LED lighting apparatus

What is claimed is: 1. A light emitting diode (LED) lighting apparatus comprising: a first LED light source configured to emit first white light and including: a first light emitting diode configured to emit first blue light having a peak wavelength in a range of 435 nm to 465 nm, a second light emitting diode configured to emit second blue light having a peak wavelength in a range of 465 nm to 495 nm, a first wavelength conversion material configured to be excited by the first blue light and the second blue light and to emit first light having a peak wavelength in a range of 520 nm to 560 nm, and a second wavelength conversion material configured to be excited by the first and second blue lights and to emit second light having a peak wavelength ranging from 600 nm to 645 nm; a second LED light source configured to emit a second white light and including: a third light emitting diode configured to emit third blue light having the peak wavelength in the range of 435 nm to 465 nm, a third wavelength conversion material configured to be excited by the third blue light and to emit third light having a peak wavelength in a range of 540 nm to 560 nm and having a full width at half maximum of 60 nm or less, and a fourth wavelength conversion material configured to be excited by the third blue light and to emit fourth light having a peak wavelength in a range of 620 nm to 650 nm; a tuning LED light source configured to emit tuning blue light having the peak wavelength in the range of 465 nm to 495 nm; and a driving control unit configured to control currents respectively applied to the first LED light source, the second LED light source, and the tuning LED light source to generate tuned white light. 2. The LED lighting apparatus of claim 1 , wherein the driving control unit is further configured to drive the tuning LED light source and the first LED light source to generate the tuned white light, and wherein, in a spectrum of the tuned white light, a ratio of a peak intensity of the second blue light to a peak intensity of the first blue light is in a range of 1 to 20, and a ratio of a maximum peak intensity of a band of 530 nm to 680 nm to the peak intensity of the first blue light is in a range of 0.5 to 3.5. 3. The LED lighting apparatus of claim 1 , wherein the driving control unit is further configured to drive the tuning LED light source and the second LED light source to generate the tuned white light, and wherein, in a spectrum of the tuned white light, a ratio of a peak intensity of the tuning blue light to a peak intensity of the third blue light is in a range of 0.5 to 45, and a ratio of a maximum peak intensity of a band of 530 nm to 680 nm to the peak intensity of the third blue light is in a range of 0.5 to 10.5. 4. The LED lighting apparatus of claim 1 , wherein the driving control unit is further configured to drive the first LED light source and the second LED light source to generate the tuned white light, and wherein, in a spectrum of the tuned white light, a ratio of a peak intensity SB in a band of 465 nm to 495 nm to a peak intensity in a band of 435 nm to 465 nm is in a range of 0.2 to 2.5, and a ratio of a maximum peak intensity in a range of 530 nm to 680 nm to the peak intensity in the band of 435 nm to 465 nm is in a range of 0.5 to 9. 5. The LED lighting apparatus of claim 1 , wherein the driving control unit is further configured to drive the first LED light source, the second LED light source, and the tuning LED light source to generate the tuned white light, and wherein in a spectrum of the tuned white light, a ratio of a peak intensity in a band of 465 nm to 495 nm to a peak intensity in a band of 435 nm to 465 nm is in a range of 1 to 35, and a ratio of a maximum peak intensity in a band of 530 nm to 680 nm to the peak intensity in the band of 435 nm to 465 nm is in a range of 0.5 to 9. 6. The LED lighting apparatus of claim 5 , wherein , based on an intensity of the first white light being 50 or more and a sum of the intensity of the first white light and an intensity of the second white light being 100, a melanopic/photopic (M/P) ratio of the tuned white light is 2 or more. 7. The LED lighting apparatus of claim 5 , wherein based on an intensity of the first white light being less than 50 and a sum of the intensity of the first white light and intensity of the second white light is 100, a color rendering index of the tuned white light is 80 or more . 8. A light emitting diode (LED) lighting apparatus comprising: a first LED light source configured to emit first white light and including: a first light emitting diode configured to emit first blue light having a peak wavelength in a range of 435 nm to 465 nm, a second light emitting diode configured to emit second blue light having a peak wavelength in a range of 465 nm to 495 nm, a first wavelength conversion material configured to be excited by the first and second blue lights and to emit first light having a peak wavelength in a range of 520 nm to 560 nm, and a second wavelength conversion material configured to be excited by the first and second blue lights and to emit second light having a peak wavelength in a range of 600 nm to 645 nm; a second LED light source configured to emit second white light and including: a third light emitting diode configured to emit third blue light having the peak wavelength in the range of 435 nm to 465 nm, a third wavelength conversion material configured to be excited by the third blue light and to emit third light having a peak wavelength in a range of 540 nm to 560 nm and having a full width at half maximum of 60 nm or less, and a fourth wavelength conversion material configured to be excited by the third blue light and to emit fourth light having a peak wavelength in a range of 620 nm to 650 nm; and a driving control unit configured to control currents respectively applied to the first LED light source and the second LED light source to generate tuned white light. 9. The LED lighting apparatus of claim 8 , wherein, in a spectrum of the first white light, a peak intensity of the second blue light is 50% or more as compared with a peak intensity of the first blue light, and wherein, in a band of 520 nm to 560 nm, a maximum intensity of the first white light is in a range of 50% to 160% of the peak intensity of the second blue light. 10. The LED lighting apparatus of claim 8 , wherein a correlated color temperature of the second white light is in a range of 1800K to 4200K, and wherein, in a spectrum of the second white light, an integral light intensity of 440 nm to 460 nm is in a range of 50% to 65% of an integral light intensity of 380 nm to 500 nm, and an integral light intensity of 480 nm to 500 nm is in a range of 30% or less of an integral light intensity of 540 nm to 560 nm. 11. The LED lighting apparatus of claim 8 , wherein, in a spectrum of the tuned white light, a ratio of a peak intensity in a band of 465 nm to 495 nm to a peak intensity in a band of 435 nm to 465 nm is in a range of 0.2 to 2.5, and a ratio of a maximum peak intensity in a band of 530 nm to 680 nm to the peak intensity in the band of 435 nm to 465 nm is in a range of 0.5 to 9. 12. A light emitting diode (LED) lighting apparatus comprising: an LED light source configured to emit white light having a first melanopic/photopic (M/P) ratio; a tuning LED light source configured to emit tuning blue light having a peak wavelength in a range of 465 nm to 495 nm; and a driving control unit configured to control currents respectively applied to the LED light source and the tuning LED light source to generate tuned white light having a second M/P ratio higher th