Power conversion device

The invention claimed is: 1. A power conversion device comprising: a chopper that converts a first DC voltage supplied from a DC power supply into a second DC voltage and supplies the second DC voltage to a DC load; a capacitor that stabilizes the second DC voltage; a current detector that detects an output current of the DC power supply; and a control circuit that, based on a detection result by the current detector, estimates a temperature increase value of the capacitor every time a predetermined time period elapses, and stops an operation of the chopper when the estimated temperature increase value is higher than an upper limit value, wherein the control circuit includes: a storage that stores information indicating a relationship among the output current of the DC power supply, a time constant of a temperature increase of the capacitor, and a temperature increase saturation value of the capacitor; a computation unit that, based on the detection result by the current detector and contents stored in the storage, calculates an estimated temperature increase value of the capacitor every time the predetermined time period elapses; and a controller that controls the chopper such that an inter-terminal voltage of the capacitor becomes equal to a reference voltage when the estimated temperature increase value is lower than the upper limit value, and stops the operation of the chopper when the estimated temperature increase value is higher than the upper limit value. 2. The power conversion device according to claim 1 , wherein the DC power supply is a power storage device that stores DC power, and the control circuit also stops the operation of the chopper when an inter-terminal voltage of the power storage device decreases to a discharge end voltage. 3. The power conversion device according to claim 2 , wherein the chopper and the capacitor constitute a bidirectional chopper, the power conversion device further comprises: a converter that converts AC power supplied from an AC power supply into DC power; and an inverter that converts DC power supplied from the converter or the bidirectional chopper into AC power and supplies the AC power to an AC load, the inverter and the AC load constitute the DC load, and the bidirectional chopper stores a part of the DC power generated by the converter in the power storage device when the AC power supply is normal, and supplies the DC power of the power storage device to the converter when a power failure of the AC power supply occurs. 4. The power conversion device according to claim 3 , wherein the capacitor includes first and second sub-capacitors connected in series, the bidirectional chopper includes: first and second switching elements connected in series between a positive electrode and a negative electrode of the first sub-capacitor; third and fourth switching elements connected in series between a positive electrode and a negative electrode of the second sub-capacitor; first to fourth diodes connected in antiparallel to the first to fourth switching elements, respectively; a first reactor connected between a positive electrode of the power storage device and a first node between the first and second switching elements; and a second reactor connected between a second node between the first and second switching elements and a negative electrode of the power storage device, the control circuit turns on and off the first and fourth switching elements when the AC power supply is normal, turns on and off the second and third switching elements when a power failure of the AC power supply occurs, and turns off the first to fourth switching elements when an operation of the bidirectional chopper is stopped. 5. The power conversion device according to claim 3 , wherein the bidirectional chopper includes: first and second switching elements connected in series between a positive electrode and a negative electrode of the capacitor; first and second diodes connected in antiparallel to the first and second switching elements, respectively; and a reactor connected between a positive electrode of the power storage device and a node between the first and second switching elements, the control circuit turns on and off the first switching element when the AC power supply is normal, turns on and off the second switching element when a power failure of the AC power supply occurs, and turns off the first and second switching elements when an operation of the bidirectional chopper is stopped.