Method of mounting a lens on a light emitting diode
First Claim
1. A lens mounting method for mounting a lens on a light emitting diode chip having a substrate, epitaxial layers grown on the substrate, a pn-junction made in the epitaxial layers, a confined emanating region formed by the pn-junction, a front surface of the epitaxial layers and a main flat surface of the substrate, and being bonded with the front surface down on a package comprising the steps of:
- placing the package on an XY-stage which can move in a horizontal XY-plane;
replenishing a driving current to the device chip;
letting the device chip emit light beams from the emanating region out of the main surface;
observing the emanating region by a camera which can displace in a vertical Z-direction;
finding out the center of the emanating region by an intensity projection method and a gravity measurement method;
harmonizing the center of the emanating region with the center of the camera by moving the XY-stage in the XY-plane;
displacing the XY-stage by a predetermined distance in a predetermined direction to a spot just below a dispenser which can move in Z-direction;
sinking the dispenser till a bottom tip of the dispenser comes into contact with the device chip;
supplying a dose of ultraviolet hardening resin to the chip from the dispenser by contacting the dispenser with the chip;
lifting the dispenser up;
displacing the XY-stage by a predetermined distance in a predetermined direction to a spot Just beneath a vacuum collet holding a lens which can move in Z-direction;
lowering the vacuum collet till the lens comes into contact with the resin and the main surface of the light emitting device chip;
pushing the lens against the chip by the vacuum collet;
irradiating the ultraviolet hardening resin with ultraviolet rays;
fixing the lens on the main surface of the chip by stiffening the resin; and
lifting up the vacuum collet from the lens.
1 Assignment
0 Petitions
Accused Products
Abstract
A rear surface emission type light emitting diode emits light beams produced at a narrow emanating region out of the rear surface of the substrate. Preferably a device chip should be directly equipped with a lens on the rear surface. A plurality of light emitting devices with a package are laid on an XY-stage which can move in an XY-plane. A camera, a dispenser and a vacuum collet can transfer in Z-direction. The distances and the directions among the camera, the dispenser and the collet are predetermined values. The chip is actually examined by letting it emit light beams from the emanating region. The light is observed by the camera to obtain light power distribution on individual pixels. From the light power, the center of the emanating region is determined. The XY-stage is displaced till the center of the emanating region coincides with the center of the camera. Then the XY-stage is moved by the predetermined distance to send the chip just beneath the dispenser. The dispenser comes into contact with the chip and supplies ultraviolet resin to the chip. The XY-stage is again displaced by the predetermined distance to feed the chip below the vacuum collet holding a lens. The collet brings the lens in the resin on the surface till the lens touches the surface. Ultraviolet rays are cast on the ultraviolet hardening resin to stiffen the resin.
35 Citations
11 Claims
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1. A lens mounting method for mounting a lens on a light emitting diode chip having a substrate, epitaxial layers grown on the substrate, a pn-junction made in the epitaxial layers, a confined emanating region formed by the pn-junction, a front surface of the epitaxial layers and a main flat surface of the substrate, and being bonded with the front surface down on a package comprising the steps of:
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placing the package on an XY-stage which can move in a horizontal XY-plane; replenishing a driving current to the device chip; letting the device chip emit light beams from the emanating region out of the main surface; observing the emanating region by a camera which can displace in a vertical Z-direction; finding out the center of the emanating region by an intensity projection method and a gravity measurement method; harmonizing the center of the emanating region with the center of the camera by moving the XY-stage in the XY-plane; displacing the XY-stage by a predetermined distance in a predetermined direction to a spot just below a dispenser which can move in Z-direction; sinking the dispenser till a bottom tip of the dispenser comes into contact with the device chip; supplying a dose of ultraviolet hardening resin to the chip from the dispenser by contacting the dispenser with the chip; lifting the dispenser up; displacing the XY-stage by a predetermined distance in a predetermined direction to a spot Just beneath a vacuum collet holding a lens which can move in Z-direction; lowering the vacuum collet till the lens comes into contact with the resin and the main surface of the light emitting device chip; pushing the lens against the chip by the vacuum collet; irradiating the ultraviolet hardening resin with ultraviolet rays; fixing the lens on the main surface of the chip by stiffening the resin; and lifting up the vacuum collet from the lens. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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Specification
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- Resources
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Current AssigneeSumitomo Electric Industries Limited (Sumitomo Corporation)
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Original AssigneeSumitomo Electric Industries Limited (Sumitomo Corporation)
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InventorsNishikawa, Masayuki, Murakami, Hiroichi, Ishii, Hiroyuki, Kamakura, Mitsutoshi
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Primary Examiner(s)Simmons, David A.
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Assistant Examiner(s)HELMER, STEVEN JAMES
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Application NumberUS08/250,625Time in Patent Office914 DaysField of Search156/272.2, 156/275.5, 156/275.7, 156/378, 156/379, 156/64, 156/273.9, 156/379.8, 362/800, 437/127, 382/288, 382/272, 382/181, 382/192, 382/194US Class Current156/275.5CPC Class CodesH01L 33/52 EncapsulationsH01L 33/58 Optical field-shaping elementsY10S 362/80 Light emitting diode
