Air conditioning apparatus

The invention claimed is: 1. An air conditioning apparatus comprising a controller and a refrigerating cycle including an electric compressor that compresses gas refrigerant, a condenser that condenses high-pressure gas refrigerant by exchanging heat with outside air, an expansion valve that converts high-temperature, high-pressure liquid refrigerant into low-temperature, low-pressure liquid refrigerant, and an evaporator that vaporizes the low-temperature, low-pressure liquid refrigerant by exchanging heat with outside air, wherein the electric compressor is an inverter-integrated electric compressor that integrally includes a compressor, an electric motor that drives the compressor, and an inverter including a temperature sensor that detects temperature in the vicinity of a semiconductor switching device as an inverter temperature, the controller comprises: a storage device configured to store a first information indicating a plurality of first high-low pressure characteristics, each of the plurality of the first high-low pressure characteristics indicating a relation between pressure at a low-pressure side and pressure at a high-pressure side of the compressor according to a motive force of the compressor, a second information indicating a plurality of second high-low pressure characteristics, each of the plurality of the second high-low pressure characteristics indicating a relation between pressure at a low-pressure side and pressure at a high-pressure side of the compressor according to the inverter temperature, a third information indicating a plurality of third high-low pressure characteristics, each of the plurality of the third high-low pressure characteristics indicating a relation between pressure at a low-pressure side and pressure at a high-pressure side of the compressor according to a motor coil temperature of the electric motor; and a processor configured to obtain, from the first information, one of the plurality of the first high-low pressure characteristics of the compressor that corresponds to a current motive force, obtain, from the second information, one of the plurality of the second high-low pressure characteristics of the compressor that corresponds to the inverter temperature detected by the temperature sensor, and specify the combination of the high pressure and low pressure of the compressor from the obtained one of the first high-low pressure characteristics of the compressor and the obtained one of the second high-low pressure characteristics of the compressor, specify the motor coil temperature of the electric motor that corresponds to the combination of the high pressure and low pressure of the compressor using the third information, and estimate the motor coil temperature of the electric motor. 2. An air conditioning apparatus according to claim 1 , wherein the temperature sensor is arranged at a position corresponding to a region from a midstream region to a downstream region of a refrigerant flow flowing through the electric compressor. 3. An air conditioning apparatus according to claim 1 , wherein the controller determines an occurrence of refrigerant leakage on a basis of the rotational speed of the compressor and the motive force of the compressor. 4. An air conditioning apparatus according to claim 1 , wherein the controller determines an occurrence of frosting on a basis of the inverter temperature. 5. An air conditioning apparatus according to claim 1 , wherein a plurality of pieces of the first information, a plurality of pieces of the second information, and a plurality of pieces of the third information are stored in the storage device, the plurality of pieces of the first information are associated with different compressor rotational speeds, the plurality of pieces of the second information are associated with different compressor rotational speeds, the plurality of pieces of the third information are associated with different compressor rotational speeds, and the processor performs processing of extracting, from the storage device, one of the plurality of pieces of the first information, one of the plurality of pieces of the second information, and one of the plurality of pieces of the third information according to a current rotational speed, and performs processing of estimating the motor coil temperature of the electric motor using the extracted one of the plurality of pieces of the first information, the extracted one of the plurality of pieces of the second information, and the extracted one of the plurality of pieces of the third information.