Induction heating apparatus and method for controlling the same

What is claimed is: 1. An induction heating apparatus, comprising: a working coil disposed to correspond to a heating zone; an inverter circuit that includes a plurality of switching elements and configured to supply current to the working coil; a driving circuit configured to supply a switching signal to each of the switching elements; and a controller configured to: determine a driving frequency of the working coil, corresponding to an input power level of the heating zone, provide a control signal cy to the driving circuit based on the driving frequency, and drive the working coil, wherein the controller receives a resonance current value of the working coil, receives a driving voltage value provided to one of the switching elements, determines an overlapped period of the resonance current value and the driving voltage value, compares a time of the overlapped period with a predetermined reference time to determine a driving state of the induction heating apparatus, and controls driving of the working coil based on the determined driving state. 2. The induction heating apparatus of claim 1 , wherein the overlapped period is a time period when the resonance current value is a positive value and the driving voltage value is a positive value. 3. The induction heating apparatus of claim 1 , wherein the driving voltage value is magnitude of voltage provided between two terminals of the switching element. 4. The induction heating apparatus of claim 1 , wherein the reference time corresponds to a period in which the resonance current value is positive. 5. The induction heating apparatus of claim 1 , wherein when the time of the overlapped period is after the reference time, the controller determines that the driving state of the induction heating apparatus is normal, and when the time of the overlapped period is earlier than the reference time, the controller determines that the driving state of the induction heating apparatus is abnormal. 6. The induction heating apparatus of claim 1 , wherein when the driving state of the induction heating apparatus is determined to be normal, the controller maintains driving of the working coil, and when the driving state of the induction heating apparatus is determined to be abnormal, the controller stops driving of the working coil. 7. The induction heating apparatus of claim 6 , wherein after the induction heating apparatus is determined to be abnormal, the controller determines a re-driving frequency of the working coil, corresponding to the input power level, and drives the working coil based on the re-driving frequency. 8. A method for controlling an induction heating apparatus, comprising: receiving an input power level for a heating zone; determining a driving frequency of a working coil based on the power level; driving the working coil based on the driving frequency; determining a resonance current value of the working coil; determining a driving voltage value provided to a switching element of an inverter circuit configured to supply current to the working coil; determining an overlapped period of the resonance current value and the driving voltage value; comparing a time of the overlapped period with a predetermined reference time in order to determine a driving state of the induction heating apparatus; and controlling driving of the working coil based on the determined driving state. 9. The method of claim 8 , wherein the overlapped period is a time period f when the resonance current value is a positive value and the driving voltage value is a positive value. 10. The method of claim 8 , wherein the driving voltage value is magnitude of voltage provided between two terminals of the switching element. 11. The method of claim 8 , wherein the reference time corresponds to a period in which the resonance current value is positive. 12. The method of claim 8 , wherein the determining of the driving state of the induction heating apparatus includes: determining that the driving state is normal when the time of the overlapped period is after the reference time; and determining that the driving state is abnormal when the time of the overlapped period is earlier than the reference time t. 13. The method of claim 8 , wherein the controlling of the driving of the working coil includes: maintaining driving of the working coil when the driving state is determined to be normal; and stopping driving of the working coil when the driving state is determined to be abnormal. 14. The method of claim 13 , wherein the controlling of the driving of the working coil includes: when the driving state is determined to be abnormal, determining a re-driving frequency of the working coil corresponding to the input power level; and driving the working coil based on the re-driving frequency. 15. An induction heating apparatus, comprising: a working coil; a circuit configured to supply current to the working coil, the circuit including a plurality of switching elements; a driving circuit configured to supply a switching signal to each of the switching elements; and a controller configured to: determine a driving frequency of the working coil based on an input power level, provide a control signal to the driving circuit based on the driving frequency, and drive the working coil, wherein the controller receives a resonance current value of the working coil, receives a driving voltage value supplied to one of the switching elements, determines a driving state of the induction heating apparatus based on the resonance current value, the driving voltage value and a predetermined time, and controls driving of the working coil based on the determined driving state. 16. The induction heating apparatus of claim 15 , wherein the driving voltage value is magnitude of voltage provided between two terminals of the switching element. 17. The induction heating apparatus of claim 15 , wherein the predetermined time corresponds to a period in which the resonance current value is positive. 18. The induction heating apparatus of claim 15 , wherein when an overlapped period of the resonance current value and the driving voltage value is after the predetermined time, the controller determines that the driving state is normal, and when the overlapped period is earlier than the predetermined time, the controller determines that the driving state is abnormal. 19. The induction heating apparatus of claim 18 , wherein when the driving state is determined to be normal, the controller maintains driving of the working coil, and when the driving state is determined to be abnormal, the controller stops driving of the working coil. 20. The induction heating apparatus of claim 19 , wherein after the driving state is determined to be abnormal, the controller determines a re-driving frequency of the working coil, corresponding to the input power level, and drives the working coil based on the re-driving frequency.