Air conditioner and controlling method thereof

What is claimed is: 1 . An air conditioner, comprising: an indoor unit including an indoor heat exchanger and an indoor fan; an outdoor unit including a compressor; and a processor configured to, based on identification of an event occurring for cleaning the indoor heat exchanger: identify whether a pre-set threshold time has passed after a cooling operation or a dehumidifying operation is ended, and: based on the pre-set threshold time being identified as having passed, control a heat-up operation to be performed to increase a temperature of a surface of the indoor heat exchanger, or based on the pre-set threshold time being identified as not having passed, control a drying operation to be performed to dry the indoor heat exchanger, and then control the heat-up operation to be performed, control at least one from among the indoor fan and the compressor to perform a pre-freezing operation to form dew at the surface of the indoor heat exchanger, control at least one from among the indoor fan and the compressor to perform a freezing operation to freeze the dew formed at the surface of the indoor heat exchanger to form an ice-capsule at the surface of the indoor heat exchanger, and control the indoor fan to perform a defrosting operation to defrost the surface of the indoor heat exchange. 2 . The air conditioner of claim 1 , wherein the processor is configured to: control the indoor fan to not rotate while the heat-up operation is being performed. 3 . The air conditioner of claim 1 , wherein the processor is configured to: control the compressor to rotate at a first compressor revolution per minute (RPM) while the pre-freezing operation is being performed, and control the compressor to rotate at a second compressor RPM which is greater than the first compressor RPM while the freezing operation is being performed. 4 . The air conditioner of claim 3 , wherein the processor is configured to: control the indoor fan to rotate at a first fan RPM while the pre-freezing operation is being performed, and control the indoor fan to rotate at a second fan RPM which is less than the first fan RPM while the freezing operation is being performed. 5 . The air conditioner of claim 1 , wherein the outdoor unit includes a cooling and heating switch valve to switch a direction in which a refrigerant flows, and the processor is configured to: control the compressor and the cooling and heating switch valve to perform the heat-up operation. 6 . The air conditioner of claim 1 , wherein the indoor unit includes a heater to heat the indoor heat exchanger, and the processor is configured to: control the heater to perform the heat-up operation. 7 . The air conditioner of claim 1 , wherein the processor is configured to: based on the heat-up operation being ended, performing a standby operation for a pre-set threshold time before controlling the pre-freezing operation to be performed. 8 . The air conditioner of claim 1 , wherein the processor is configured to: perform a drying operation to dry the indoor heat exchanger after the defrosting operation is ended. 9 . The air conditioner of claim 1 , wherein the event includes at least one from among humidity in a space in which the indoor unit is disposed being greater than a pre-set threshold humidity, a foreign material inside the air conditioner being detected through at least one sensor in the air conditioner, an odor of a pre-set type being detected through the at least one sensor, and a pre-set cleaning cycle having arrived. 10 . A method of controlling an air conditioner including an indoor unit including an indoor heat exchanger and an indoor fan, and an outdoor unit including a compressor, the method comprising: identifying an event occurring for cleaning the indoor heat exchanger; identifying whether a pre-set threshold time has passed after a cooling operation or a dehumidifying operation is ended, and based on the pre-set threshold time being identified as having passed, performing a heat-up operation to increase a temperature of a surface of the indoor heat exchanger; or based on the pre-set threshold time being identified as not having passed, performing a drying operation to dry the indoor heat exchanger, and then performing the heat-up operation; controlling at least one from among the indoor fan and the compressor to perform a pre-freezing operation to form dew at the surface of the indoor heat exchanger; controlling at least one from among the indoor fan and the compressor to perform a freezing operation to freeze the dew formed at the surface of the indoor heat exchanger to form an ice-capsule at the surface of the indoor heat exchanger; and controlling the indoor fan to perform a defrosting operation to defrost the surface of the indoor heat exchanger. 11 . The method of claim 10 , wherein the performing the heat-up operation includes controlling the indoor fan to not rotate while the heat-up operation is being performed. 12 . The method of claim 10 , wherein the controlling at least one from among the indoor fan and the compressor to perform the pre-freezing operation includes controlling the compressor to rotate at a first compressor revolution per minute (RPM) while the pre-freezing operation is being performed, and the controlling at least one from among the indoor fan and the compressor to perform the freezing operation includes controlling the compressor to rotate at a second compressor RPM which is greater than the first compressor RPM while the freezing operation is being performed. 13 . The method of claim 12 , wherein the controlling at least one from among the indoor fan and the compressor to perform the pre-freezing operation includes controlling the indoor fan to rotate at a first fan RPM while the pre-freezing operation is being performed, and the controlling at least one from among the indoor fan and the compressor to perform the freezing operation includes controlling the indoor fan to rotate at a second fan RPM which is lesser than the first fan RPM while the freezing operation is being performed.