Dryer and control method therefor

What is claimed is: 1. A dryer comprising: a drum; a duct connected to the drum; an evaporator and a condenser provided inside the duct; a compressor to circulate a refrigerant to the evaporator and the condenser; a heater provided inside the duct; a fan provided inside the duct; a motor to rotate the fan; and a controller configured to perform a first operation of operating the compressor, the heater, and the motor based on no object being inside the drum, and a second operation of operating the heater and the motor without operating the compressor. 2. The dryer of claim 1 , wherein the controller is configured to further perform a preheating operation of operating the heater and the motor without operating the compressor, control the motor to rotate the fan at a first velocity during the preheating operation, and control the motor to rotate the fan at a second velocity during the first operation and the second operation, wherein the second velocity is smaller than the first velocity. 3. The dryer of claim 1 , further comprising a temperature sensor provided at an outlet through which air of the drum is discharged to the duct, wherein the controller is configured to perform the second operation based on a temperature, which is based on an output from the temperature sensor, being higher than or equal to a predetermined temperature. 4. The dryer of claim 1 , further comprising a temperature sensor installed at a refrigerant outlet of the compressor, wherein the controller is configured to perform the second operation based on a temperature, which is based on an output from the temperature sensor, being higher than or equal to a predetermined temperature. 5. The dryer of claim 1 , further comprising a temperature sensor provided at an outlet through which air of the drum is discharged to the duct, wherein the controller is configured to control the heater such that a temperature, which is based on an output from the temperature sensor, follows a predetermined temperature. 6. The dryer of claim 1 , wherein the controller is configured to further perform a third operation of operating the motor without operating the compressor and the heater, based on an operation time of the heater being longer than or equal to a predetermined time. 7. The dryer of claim 6 , further comprising a control panel configured to select a sterilization course for sterilizing the drum and the duct at high temperature, and set a sterilization time for which the sterilization course is performed, wherein the predetermined time is based on the sterilization time. 8. The dryer of claim 1 , further comprising a front frame rotatably supporting the drum, and an electrode sensor including a pair of electrodes installed in the front frame, wherein the controller is configured to identify that no object is inside the drum, based on a change of an electrical resistance value or a change of capacitance between the pair of electrodes. 9. A method for controlling a dryer, the dryer including a drum, a duct connected to the drum and a fan provided inside the duct, the method comprising: a first operation of operating a compressor connected to an evaporator and a condenser provided inside the duct, a heater provided inside the duct, and a motor to rotate the fan based on no object being inside the drum; and a second operation of operating the heater and the motor without operating the compressor. 10. The method of claim 9 , further comprising a preheating operation of operating the heater and the motor without operating the compressor, wherein the preheating operation comprises operating the motor to rotate the fan at a first velocity, the first operation comprises operating the motor to rotate the fan at a second velocity, the second operation comprises operating the motor to rotate the fan at the second velocity, and the second velocity is smaller than the first velocity. 11. The method of claim 9 , wherein the second operation is performed based on a temperature, which is based on an output from a temperature sensor provided at an outlet through which air of the drum is discharged to the duct, being higher than or equal to a predetermined temperature. 12. The method of claim 9 , wherein the second operation is performed based on a temperature, which is based on an output from a temperature sensor installed at a refrigerant outlet of the compressor, being higher than or equal to a predetermined temperature. 13. The method of claim 9 , wherein each of the first operation and the second operation comprises controlling the heater such that a temperature, which is based on an output from a temperature sensor provided at an outlet through which air of the drum is discharged to the duct, follows a predetermined temperature. 14. The method of claim 9 , further comprising a third operation of operating the motor without operating the compressor and the heater based on an operation time of the heater is longer than or equal to a predetermined time. 15. The method of claim 9 , further comprising identifying that no object is inside the drum, based on a change of an electrical resistance value or a change of capacitance between a pair of electrodes installed at a front frame of the dryer. 16. A dryer comprising: a drum; a duct connected to the drum; a compressor connected to an evaporator and a condenser provided inside the duct; a heater provided inside the duct; a fan provided inside the duct; a motor to rotate the fan; and a controller configured to operate the compressor, the heater, and the motor based on no object being inside the drum. 17. The dryer of claim 16 , further comprising a temperature sensor provided at an outlet through which air of the drum is discharged to the duct, wherein the controller is configured to control the heater such that a temperature, which is based on an output from the temperature sensor, follows a predetermined temperature. 18. The dryer of claim 16 , wherein the controller is configured to further perform a preheating operation of operating the heater and the motor without operating the compressor, control the motor to rotate the fan at a first velocity during the preheating operation, and control the motor to rotate the fan at a second velocity during the first operation and the second operation, wherein the second velocity is smaller than the first velocity. 19. The dryer of claim 16 , wherein the controller is configured to operate the motor without operating the compressor and the heater, based on an operation time of the heater being longer than or equal to a predetermined time. 20. The dryer of claim 16 , further comprising a front frame rotatably supporting the drum, and an electrode sensor including a pair of electrodes installed in the front frame, wherein the controller is configured to identify that no object is inside the drum, based on a change of an electrical resistance value or a change of capacitance between the pair of electrodes.