Manufacturing a light source module may include mounting light emitting devices on substrates on an upper surface of a carrier, mounting optical devices to cover the light emitting devices, and inspecting the light emitting devices and the optical devices based on selectively capturing images thereo
Manufacturing a light source module may include mounting light emitting devices on substrates on an upper surface of a carrier, mounting optical devices to cover the light emitting devices, and inspecting the light emitting devices and the optical devices based on selectively capturing images thereof. Images may be captured based on controlling a light source module scanner assembly on the carrier. The substrates may extend in a first direction and may be spaced apart in a second direction. Controlling the light source module scanner assembly may include moving the light source module scanner assembly along a selected direction to position the light source module scanner assembly on at least one of the light emitting devices and the optical devices. The direction may be selected based on the quantity of substrates and the quantity of light emitting devices and optical devices on each of the substrates.
대표청구항▼
1. A method of manufacturing a light source module, the method comprising: disposing a plurality of substrates on an upper surface of a carrier, wherein the plurality of substrates respectively extend in parallel and in a first direction, the plurality of substrates are spaced apart in a second dire
1. A method of manufacturing a light source module, the method comprising: disposing a plurality of substrates on an upper surface of a carrier, wherein the plurality of substrates respectively extend in parallel and in a first direction, the plurality of substrates are spaced apart in a second direction, and the second direction is substantially perpendicular to the first direction;mounting a plurality of light emitting devices on the plurality of substrates;mounting a plurality of optical devices to cover the plurality of light emitting devices on the plurality of substrates; andselectively capturing at least one image of each of the light emitting devices and the optical devices, based on controlling an light source module scanner assembly on the upper surface of the carrier, the controlling including selectively moving the light source module scanner assembly along a selected movement direction of the first direction or the second direction to position the light source module scanner assembly on at least one of the light emitting devices and the optical devices, andcontrolling the light source module scanner assembly to capture an image of the at least one of the light emitting devices and the optical devices. 2. The method of claim 1, wherein selectively moving the light source module scanner assembly along the selected movement direction includes selecting the first direction or the second direction as the selected movement direction based on a quantity of the plurality of substrates on the carrier, anda quantity of light emitting devices and optical devices on each of the substrates; anddetermining whether to rotate the light source module scanner assembly, based on the selected movement direction. 3. The method of claim 1, wherein selectively capturing at least one image of each of the light emitting devices and the optical devices includes controlling the light source module scanner assembly to selectively capture at least one first image of each of the light emitting devices, andcontrolling the light source module scanner assembly to selectively capture at least one second image of each of the optical devices. 4. The method of claim 3, wherein selectively capturing at least one image of each of the light emitting devices and the optical devices includes controlling the light source module scanner assembly to selectively capture at least one first image of each of the light emitting devices prior to mounting the plurality of optical devices to cover the plurality of light emitting devices on the plurality of substrates; andcontrolling the light source module scanner assembly to selectively capture at least one second image of each of the optical devices subsequently to mounting the plurality of optical devices to cover the plurality of light emitting devices on the plurality of substrates. 5. The method of claim 1, wherein selectively capturing at least one image of each of the light emitting devices and the optical devices includes selectively activating the light emitting devices,capturing at least one image of each of the selectively activated light emitting devices, andcapturing at least one image of each of the optical devices on the selectively activated light emitting devices. 6. The method of claim 1, further comprising: moving the carrier in the first direction to dispose the carrier on a carrier support pedestal. 7. The method of claim 1, wherein the light source module scanner assembly includes a camera assembly, anda rotating jig connected to the camera assembly. 8. The method of claim 7, wherein the camera assembly includes an area scanning camera or a line scanning camera. 9. The method of claim 1, wherein the plurality of light emitting devices and optical devices extend substantially parallel to a longitudinal axis of the substrates. 10. The method of claim 1, wherein each of the light emitting devices includes at least one light emitting diode (LED) chip. 11. The method of claim 1, wherein the carrier includes a plurality of terminals, andthe method includes electrically coupling the plurality of substrates to separate ones of the terminals. 12. A method of manufacturing a light source module, the method comprising: selectively capturing at least one image of each of a plurality of light emitting devices on a plurality of substrates and a plurality of optical devices on the plurality of light emitting devices, based on controlling an light source module scanner assembly on an upper surface of a carrier, the plurality of substrates being on the upper surface of the carrier, wherein the plurality of substrates respectively extend in parallel and in a first direction, the plurality of substrates are spaced apart in a second direction, and the second direction is substantially perpendicular to the first direction,wherein the controlling the light source module scanner assembly includes selectively rotating the light source module scanner assembly to align the light source module scanner assembly with a selected movement direction, the selected movement direction being a selected one of the first direction or the second direction, andmoving the light source module scanner assembly along the selected movement direction to position the light source module scanner assembly on at least one of the light emitting devices and the optical devices. 13. The method of claim 12, wherein controlling the light source module scanner assembly includes selecting the selected movement direction based on a quantity of the substrates, anda quantity of the light emitting devices and the optical devices mounted on each of the substrates; anddetermining whether to rotate the light source module scanner assembly, based on the selected movement direction. 14. The method of claim 12, wherein selectively capturing at least one image of each of the light emitting devices and the optical devices includes selectively activating the light emitting devices,capturing at least one image of each of the selectively activated light emitting devices, andcapturing at least one image of each of the optical devices on the selectively activated light emitting devices. 15. The method of claim 12, wherein selectively capturing at least one image of each of the light emitting devices and the optical devices inspecting includes controlling the light source module scanner assembly to selectively capture at least one first image of each of the light emitting devices, andcontrolling the light source module scanner assembly to selectively capture at least one second image of each of the optical devices. 16. A method, comprising: selectively capturing at least one image of each of a plurality of light emitting devices based on controlling an light source module scanner assembly on the plurality of light emitting devices, the plurality of light emitting devices including a plurality of rows of light emitting devices, each row extending in a first direction, the rows being spaced apart in a second direction, the selectively capturing including selecting a movement direction, the selected movement direction being one of the first direction or the second direction, based on a quantity of the rows, anda quantity of light emitting devices included in each of the rows, andmoving the light source module scanner assembly along the selected movement direction to position the light source module scanner assembly on at least one of the light emitting devices. 17. The method of claim 16, wherein moving the light source module scanner assembly along the selected movement direction includes rotating the light source module scanner assembly to align with the selected movement direction. 18. The method of claim 16, further comprising: selectively activating each of the light emitting devices according to an activation sequence; andmoving the light source module scanner assembly according to the activation sequence to capture at least one image of each of the selectively activated light emitting devices. 19. The method of claim 16, further comprising: determining whether at least one light emitting device is defective based on processing the at least one captured image, wherein determining whether at least one light emitting device is defective includes determining, whether the at least one light emitting device is at least one of deactivated, andmounted in a tilted state. 20. The method of claim 16, further comprising: disposing a plurality of substrates on an upper surface of a carrier, wherein the plurality of substrates respectively extend in parallel and in a first direction, the plurality of substrates are spaced apart in a second direction, and the second direction is substantially perpendicular to the first direction;mounting the plurality of light emitting devices on the plurality of substrates; andmoving the carrier in the first direction to dispose the carrier on a carrier support pedestal.
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