Boost circuit for electrochromic devices

What is claimed is: 1. An electrochromic system, comprising: an electrochromic device; and a driver, the driver comprising: an external power supply configured to supply a limited amount of power to the electrochromic device; and a boost circuit power supply that is coupled to the electrochromic device and configured to supply power to the electrochromic device that is larger than the limited amount of power supplied by the external power supply, wherein a maximum power output of the external power supply is smaller than a maximum power output of the boost circuit power supply; and a power supply control module configured to perform actions comprising: supplying a constant current from the external power supply, the boost circuit power supply, or both power supplies to the electrochromic device; stopping the supplying the constant current when one of a sense voltage of the electrochromic device attains a sense voltage limit or an amount of charge transferred to the electrochromic device attains a target amount of charge; and controlling one of a variable voltage or a variable current from the external power supply, the boost circuit power supply, or both power supplies to the electrochromic device to maintain the sense voltage at the sense voltage limit while the amount of charge transferred to the electrochromic device is less than the target amount of charge. 2. The electrochromic system of claim 1 , with the driver and the boost circuit power supply located within less than 1 m from the electrochromic device. 3. The electrochromic system of claim 1 , further comprising a lithium iron phosphate battery. 4. The electrochromic system of claim 1 , with the boost circuit power supply comprising a capacity from 1000 to 1500 mAh. 5. The electrochromic system of claim 1 , with the external power supply configured to supply less than 25% of a maximum power used by the electrochromic device during switching. 6. The electrochromic system of claim 1 , with the external power supply further comprising connecting wires greater than AWG gauge 15. 7. The electrochromic system of claim 1 , with the external power supply configured to provide power wirelessly to the electrochromic device. 8. The electrochromic system of claim 1 , wherein the boost circuit power supply comprises a battery, and the external power supply is to charge the battery. 9. The electrochromic system of claim 1 , further comprising one or more sense voltage terminals configured to measure a sense voltage of the electrochromic device. 10. The electrochromic system of claim 9 , wherein the electrochromic device comprises an electrochromic window. 11. The electrochromic system of claim 1 , further comprising an ammeter and an integrator configured to measure an amount of charge transferred to the electrochromic device. 12. The electrochromic system of claim 1 , further comprising electrically conductive layers with electrical properties that vary as a function of position. 13. The electrochromic system of claim 1 , further comprising an ion conductor with thickness greater than 100 microns. 14. A method for controlling an electrochromic device, comprising: applying an amount of power to the electrochromic device from an external power supply, that is less than or equal to a limited amount of power; determining an amount of power required by the electrochromic device; supplying power to the electrochromic device from a boost circuit power supply that is coupled to the electrochromic device, responsive to the amount of power required by the electrochromic device being larger than the limited amount of power, wherein a maximum power output of the external power supply is smaller than a maximum power output of the boost circuit power supply and the external power supply providing power to recharge a battery for the boost circuit power supply, during time periods when the amount of power required by the electrochromic device is less than the limited amount of power, wherein the external power provided is equal to or less than the limited amount of power. 15. The method of claim 14 , further comprising: applying a constant supply current to the electrochromic device from the external power supply, boost circuit power supply, or both power supplies; determining an amount of charge transferred to the electrochromic device, as a function of time and current supplied to the electrochromic device; ceasing the applying the constant supply current from the external power supply, boost circuit power supply, or both power supplies, responsive to a sense voltage reaching a sense voltage limit; applying one of a variable voltage or a variable current to the electrochromic device from the external power supply, boost circuit power supply, or both power supplies to maintain the sense voltage at the sense voltage limit, responsive to the sense voltage reaching the sense voltage limit; and terminating the applying the variable voltage or the variable current to the electrochromic device from the external power supply, boost circuit power supply, or both power supplies, responsive to the determined amount of charge reaching a target amount of charge. 16. The method of claim 14 , further comprising: the external power supply providing a decreased amount of power to recharge the battery for the boost circuit power supply, during time periods when the power required by the electrochromic device is less than the limited amount of power, and when the battery is more than 90% charged, wherein the decreased amount of power provided is less than the limited amount of power.