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 is configured to supply current to the working coil; a driving circuit configured to supply a switching signal to each of the switching elements; a current sensor configured to determine a resonance current value, and a magnitude of resonance current flowing in the working coil; and a controller configured to provide a control signal to the driving circuit, the control signal to adjust a duty ratio and a frequency of the switching signals, wherein the controller is configured to: set and adjust the duty ratio and the frequency of the switching signals to perform an operation of detecting a container, and determine whether the container is on the heating zone after finishing the operation of detecting the container, based on the resonance current value determined by the current sensor, wherein the controller is configured to: control the driving circuit to provide a switching signal having a first predetermined reference duty ratio and a first predetermined reference frequency to each of the switching elements, so as to initiate the operation of detecting the container, and control the driving circuit to increase the duty ratio of the switching signal to a second predetermined reference duty ratio and to decrease the frequency of the switching signal to a second predetermined reference frequency so as to perform the operation of detecting the container. 2 . The induction heating apparatus of claim 1 , comprising a voltage sensor configured to determine a supplied voltage value, which is a voltage value to be provided to the inverter circuit, wherein the controller is configured to initiate the operation of detecting the container when the supplied voltage value is determined to be 0 V. 3 . The induction heating apparatus of claim 1 , wherein the controller is configured to increase the duty ratio of the switching signal to the second predetermined reference duty ratio, and then to decrease the frequency of the switching signal to the second predetermined reference frequency after a predetermined time passes from the increase of the duty ratio of the switching signal to the second predetermined reference duty ratio. 4 . The induction heating apparatus of claim 1 , comprising a voltage sensor configured to determine a supplied voltage value, and magnitude of voltage supplied to the inverter circuit, wherein the controller is configured to finish the operation of detecting the container when the supplied voltage value is determined to become 0 V. 5 . The induction heating apparatus of claim 1 , wherein the controller is configured to determine that the container is on the heating zone when the determined resonance current value is less than a predetermined reference current value, and the controller is configured to determine that the container is not on the heating zone when the determined resonance current value is equal to or greater than the reference current value. 6 . A method for controlling an induction heating apparatus that includes a working coil disposed to correspond to a heating zone, an inverter circuit that includes a plurality of switching elements, and is configured to supply current to the working coil, a driving circuit configured to provide a switching signal to each of the switching elements, a current sensor configured to determine a resonance current value, and a magnitude of resonance current flowing in the working coil, and a controller configured to provide a control signal for adjusting a duty ratio and a frequency of the switching signal to the driving circuit, comprising: setting and adjusting, by the controller, a duty ratio and a frequency of the switching signal to perform an operation of detecting a container; determining, by the current sensor, a resonance current value after finishing the operation of detecting the container; and determining, by the controller, whether the container is on the heating zone based on the determined resonance current value, wherein the setting and the adjusting of the duty ratio and the frequency of the switching signal comprises: providing, by the driving circuit, a switching signal having a first predetermined reference duty ratio and a first predetermined reference frequency to each of the switching elements, so as to initiate the operation of detecting the container; and increasing the duty ratio of the switching signal to a second predetermined reference duty ratio and decreasing the frequency of the switching signal to a second predetermined reference frequency, so as to perform the operation of detecting the container. 7 . The method of claim 6 , wherein the induction heating apparatus includes a voltage sensor configured to determine a supplied voltage value, which is a voltage value to be provided to the inverter circuit, and the method comprises initiating the operation of detecting the container by the controller when the supplied voltage value is determined to be 0 V. 8 . The method of claim 6 , wherein increasing the duty ratio of the switching signal to the second predetermined reference duty ratio and decreasing the frequency of the switching signal to the second predetermined reference frequency, comprises increasing the duty ratio of the switching signal to the second predetermined reference duty ratio, and then decreasing the frequency of the switching signal to the second predetermined reference frequency after a predetermined time passes from the increase of the duty ratio of the switching signal to the second predetermined reference duty ratio. 9 . The method of claim 6 , wherein the induction heating apparatus includes a voltage sensor configured to determine a supplied voltage value, which is a voltage value to be provided to the inverter circuit, and the method comprises finishing the operation of detecting the container by the controller when the supplied voltage value is determined to become 0 V. 10 . The method of claim 6 , wherein the determining whether the container is on the heating zone based on the resonance current value comprises: determining that the container is on the heating zone when the determined resonance current value is less than a predetermined reference current value; and determining that the container is not on the heating zone when the determined resonance current value is equal to or greater than the reference current value. 11 . An induction heating apparatus, comprising: a working coil; an inverter circuit that includes a plurality of switching elements, and is configured to supply current to the working coil; a driving circuit configured to supply switching signals to the switching elements; a current sensor configured to determine a resonance current value with respect to the working coil; and a controller configured to control the switching signals output from the driving circuit to the switching elements, wherein the controller is configured to: perform an operation of detecting a container based on duty ratio and frequency of the switching signals, and determine whether the container is on the heating zone after finishing the operation of detecting the container, based on the resonance current value determined by the current sensor, and wherein the controller is configured to: control the driving circuit to provide a switching signal having a first predetermined reference duty ratio and a first predetermined reference frequency to each of the switching elements, so as to initiate the operation of detecting the conta