Maximum power point tracking apparatus for energy harvesting system and maximum power point tracking control method

What is claimed is: 1. A maximum power point tracking (MPPT) apparatus for an energy harvesting system, the MPPT apparatus comprising: a comparison part including a first comparator configured to compare an output voltage of a direct current (DC)-DC converter with a high reference voltage; and a controller including a counter, which operates on the basis of a signal output through the comparison part and measures a time for the output voltage of the DC-DC converter to reach the high reference voltage, and a power controller which outputs a control parameter of the DC-DC converter for minimizing a count value while updating the control parameter, wherein the power controller comprises: a modulation mode-specific settling time calculator configured to calculate a difference between count values in a pulse frequency modulation (PFM) mode and a pulse width modulation (PWM) mode; and a modulation mode setter configured to set a modulation mode of the DC-DC converter to the modulation mode in which the count value is smaller when the difference between the count values calculated by the modulation mode-specific settling time calculator is larger than a modulation reference value. 2. The MPPT apparatus of claim 1 , wherein the control parameter of the DC-DC converter includes a mode control word for setting the DC-DC converter to operate in one of a pulse width modulation (PWM) mode and a pulse frequency modulation (PFM) mode or a core control word for selecting one of a plurality of cores of the DC-DC converter having different sizes. 3. The MPPT apparatus of claim 1 , wherein the comparison part further includes a second comparator configured to compare the output voltage of the DC-DC converter with a low reference voltage, and the counter counts a time from an output time point of the second comparator of the DC-DC converter to an output time point of the first comparator. 4. The MPPT apparatus of claim 3 , further comprising a discharge part configured to discharge the output voltage at a level of the low reference voltage or less according to control of the controller after the DC-DC converter reaches the high reference voltage. 5. The MPPT apparatus of claim 3 , further comprising a reference voltage generator configured to generate and output the low reference voltage and the high reference voltage determined according to control of the controller to the comparison part. 6. The MPPT apparatus of claim 1 , wherein the power controller further comprises a load condition determiner configured to increase a charging time among the charging time and a discharge time of a switching period until the difference between the count values reaches the modulation reference value when the difference between the count values calculated by the modulation mode-specific settling time calculator is smaller than or equal to the modulation reference value. 7. The MPPT apparatus of claim 1 , wherein the power controller further comprises: a pulse width modulation core determiner configured to change a core size and check the count value to determine the core size when it is determined that the modulation mode is the PWM mode; and a pulse frequency modulation core determiner configured to change the core size and check the count value to determine the core size when it is determined that the modulation mode is the PFM mode. 8. The MPPT apparatus of claim 1 , wherein the power controller comprises a duty determiner configured to determine and output a pulse width modulation duty cycle of the DC-DC converter so that the count value of the counter is reduced. 9. A maximum power point tracking (MPPT) control method performed by an MPPT controller connected to a direct current (DC)-DC converter of an energy harvesting system, the MPPT control method comprising: a modulation mode-specific settling time calculation operation of calculating a difference between count values in a pulse frequency modulation (PFM) mode and a pulse width modulation (PWM) mode; and a modulation mode setting operation of setting a modulation mode of the DC-DC converter to the modulation mode in which the count value is smaller when the difference between the count values calculated in the modulation mode-specific settling time calculation operation is larger than a modulation reference value. 10. The MPPT control method of claim 9 , further comprising a load condition determination operation of increasing a charging time until the difference between the count values calculated in the modulation mode-specific settling time calculation operation reaches the modulation reference value when the difference between the count values is smaller than or equal to the modulation reference value. 11. The MPPT control method of claim 9 , further comprising: a PWM core determination operation of changing a core size and checking the count value to determine the core size when it is determined that the modulation mode is the PWM mode; and a PFM core determination operation of changing a core size and checking the count value to determine the core size when it is determined that the modulation mode is the PFM mode. 12. The MPPT control method of claim 11 , wherein the PWM core determination operation further comprises a duty determination operation of determining and outputting a PWM duty cycle of the DC-DC converter so that the count value is reduced.