Power conversion device and air-conditioning apparatus

The invention claimed is: 1. A power conversion device, comprising: a step-up converter unit, including: a reactor to which a DC voltage is to be input; a switching element connected to the reactor in parallel; and a backflow prevention element connected to the reactor in series; a smoothing capacitor configured to smooth an output voltage from the step-up converter unit; an inverter unit configured to convert the output voltage smoothed in the smoothing capacitor into an AC voltage; a dew condensation state detection unit configured to detect a state of dew condensation, which occurs due to a cooler configured to cool the step-up converter unit and the inverter unit; and a control unit configured to control an operation of the step-up converter unit, the control unit including: a determination unit configured to determine the state of dew condensation detected by the dew condensation state detection unit; and a step-up control unit configured to control a step-up operation of the step-up converter unit based on a result of determination made by the determination unit. 2. The power conversion device of claim 1 , wherein the reactor is provided below the cooler. 3. The power conversion device of claim 1 , wherein the step-up control unit is configured to increase an on-duty ratio of the switching element. 4. The power conversion device of claim 1 , wherein the step-up control unit is configured to increase a carrier frequency of the step-up converter unit. 5. The power conversion device of claim 1 , wherein, when the step-up operation of the step-up converter unit is in a stopped state, the step-up control unit starts the step-up operation of the step-up converter unit. 6. The power conversion device of claim 1 , wherein the dew condensation state detection unit includes a dew condensation sensor configured to detect a dew condensation amount, wherein the determination unit is configured to determine whether the dew condensation amount detected by the dew condensation sensor is equal to or larger than a dew condensation amount threshold value, and wherein, when it is determined by the determination unit that the dew condensation amount is equal to or larger than the dew condensation amount threshold value, the step-up control unit controls the step-up operation of the step-up converter unit. 7. The power conversion device of claim 1 , wherein the dew condensation state detection unit includes an outside-air temperature sensor configured to detect a temperature of outside air and a module temperature sensor configured to detect a temperature of the step-up converter unit and a temperature of the inverter unit, wherein the determination unit is configured to determine whether a difference obtained by subtracting the temperature detected by the module temperature sensor from the temperature detected by the outside-air temperature is equal to or smaller than a difference threshold value, and wherein, when it is determined by the determination unit that the difference is equal to or smaller than the difference threshold value, the step-up control unit controls the step-up operation of the step-up converter unit. 8. The power conversion device of claim 7 , further comprising a power module, which is at least one of the step-up converter unit and the inverter unit that is modularized, wherein the module temperature sensor is provided to the power module. 9. An air-conditioning apparatus, comprising: a refrigerant circuit, which includes a compressor, a condenser, an expansion unit, the cooler, and an evaporator connected to one another by pipes, and is configured to allow refrigerant to flow therethrough; and the power conversion device of claim 1 .