Chungang University Industry Academic Cooperation Foundation
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
Disclosed is a LED device in which a plane of a substrate is patterned in a C2 symmetrical manner such that upper, lower, left, and right areas thereof are distinguished from each other. Further, in positioning the electrodes, one conductivity-type electrode is positioned on a center of the substrat
Disclosed is a LED device in which a plane of a substrate is patterned in a C2 symmetrical manner such that upper, lower, left, and right areas thereof are distinguished from each other. Further, in positioning the electrodes, one conductivity-type electrode is positioned on a center of the substrate, and electrodes of a conductivity-type different from that of the center electrode are positioned in an opposite manner to each other around the center electrode and are spaced from the center electrode by the same distance. Thus, even when the LED device is rotated by 180 degrees, the electrodes may match with each other. Further, disclosed are a method arranging C2 symmetrical LED devices using wave energy, and a method for fabricating a display module using the arranged C2 symmetrical LED devices. The C2 symmetrical LED device has the 180 degrees rotation symmetry. Thus, upper, lower, left, and right areas thereof are distinguished from each other, and thus, the devices may be oriented very accurately.
대표청구항▼
1. A C2 symmetrical LED (Light Emitting Diode) device comprising: a substrate;a buffer layer disposed on the substrate; andan LED light-emitting element disposed on the buffer layer,wherein the LED light-emitting element has a stack structure in which a first conductivity-type semiconductor layer; a
1. A C2 symmetrical LED (Light Emitting Diode) device comprising: a substrate;a buffer layer disposed on the substrate; andan LED light-emitting element disposed on the buffer layer,wherein the LED light-emitting element has a stack structure in which a first conductivity-type semiconductor layer; a photoactive layer; and a second conductivity-type semiconductor layer are sequentially stacked,wherein a first conductivity-type electrode is disposed on the first conductivity-type semiconductor layer, while a second conductivity-type electrode is disposed on the second conductivity-type semiconductor layer,wherein the first conductivity-type electrode is spaced apart from the second conductivity-type electrode along a direction parallel to a plane of the substrate and is constructed to surround the second conductivity-type electrode,wherein the C2 symmetrical LED device has a 180-degrees rotation symmetry,wherein the C2 symmetrical LED device has the 180-degrees rotation symmetry, such that portions of the first conductivity-type electrode are positioned in an opposite manner to each other along the direction parallel to the plane of the substrate around the second conductivity-type electrode. 2. The C2 symmetrical LED device of claim 1, wherein the substrate is a sapphire substrate. 3. The C2 symmetrical LED device of claim 1, wherein the first conductivity-type semiconductor is one of an N-type semiconductor and a P-type semiconductor, while the second conductivity-type semiconductor is the other of the N-type semiconductor and the P-type semiconductor. 4. The C2 symmetrical LED device of claim 1, wherein the C2 symmetrical LED device having the 180-degrees rotation symmetry has a parallelogram shape. 5. The C2 symmetrical LED device of claim 1, wherein the portions of the first conductivity-type electrode positioned in the opposite manner to each other around the second conductivity-type electrode are spaced from the second conductivity-type electrode by the same spacing. 6. A C2 symmetrical LED device comprising: a substrate;a buffer layer disposed on the substrate; andan LED light-emitting element disposed on the buffer layer,wherein the LED light-emitting element has a stack structure in which a first conductivity-type semiconductor layer; a photoactive layer; and a second conductivity-type semiconductor layer are sequentially stacked,wherein two first conductivity-type electrodes are disposed on the first conductivity-type semiconductor layer, while a second conductivity-type electrode is disposed on the second conductivity-type semiconductor layer,wherein the two first conductivity-type electrodes are spaced apart from the second conductivity-type electrode along a direction parallel to a plane of the substrate,wherein the C2 symmetrical LED device has a 180-degrees rotation symmetry,wherein the C2 symmetrical LED device has the 180-degrees rotation symmetry, such that the two first conductivity-type electrodes are positioned in an opposite manner to each other along the direction parallel to the plane of the substrate around the second conductivity-type electrode. 7. The C2 symmetrical LED device of claim 6, wherein the substrate is a sapphire substrate. 8. The C2 symmetrical LED device of claim 6, wherein the first conductivity-type semiconductor is one of an N-type semiconductor and a P-type semiconductor, while the second conductivity-type semiconductor is the other of the N-type semiconductor and the P-type semiconductor. 9. The C2 symmetrical LED device of claim 6, wherein the C2 symmetrical LED device having the 180-degrees rotation symmetry has a parallelogram shape. 10. The C2 symmetrical LED device of claim 6, wherein the two first conductivity-type electrode positioned in the opposite manner to each other around the second conductivity-type electrode are spaced from the second conductivity-type electrode by the same spacing. 11. A method for arranging C2 symmetrical LED devices using wave energy, the method comprising: providing a wave generator device including at least one wave generator capable of generating a sound wave;placing a transport plate on the wave generator device, wherein n×m openings have been formed in the transport plate, wherein each of n and m is an integer number equal to or greater than 1;placing a plurality of C2 symmetrical LED devices on the transport plate, wherein the plurality of C2 symmetrical LED devices are adapted to be respectively seated in the openings; andgenerating a wave using the wave generator device to allow the C2 symmetrical LED devices to be respectively seated in the openings,wherein each of the C2 symmetrical LED devices includes:a substrate;a buffer layer disposed on the substrate; andan LED light-emitting element disposed on the buffer layer,wherein the LED light-emitting element has a stack structure in which a first conductivity-type semiconductor layer; a photoactive layer; and a second conductivity-type semiconductor layer are sequentially stacked,wherein a first conductivity-type electrode is disposed on the first conductivity-type semiconductor layer, while a second conductivity-type electrode is disposed on the second conductivity-type semiconductor layer,wherein the first conductivity-type electrode is spaced apart from the second conductivity-type electrode along a direction parallel to a plane of the substrate and is constructed to surround the second conductivity-type electrode,wherein the C2 symmetrical LED device has a 180-degrees rotation symmetry,wherein the C2 symmetrical LED device has the 180-degrees rotation symmetry, such that portions of the first conductivity-type electrode are positioned in an opposite manner to each other along the direction parallel to the plane of the substrate around the second conductivity-type electrode. 12. The method of claim 11, wherein a shape of each of the opening has a shape identical to a shape of each of the C2 symmetrical LED devices such that each C2 symmetrical LED device is seated in each opening. 13. The method of claim 11, wherein the n×m openings are arranged so as to be spaced from each other by the same spacing. 14. The method of claim 11, wherein the opening is a through-opening extending through the transport plate. 15. The method of claim 14, wherein when the opening is the through-opening, a support film is disposed under the transport plate so that the C2 symmetrical LED device is seated in the opening. 16. The method of claim 11, wherein generating the wave using the wave generator device to allow the C2 symmetrical LED devices to be respectively seated in the openings includes generating the wave using the wave generator device to allow the C2 symmetrical LED devices received in fluid to be respectively seated in the openings. 17. The method of claim 16, wherein the fluid is one of acetone, alcohol or water. 18. The method of claim 11, wherein generating the wave using the wave generator device to allow the C2 symmetrical LED devices to be respectively seated in the openings includes changing a frequency of the wave generated from the wave generator device. 19-22. (canceled)
※ AI-Helper는 부적절한 답변을 할 수 있습니다.