LED driving apparatus and lighting apparatus including the same

What is claimed is: 1. A light emitting device driving apparatus, comprising: a rectifier circuit configured to rectify alternating current (AC) power to generate driving power for operating a plurality of LED arrays; a controller integrated circuit (IC) including a plurality of internal switches connected to respective output terminals of the plurality of light emitting diode (LED) arrays and configured to control a path of a current flowing in the plurality of LED arrays by adjusting operations of the plurality of internal switches according to a magnitude of the driving power; and a current controlling circuit connected to the output terminal of at least one of the plurality of LED arrays and configured to control a current flowing in the at least one LED array, wherein the plurality of LED arrays includes: a first LED array having an input node that receives a current from an output node of the rectifier circuit; a last LED array having an output node that outputs a current to an input node of the current controlling circuit, the output node being the output terminal; and one or more LED arrays connected between the first LED array and the last LED array, such that adjacent LED arrays are connected by an intermediate node that is connected to a terminal of a respective internal switch of the plurality of internal switches, and wherein the plurality of internal switches include: a set of switches respectively connected at an input end to corresponding intermediate nodes, and commonly connected at an output end to a common node, wherein the common node is a node of the controller IC connected to the current controlling circuit, and a last switch connected at an input end to the output node of the last LED, and at an output end to the common node, wherein the current controlling circuit includes at least a voltage divider having one end connected to the common node, and a second end connected to ground, such that when the last switch is closed, a current output from the last LED array passes through the last switch and the voltage divider. 2. The light emitting device driving apparatus of claim 1 , wherein the current controlling circuit is connected to at least the last switch of the plurality of internal switches at the output node of the last LED array. 3. The light emitting device driving apparatus of claim 2 , configured so that when the last switch is in a closed state, the current flowing in the at least one LED array is dispersed into the current controlling circuit and the last switch. 4. The light emitting device driving apparatus of claim 1 , wherein the current controlling circuit includes an external switching element connected to the output node of the last LED array, a first resistor connected between an output terminal of the external switching element and the last switch, and a second resistor connected between a ground terminal and the output terminal of the external switching element. 5. The light emitting device driving apparatus of claim 4 , configured such that a ratio of a current flowing in the current controlling circuit and a current flowing in the at least one internal switch is determined by a ratio of the first resistor and the second resistor. 6. The light emitting device driving apparatus of claim 1 , wherein at least some of the plurality of LED arrays include different numbers of light emitting devices as other of the plurality of LED arrays. 7. The light emitting device driving apparatus of claim 6 , wherein the at least one LED array includes a smaller number of light emitting devices than that of the remaining LED arrays of the plurality of LED arrays. 8. The light emitting device driving apparatus of claim 1 , configured such that a time for which the at least one LED array emits light in a single cycle of the driving power is shorter than a time for which the remaining LED arrays of the plurality of LED arrays emit light in the single cycle of the driving power. 9. The light emitting device driving apparatus of claim 1 , wherein at least one of the LED arrays is directly electrically connected to the rectifier circuit, and further comprising: a voltage detecting circuit configured to detect a voltage magnitude of the driving power. 10. A lighting apparatus, comprising: a light source including a plurality of light emitting diode (LED) arrays including a first LED array through which an applied current flows first, and a last LED array through which the applied current flows last; a controller integrated circuit (IC) including a plurality of internal switches connected to respective output terminals of the plurality of LED arrays and configured to control a path of a current flowing in the plurality of LED arrays by adjusting operations of the plurality of internal switches according to a magnitude of the driving power; and a current controlling circuit connected to the output terminal of the last LED array of the plurality of LED arrays and configured to draw a current flowing in the controller IC, wherein the current controlling circuit includes at least a voltage divider connected to the last switch, such that when the last switch is closed, a current output from the last LED array passes through the last switch and the voltage divider. 11. The lighting apparatus of claim 10 , wherein a time for which the last LED array emits light in a single cycle of the driving power is shorter than a time for which the remaining LED arrays of the plurality of LED arrays emit light in the single cycle of the driving power. 12. The lighting apparatus of claim 10 , wherein the last LED array is configured to be turned on together with the remaining LED arrays of the plurality of LED arrays during at least part of the single cycle of the driving power. 13. The lighting apparatus of claim 10 , wherein the current controlling circuit includes an external switching element connected to the output terminal of the last LED array, a first resistor connected between an output terminal of the external switching element and the at least one internal switch, and a second resistor connected between a ground terminal and the output terminal of the external switching element. 14. The lighting apparatus of claim 13 , configured such that a ratio of a current flowing in the current controlling circuit and a current flowing in the last internal switch is determined by a ratio of the first resistor and the second resistor. 15. A lighting apparatus, comprising: a rectifier circuit configured to rectify alternating current (AC) power to generate driving power for operating a plurality of light emitting device sets, each light emitting device set having an input terminal and output terminal and including one or more light emitting devices, the light emitting device sets including a first light emitting device set through which an applied current flows first, and a last light emitting device array through which the applied current flows last; a controller integrated circuit (IC) including a plurality of internal switches connected to respective output terminals of the plurality of light emitting device sets and configured to control a path of a current flowing in the plurality of light emitting device sets by adjusting operations of the plurality of internal switches according to a magnitude of the driving power, wherein a last internal switch is connected to the output terminal of the last light emitting device set; and a current controlling circuit connected to the output terminal of the last light emitting device set of the plurality of light emitting device sets and configured to control a current flowi