Method of estimating junction temperature of converter for vehicle

What is claimed is: 1. A method of estimating a junction temperature of a converter for a vehicle, comprising the steps of: calculating, by a vehicle controller, an IGBT power loss value of the converter using an input current and an input voltage between a battery and the converter, an output voltage output from the converter to an inverter, and a duty ratio and a predetermined IGBT characteristic value of the converter and a temperature value of cooling water of the converter; and estimating, by the vehicle controller, the junction temperature of the converter by multiplying a thermal coefficient of resistance and a conversion coefficient of the converter by the IGBT power loss value derived by the vehicle controller and summing the multiplied value and a temperature value of cooling water of the converter, wherein the junction temperature is used to improve an over temperature protection and fault diagnosis function of the converter. 2. The method of claim 1 , wherein when the input current flows in a forward direction from the battery to the converter, a duty ratio of the converter is set to be a first duty ratio and when the input current flows in a reverse direction from the converter to the battery, the duty ratio of the converter is set to be a second duty ratio. 3. The method of claim 2 , wherein when the input current alternately flows in the forward direction from the battery to the converter and in the reverse direction from the converter to the battery, the duty ratio of the converter is set to be a third duty ratio. 4. The method of claim 2 , wherein the first duty ratio is a value larger than the second duty ratio. 5. The method of claim 3 , wherein the first duty ratio is a value larger than the second duty ratio, and the second duty ratio is a value larger than the third duty ratio. 6. The method of claim 1 , wherein the temperature value of cooling water of the converter is derived through a temperature sensor installed in a cooling passage of the converter. 7. A system of estimating a junction temperature of a converter for a vehicle, comprising: an input value deriver configured to derive an input current and an input voltage between a battery and the converter; an output value deriver configured to derive an output voltage output from the converter to an inverter; an input current sensor configured to sense a direction of the input current; a temperature sensor configured to sense a cooling water temperature of the converter; a flow rate sensor configured to sense a flow rate of a cooling passage of the converter; and a controller configured to calculate an IGBT power loss value of the converter using the input current and the input voltage derived by the input value deriver, the output voltage output derived by the output value deriver, and a duty ratio and a predetermined IGBT characteristic value of the converter, multiply a thermal coefficient of resistance and a conversion coefficient of the converter by the calculated IGBT power loss value, and then sum a temperature value of cooling water of the converter and the multiplied value to estimate the junction temperature of the converter for the vehicle, wherein the junction temperature is used to improve an over temperature protection and fault diagnosis function of the converter. 8. A non-transitory computer readable medium containing program instructions executed by a processor, the computer readable medium comprising: program instructions that calculate an IGBT power loss value of a converter of a vehicle using an input current and an input voltage between a battery and the converter, an output voltage output from the converter to an inverter, and a duty ratio and a predetermined IGBT characteristic value of the converter, so as to estimate a junction temperature of the converter; and program instructions that estimate the junction temperature of the converter by multiplying a thermal coefficient of resistance and a conversion coefficient of the converter by the IGBT power loss value derived by the vehicle controller and summing the multiplied value and a temperature value of cooling water of the converter, wherein the junction temperature is used to improve an over temperature protection and fault diagnosis function of the converter.