Earth leakage circuit breaker

The invention claimed is: 1. An earth leakage circuit breaker comprising: a leakage current detection unit for outputting a leakage current detection signal according to a leakage current from a circuit; a conversion unit for outputting a leakage current magnitude of a fundamental wave component, a ratio of a third harmonic component, and a ratio of a positive pole peak current value to a negative pole peak current value, on a basis of the leakage current detection signal outputted from the leakage current detection unit; and a control unit for comparing the leakage current magnitude of a fundamental wave component, the ratio of a third harmonic component, and the ratio of a positive pole peak current value to a negative pole peak current value, outputted by the conversion unit, with predetermined reference values to determine whether or not a leakage current of an alternating current (AC) component is generated or a leakage current of a direct current (DC) component is generated and to thereby output a trip control signal when it is determined that the leakage current of the DC component or the AC component is generated, wherein the control unit is further configured to: when the leakage current is detected, detect whether a current of the circuit is in a balanced current state that is distinguished from the leakage current of the AC component and the leakage current of the DC component, based on the leakage current magnitude of the fundamental wave component, the ratio of the third harmonic component, and the ratio of the positive pole peak current value to the negative pole peak current value, and restrict output of the trip control signal when the current of the circuit is in the balanced current state. 2. The earth leakage circuit breaker of claim 1 , wherein the conversion unit comprises: an analog to digital converter configured to convert the leakage current detection signal, which is an analog signal, into a digital signal in a time domain by sampling the leakage current detection signal; a discrete Fourier transformer configured to output the converted digital signal as a digital signal in a frequency domain by discrete Fourier transform; an alternating current component converter configured to determine the leakage current magnitude of the fundamental wave component and a magnitude of the third harmonic component based on the discrete Fourier transformed digital signal, and to calculate a ratio of the third harmonic component that is a ratio of the magnitude of the third harmonic component to the leakage current magnitude of the fundamental wave component; and a direct current component converter configured to calculate a ratio of the positive pole peak current value to the negative pole peak current value based on the discrete Fourier transformed digital signal. 3. The earth leakage circuit breaker of claim 1 , wherein the leakage current detection unit detects that the leakage current is detected and outputs the leakage current detection signal when the current of the circuit is greater than a first reference current value set according to a sensitivity to the leakage current wherein the control unit determines that the leakage current of the AC component has occurred when the leakage current magnitude of the fundamental wave component is equal to or greater than a second reference current value; and wherein the second reference current value is greater than the first reference current value. 4. The earth leakage circuit breaker of claim 3 , wherein the control unit is configured to: increase a number of occurrences of abnormal current when the leakage current magnitude of the fundamental wave component is not less than the second reference current value, and when the increased number of abnormal current occurrences reaches a predetermined threshold value, output the trip control signal by determining that a leakage current of an alternating current component is generated. 5. The earth leakage circuit breaker of claim 4 , wherein the control unit is configured to: increase the number of occurrences of the abnormal current when the third harmonic component ratio is less than a reference third harmonic component ratio and the leakage current magnitude of the fundamental wave component is less than the second reference current value, and when the increased number of abnormal current occurrences reaches a predetermined threshold value, output the trip control signal. 6. The earth leakage circuit breaker of claim 5 , wherein the control unit is configured to: increase the number of occurrences of the abnormal current when the ratio of the positive pole peak current value to the negative pole peak current value is not less than a predetermined reference ratio and the third harmonic component ratio is not less than the reference third harmonic component ratio, and when the increased number of abnormal current occurrences reaches a predetermined threshold value, output the trip control signal. 7. The earth leakage circuit breaker of claim 6 , wherein the control unit is further configured to: determine that the current of the circuit is in a balanced current state, when the leakage current magnitude of the fundamental wave component is less than the second reference current value, and the ratio of the third harmonic component is not less than the reference third harmonic component ratio, and the ratio of the positive pole peak current value to the negative pole peak current value is less than a predetermined reference ratio, and initialize the number of abnormal current occurrences counted when the current of the circuit is in the balanced current state.