; a first spring located at one end of the chamber; a second spring located at an opposite end of the chamber; wire coiled around an exterior surface of the chamber; and a neodymium magnet inside the chamber, wherein when the chamber experiences motion, a weighted object travels inside the chamber between the first spring and the second spring to induce a current in the wire; a battery; a plurality of sensors comprising an accelerometer and a thermometer; and an embedded controller configured with logic instructions to perform operations comprising: determining that a level of the battery is below a first predetermined threshold; receiving motion data from the accelerometer; determining, based on the motion data, that the device is being moved; and connecting an output of the kinetic energy generator to an input of the battery to charge the battery. 7. The computing device of claim 6 , wherein the charging circuit further comprises: a thermoelectric generator. 8. The computing device of claim 7 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from the thermometer; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device satisfies a second predetermined threshold; and connecting an output of the thermoelectric generator to the input of the battery to charge the battery. 9. The computing device of claim 7 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from the thermometer; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device fails to satisfy a second predetermined threshold; and instructing the user to charge the battery by moving the device at least a predetermined distance, at least a predetermined number of times. 10. A stylus comprising: a charging circuit comprising: a kinetic energy generator comprising a chamber; a first spring located at one end of the chamber; a second spring located at an opposite end of the chamber; wire coiled around an exterior surface of the chamber; and a neodymium magnet inside the chamber, wherein when the chamber experiences motion, a weighted object travels inside the chamber between the first spring and the second spring to induce a current in the wire; a battery; a plurality of sensors comprising an accelerometer; and an embedded controller configured with logic instructions to perform operations comprising: determining that a level of the battery is below a first predetermined threshold; receiving motion data from the accelerometer; determining, based on the motion data, that the device is being moved; and connecting an output of the kinetic energy generator to an input of the battery to charge the battery. 11. The stylus of claim 10 wherein the charging circuit further comprises: a thermoelectric generator. 12. The stylus of claim 11 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from a thermometer of the plurality of sensors; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device satisfies a second predetermined threshold; and connecting an output of the thermoelectric generator to the input of the battery to charge the battery. 13. The stylus of claim 11 , the operations further comprising: determining that the level of the battery is below the first predetermined threshold; receiving second motion data from the accelerometer; determining, based on the motion data, that the device is stationary; receiving temperature data from a thermometer of the plurality of sensors; determining, based on the temperature data, that a temperature difference between a first portion of the device and a second portion of the device fails to satisfy a second predetermined threshold; and instructing the user to charge the battery. 14. The stylus of claim 13 , wherein instructing the user to charge the battery comprises instructing the user to perform at least one of: placing the device on a charging mat to w