A light emitting device package includes a cell array including a plurality of semiconductor light emitting units, and having a first surface and a second surface opposite the first surface, each of the plurality of semiconductor light emitting units having a first conductive semiconductor layer, an
A light emitting device package includes a cell array including a plurality of semiconductor light emitting units, and having a first surface and a second surface opposite the first surface, each of the plurality of semiconductor light emitting units having a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer stacked on each other. The light emitting device package may further include a plurality of wavelength conversion units disposed on the first surface of the cell array to correspond to the plurality of semiconductor light emitting units, respectively, each configured to convert a wavelength of light, emitted by a respective one of the plurality of semiconductor light emitting units, into a different wavelength of light, and a partition structure disposed in a space between the plurality of wavelength conversion units, and a plurality of switching units spaced apart from the plurality of wavelength conversion units within the partition structure, and electrically connected to the plurality of semiconductor light emitting units.
대표청구항▼
1. A light emitting device package comprising: a cell array, including a plurality of semiconductor light emitting units, and having a first surface and a second surface opposite the first surface, each of the plurality of semiconductor light emitting units including a first conductive semiconductor
1. A light emitting device package comprising: a cell array, including a plurality of semiconductor light emitting units, and having a first surface and a second surface opposite the first surface, each of the plurality of semiconductor light emitting units including a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer stacked on each other;a plurality of wavelength conversion units disposed on the first surface of the cell array to correspond to the plurality of semiconductor light emitting units, respectively, each configured to convert a wavelength of light, emitted by a respective one of the plurality of semiconductor light emitting units, into a different wavelength of light;a partition structure disposed in a space between the plurality of wavelength conversion units so as to separate the plurality of wavelength conversion units from each other; anda plurality of switching units spaced apart from the plurality of wavelength conversion units within the partition structure, and electrically connected to the plurality of semiconductor light emitting units so as to selectively drive the plurality of semiconductor light emitting units. 2. The light emitting device package of claim 1, wherein each of the plurality of switching units includes a field effect transistor (FET), and the FET is formed by doping a region of the partition structure, and includes: a source region and a drain region spaced apart from each other; a source electrode and a drain electrode electrically connected to the source region and the drain region, respectively; a gate insulating layer disposed on the source region and the drain region; and a gate electrode disposed on the gate insulating layer. 3. The light emitting device package of claim 2, wherein the FET is an N-channel metal-oxide semiconductor field effect transistor (MOSFET). 4. The light emitting device package of claim 2, wherein each of the plurality of semiconductor light emitting units further includes a first electrode, and a second electrode connected to the first conductive semiconductor layer and the second conductive semiconductor layer, respectively, and the second electrode extends to the source electrode of each of the plurality of switching units to connect to the source electrode or extends to the drain electrode of each of the plurality of switching units to connect to the drain electrode. 5. The light emitting device package of claim 4, wherein the second electrode and the source electrode include materials having different compositions. 6. The light emitting device package of claim 2, wherein the cell array further includes a molding unit covering the plurality of semiconductor light emitting units. 7. The light emitting device package of claim 6, further comprising a space between the molding unit and the plurality of semiconductor light emitting units, and an insulating layer disposed in the space. 8. The light emitting device package of claim 7, wherein the insulating layer includes a material having the same composition as a composition included in the gate insulating layer. 9. The light emitting device package of claim 1, wherein each of the plurality of switching units has a region contacting the first surface of the cell array. 10. The light emitting device package of claim 1, wherein the plurality of semiconductor light emitting units are arranged in a row that is parallel with respect to the first surface. 11. The light emitting device package of claim 1, wherein the partition structure is a substrate for growth including silicon (Si). 12. The light emitting device package of claim 1, wherein the active layer of each of the plurality of semiconductor light emitting units emits ultraviolet light, and each of the plurality of wavelength conversion units converts a wavelength of ultraviolet light into a wavelength of one of red, green, or blue light. 13. The light emitting device package of claim 1, wherein the active layer of each of the plurality of semiconductor light emitting units emits white light, and each of the plurality of wavelength conversion units converts a wavelength of white light into a wavelength of one of red, green, or blue light. 14. The light emitting device package of claim 1, wherein the active layer of each of the plurality of semiconductor light emitting units emits blue light, and each of the plurality of wavelength conversion units converts a wavelength of blue light into a wavelength of one of red or green light. 15. A light emitting device package comprising: a substrate for growth having a first plane and a second plane opposing the first plane;a plurality of semiconductor light emitting units disposed on the first plane of the substrate for growth to be spaced apart from each other, and each having a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer;a plurality of wavelength conversion units contacting the plurality of semiconductor light emitting units, respectively, and spaced apart from each other to have a portion of the substrate for growth therebetween, each configured to convert a wavelength of light, emitted by a respective one of the plurality of semiconductor light emitting units, into a different wavelength of light; anda plurality of switching units disposed in the substrate for growth and on the first plane of the substrate for growth to be spaced apart from the plurality of semiconductor light emitting units, and electrically connected to the plurality of semiconductor light emitting units so as to selectively drive the plurality of semiconductor light emitting units. 16. The light emitting device package of claim 15, wherein the plurality of wavelength conversion units fill through holes connecting the first plane of the substrate for growth to the second plane thereof. 17. The light emitting device package of claim 15, wherein each of the plurality of switching units includes an FET, the FET is formed by doping a region of the substrate for growth, and includes: a source region and a drain region spaced apart from each other; a source electrode and a drain electrode electrically connected to the source region and the drain region, respectively; a gate insulating layer disposed on the source region and the drain region; and a gate electrode disposed on the gate insulating layer, andeach of the plurality of semiconductor light emitting units further includes a first electrode and a second electrode connected to the first conductive semiconductor layer and the second conductive semiconductor layer, respectively. 18. The light emitting device package of claim 17, further comprising a molding unit covering the plurality of semiconductor light emitting units and the plurality of switching units, wherein the molding unit allows a first through electrode, a second through electrode, and a third through electrode, connected to the drain electrode, the gate electrode, and the first electrode, to be disposed in a thickness direction of the molding unit. 19. The light emitting device package of claim 17, wherein the gate insulating layer is disposed on a surface of the substrate for growth. 20. A light emitting device package comprising: a cell array, including a plurality of semiconductor light emitting units, each semiconductor light emitting unit having a first surface at a first vertical height and a second surface opposite the first surface at a second vertical height, and each semiconductor light emitting unit including a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer stacked on each other;a plurality of wavelength conversion units disposed respectively on the plurality of semiconductor light emitting units, each wavelength conversion unit having a first surface at the first vertical height and a second surface at a third vertical height, wherein the first vertical height is between the second vertical height and the third vertical height, each wavelength conversion unit configured to convert a wavelength of light, emitted by a respective one of the plurality of semiconductor light emitting units, into a different wavelength of light;a partition structure disposed in a space between the plurality of wavelength conversion units so as to separate the plurality of wavelength conversion units from each other, the partition structure extending between the first vertical height and the third vertical height; anda plurality of switching units spaced apart from the plurality of wavelength conversion units within the partition structure, and electrically connected to the plurality of semiconductor light emitting units so as to selectively drive the plurality of semiconductor light emitting units, each switching unit disposed between the first vertical height and the third vertical height.
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