LED driver circuit and light apparatus having the same in

What is claimed is: 1. A light apparatus using light-emitting diodes (LEDs), the light apparatus comprising: an LED array comprising LEDs operatively connected to one another in series; an input unit configured to receive an alternating current (AC) power source signal; a rectifier circuit configured to full-wave rectify the received AC power source signal and supply the full-wave rectified AC power source signal to the LED array; a control circuit configured to selectively light the LEDs based on a voltage level of the full-wave rectified AC power source signal; a converter configured to receive the full-wave rectified AC power source signal, output a direct current (DC) power source signal having a preset level, wherein the converter is further configured to convert the full-wave rectified AC power source signal into the direct current (DC) power source signal having the preset level, and at least one terminal of the converter is directly connected to a ground; and a reference voltage generator configured to generate reference voltages having different voltage levels using the DC power source signal from the converter, wherein the control circuit comprises switching elements configured to selectively force nodes between the LEDs to be grounded, comparators configured to turn-on one of the switching elements based on the voltage level of the full-wave rectified AC power source signal, and resistors connected in series between the switching elements and the ground. 2. The light apparatus of claim 1 , wherein the converter is a junction gate field-effect transistor (JFET). 3. The light apparatus of claim 2 , wherein the JFET comprises: a drain configured to receive the full-wave rectified AC power source signal; a gate configured to be grounded; and a source configured to output the DC power source signal having the preset level, wherein the reference voltage generator is configured to receive the DC power source signal having the preset level. 4. The light apparatus of claim 1 , wherein the switching elements comprise n-channel metal-oxide semiconductor field-effect transistors (NMOSFETs). 5. The light apparatus of claim 1 , wherein the LED array comprises: a first LED comprising an anode configured to receive the full-wave rectified AC power source signal; and a second LED comprising an anode operatively connected to a cathode of the first LED. 6. The light apparatus of claim 5 , wherein the switching elements comprise: a first switching element comprising an end commonly connected to the cathode of the first LED and the anode of the second LED, and another end grounded through a resistor; and a second switching element comprising an end connected to a cathode of the second LED, and another end grounded through the resistor. 7. The light apparatus of claim 6 , wherein the reference voltage generator is further configured to: generate a first reference voltage; and generate a second reference voltage having a higher voltage level than the first reference voltage. 8. The light apparatus of claim 7 , wherein the comparators comprise: a first comparator configured to turn-on the first switching element in response to the first reference voltage being higher than a voltage of the other end of the first switching device; and a second comparator configured to turn-off the second switching element. 9. A light-emitting diode (LED) driver circuit configured to drive an LED array comprising LEDs, the LED driver circuit comprising: a converter configured to convert a full-wave rectified alternating current (AC) power source signal into a direct current (DC) power source signal having a preset level, wherein the converter comprises a first terminal configured to receive the full-wave rectified AC power source signal, a second terminal configured to be grounded, and a third terminal configured to output the DC power source signal having the preset level; a reference voltage generator configured to generate reference voltages comprising different voltage levels based on the DC power source signal having the preset level output from the converter; switching elements configured to selectively force nodes between the LEDs to be grounded; comparators configured to turn-on one of the switching elements based on a voltage level of the full-wave rectified AC power source signal; and resistors connected in series between the switching elements and ground. 10. The LED driver circuit of claim 9 , wherein the converter comprises a junction gate field-effect transistor (JFET). 11. The LED driver circuit of claim 10 , wherein the JFET comprises: a drain being the first terminal configured to receive the full-wave rectified AC power source signal; a gate being the second terminal configured to be grounded; and a source being the third terminal configured to output the DC power source signal having the preset level, wherein the reference voltage generator is further configured to receive the DC power source signal having the preset level. 12. The LED driver circuit of claim 9 , wherein the switching elements comprise n-channel metal-oxide semiconductor field-effect transistors (NMOSFETs). 13. The LED driver circuit of claim 9 , wherein: the LED array comprises a first LED comprising an anode configured to receive the full-wave rectified AC power source signal, and a second LED comprising an anode operatively connected to a cathode of the first LED; and the switching elements comprise a first switching element comprising an end commonly connected to the cathode of the first LED and the anode of the second LED, and another end grounded through a resistor, and a second switching element comprising an end connected to a cathode of the second LED and another end grounded through the resistor. 14. The LED driver circuit of claim 13 , wherein the reference voltage generator is further configured to: generate a first reference voltage; and generate a second reference voltage having a higher voltage level than the first reference voltage. 15. The LED driver circuit of claim 14 , wherein the comparators comprise: a first comparator configured to turn-on the first switching element in response to the first reference voltage being higher than a voltage of the other end of the first switching element; and a second comparator configured to turn-off the second switching element. 16. The LED driver circuit of claim 9 , wherein the comparators are configured to turn-on only one of the switching elements based on the voltage level of the full-wave rectified AC power source signal. 17. A light apparatus using light-emitting diodes (LEDs), the light apparatus comprising: a rectifier circuit configured to full-wave rectify a received alternating current (AC) power source signal and supply the full-wave rectified AC power source signal to an LED array; a converter configured to convert the full-wave rectified AC power source signal into a direct current (DC) power source signal having a preset level, wherein at least one terminal of the converter is directly connected to a ground; a reference voltage generator configured to generate reference voltages having different voltage levels based on the DC power source signal from the converter; and a control circuit configured to selectively light the LEDs based on a voltage level of the full-wave rectified AC power source signal by selectively forcing nodes between the LEDs to be grounded, and by turning-on one switching element based on the voltage level of the full-wave rectified AC power source signal, wher