Apparatus and method for detecting faults of battery heating system and relays

What is claimed is: 1. An apparatus for detecting faults of a heater relay and high voltage relays in a battery heating system which includes a heater installed in each battery module of a battery pack to heat the battery module, the heater relay configured to selectively apply power to the heaters connected in series, and the high voltage relays of (+) and (−) power lines connected to the battery pack, the apparatus comprising: a voltage sensing circuit unit configured to detect a fault and configured to sense a voltage for fault detection when the faults of the heater relay and the high voltage relays are detected; and a battery management system (BMS) configured to operate the on/off of the heater relay and the high voltage relays and detect welding of the heater relay and the high voltage relays from the voltage for fault detection, wherein the BMS is configured to operate the off state of the heater relay when the (+) and (−) main relays among the high voltage relays are in the on state and when the precharge relay among the high voltage relays is in the off state, and then detect welding of the heater relay from the voltage for fault detection. 2. The apparatus of claim 1 , wherein the voltage sensing circuit unit for fault detection is configured to sense a voltage for fault detection using a branch circuit branched from a connection circuit for connecting between two adjacent heaters connected in series. 3. The apparatus of claim 2 , wherein, in the battery heating system including the heaters installed in the respective battery modules to be connected in series, the voltage sensing circuit unit for fault detection is connected to the branch circuit branched from the connection circuit having the same number of heaters at a front terminal thereof and the same number of heaters at a rear terminal thereof. 4. The apparatus of claim 2 , wherein the voltage sensing circuit unit includes: a first resistor and a second resistor connected in series between the branch circuit and a ground terminal on the branch circuit; and a zener diode connected to both terminals of the second resistor, wherein a voltage at both the terminals of the second resistor is sensed as the voltage for fault detection. 5. The apparatus of claim 1 , wherein the BMS is configured to operate a (−) main relay and the heater relay to be in the on state when the off state of a precharge relay and a (+) main relay among the high voltage relays is controlled, and detect welding of the precharge relay and the (+) main relay from the voltage for fault detection. 6. The apparatus of claim 1 , wherein the BMS is configured to operate the off state of the (−) main relay when the (+) main relay and the heater relay among the high voltage relays are in the on state and when the precharge relay among the high voltage relays is in the off state, and detect welding of the (−) main relay from the voltage for fault detection. 7. A method for detecting faults of a heater relay and high voltage relays in a battery heating system which includes a heater installed in each battery module of a battery pack to heat the battery module, the heater relay configured to selectively apply power to the heaters connected in series, and the high voltage relays of (+) and (−) power lines connected to the battery pack, the method comprising: operating, by a controller, an on/off state of the heater relay and the high voltage relays through a predetermined process to detect a fault of the heater relay or the high voltage relay; and detecting, by the controller, welding of the heater relay or the high voltage relay from a voltage for fault detection which is sensed using a voltage sensing circuit unit for fault detection, wherein the off state of the heater relay is controlled when which the (+) and (−) main relays among the high voltage relays are in the on state and when the precharge relay among the high voltage relays is in the off state, and welding of the heater relay is then decided from the voltage for fault detection. 8. The method of claim 7 , wherein the voltage sensing circuit unit for fault detection is configured to sense a voltage for fault detection using a branch circuit branched from a connection circuit for connecting between two adjacent heaters connected in series. 9. The method of claim 8 , wherein, in the battery heating system including the heaters installed in the respective battery modules to be connected in series, the voltage sensing circuit unit for fault detection is connected to the branch circuit branched from the connection circuit having the same number of heaters at a front terminal thereof and the same number of heaters at a rear terminal thereof. 10. The method of claim 8 , wherein the voltage sensing circuit unit includes: a first resistor and a second resistor connected in series between the branch circuit and a ground terminal on the branch circuit; and a zener diode connected to both terminals of the second resistor, wherein a voltage at both the terminals of the second resistor is sensed as the voltage for fault detection. 11. The method of claim 10 , wherein the detection that welding of the precharge relay is detected when the voltage for fault detection is determined using Expression 1, and the detection that welding of the (+) main relay is detected when the voltage for fault detection is determined using Expression 2; Sensing value=(voltage of battery pack or Σvoltages of battery cells)×((½×Σresistances of heaters)/(Σresistances of heaters+precharge resistance))×voltage division ratio of voltage sensing circuit for fault detection  Expression 1 Sensing value=(voltage of battery pack or Σvoltages of battery cells)×((½×Σresistances of heaters)/(Σresistances of heaters))×voltage division ratio of voltage sensing circuit for fault detection, and  Expression 2 wherein the voltage of the battery pack or ‘Σvoltages of battery cells’ is obtained from a sensing value of a battery voltage sensing circuit unit; ‘Σresistances of heaters’ is a sum of resistance values of all the heaters; the precharge resistance is the resistance value of a precharge resistor of a power relay assembly (PRA); and the voltage division ratio is a voltage distribution ratio by the first and second resistors, wherein the voltage sensing circuit unit for fault detection senses a voltage for fault detection through the branch circuit branched from the connection circuit for connecting between the two adjacent heaters connected in series, and wherein the voltage sensing circuit unit for fault detection is connected to the branch circuit branched from the connection circuit having the same number of heaters at a front terminal thereof and the same number of heaters at a rear terminal thereof. 12. The method of claim 10 , wherein, when the voltage for fault detection is about ‘½×voltage of battery pack×voltage division ratio of voltage sensing circuit unit for fault detection’ when the (+) and (−) main relays are in the on state and when the heater relay is the on state, the heater is determined to be normal, and wherein the voltage of the battery pack is obtained from a sensing value of the battery voltage sensing circuit unit, the voltage division ratio is a voltage distribution ratio by the first and second resistors, and the voltage sensing circuit unit for fault detection is configured to sense a voltage for fault detection using the branch circuit branched from the connection circuit for connecting between the two adjacent heaters connected in series and is connected to the branch circuit branched from the connection circuit having the same number of heaters at a front terminal thereof and the same number of heate