Fuel cell thermal management system and control method of the same

What is claimed is: 1. A method of controlling a thermal management system for a fuel cell, comprising: providing the thermal management system comprising: a fuel cell stack; a heater connected with the fuel cell stack in parallel through a coolant channel and configured to heat coolant using power from a main bus terminal connected to the fuel cell stack; a pump circulating the coolant; a bypass valve controlling a flow rate of the coolant to be supplied to the fuel cell stack or the heater; a radiator allowing the coolant to exchange heat with external air; a heat dissipation fan supplying the external air to the radiator; a temperature control valve controlling the flow rate of the coolant, which is flowing through the radiator; a temperature sensor disposed at an outlet of the fuel cell stack or an outlet of the heater; and a controller controlling the heater, the pump, the bypass valve, the heat dissipation fan, or the temperature control valve on the basis of temperature sensed by the temperature sensor; diagnosing the thermal management system for the fuel cell; and controlling a fail-safe operation of the thermal management system on the basis of the diagnosis result, wherein the diagnosing diagnoses a faulty connection or a malfunction in the heater, and wherein when the heater is continuously connected regardless of an instruction from the controller, the continuous connection of the heater is diagnosed as a faulty connection of the heater, and when the heater cannot be continuously connected regardless of an instruction from the controller, it is diagnosed that the heater cannot be continuously connected. 2. The method of claim 1 , wherein after the controller operates the heater, a malfunction in the heater is diagnosed on the basis of a change in temperature of the coolant or a current flowing through the heater. 3. The method of claim 1 , wherein when the heater is operated after it is finished to stop supplying air to the fuel cell stack, a malfunction in the heater is diagnosed on the basis of a voltage of the fuel cell stack or a current flowing through the heater. 4. The method of claim 1 , wherein the diagnosing diagnoses faulty communication or a malfunction in the bypass valve. 5. The method of claim 4 , wherein a malfunction in the bypass valve is determined when the difference between the value of the degree of opening of the bypass valve given by the controller and the actual value of the degree of opening of the bypass valve is a predetermined value of the degree of opening or more. 6. The method of claim 1 , wherein when it is diagnosed that the heater remains connected in the diagnosing and the State of Charge (SOC) of a high-voltage battery is a predetermined SOC or less, the controlling of a fail-safe operation shuts down the fuel cell system. 7. The method of claim 6 , wherein the predetermined SOC is equal to or higher than the SOC of a high-voltage battery that is maintained in normal operation of the fuel cell system. 8. The method of claim 1 , wherein in the diagnosing, when faulty communication or a malfunction in the bypass valve is diagnosed and the voltage of the fuel cell stack is a predetermined level or more when hydrogen is supplied in the early stage of starting up the fuel cell system, hydrogen purge control is performed in the controlling of a fail-safe operation. 9. The method of claim 1 , wherein when COD control fails and the time for maintaining shut-down is a predetermined time or more as the fuel cell system is shut down in the diagnosing, hydrogen purge control can be performed in the controlling of a fail-safe operation. 10. The method of claim 1 , wherein when faulty communication or a malfunction is diagnosed in the bypass valve in the diagnosing, the controlling of a fail-safe operation does not operate the heater. 11. The method of claim 1 , wherein when a faulty connection or a malfunction is diagnosed in the heater in the diagnosing, in the controlling of a fail-safe operation, when it is required to increase the temperature of the coolant, it is possible to control the pump or the heat dissipation fan at predetermined RPM or control the temperature control valve such that the coolant does not flow through the radiator. 12. The method of claim 1 , wherein when a faulty connection or a malfunction is diagnosed in the heater or faulty communication or a malfunction is diagnosed in the bypass valve in the diagnosing, in the controlling of a fail-safe operation, when the SOC of the high-voltage battery is a predetermined maximum SOC or more in generative braking, it is possible to control the pump or the heat dissipation fan at predetermined RPM.