Series connection of two light emitting diodes through semiconductor manufacture process
First Claim
1. A semiconductor structure of series connection of two light emitting diodes, comprising:
- a first light emitting diode having stack layers from a bottom thereof including a thermal conductive substrate, an nonconductive protective layer, a metal adhering layer, a mirror protective layer, an ohmic contact epi-layer, a upper cladding layer, an active layer, and a lower cladding layer, further, a first ohmic contact metal electrode formed on an interface between said mirror protective layer and said ohmic contact epi-layer and buried in said mirror protective layer, a second ohmic contact metal electrode formed on said lower cladding layer;
a second light emitting diode having the same stack layers as said first light emitting diode;
still wherein both of said light emitting diodes, respectively, have a first trench formed therein which has a bottom exposed said ohmic contact epi-layer and said trench bottom contains an electrical conductive channel connecting said first ohmic contact metal electrode;
an isolation trench formed at a border of said first trench and with a bottom exposed said nonconductive protective layer to isolate said first light emitting diode and said second light emitting diode;
a dielectric layer formed to fill in said isolation trench and extend to a sidewall of said first trench, said sidewall being a boundary between said first and said second light emitting diode; and
a metal bonding layer conductive trace formed on said dielectric layer and extended to connect said second first ohmic contact metal electrode of said first light emitting diode and said second ohmic contact metal electrode of said second light emitting diode.
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Abstract
A semiconductor structure with two light emitting diodes in series connection is disclosed. The semiconductor structure comprises two light emitting diodes (LEDs) having the same stack layers and abutting each other but spaced by an isolation trench. The stack layers from a bottom thereof include a thermal conductive substrate, an nonconductive protective layer, a metal adhering layer, a mirror protective layer, a p-type ohmic contact epi-layer, a upper cladding layer, an active layer, and a lower cladding layer. Two p-type ohmic contact metal electrodes for two LEDs are formed on an interface between the mirror protective layer and the ohmic contact epi-layer and buried in the mirror protective layer. The stack layers have first trenches formed therein which exposes the upper cladding layer and electrical connecting channels to connect p-type electrodes. The isolation trench is formed by patterning the exposed upper cladding layer until further exposing the nonconductive protective layer. Two n-type electrodes are formed on the lower cladding layer of two LEDs. A dielectric layer is deposited to fill the isolation trench and covered a sidewall of the first trench so that it can electrically isolate layers of the stack layers of the second LED while a metal connection trace formed thereon to connect the p-type ohmic contact electrode of the first LED and n-type of ohmic electrode of second LED.
7 Citations
19 Claims
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1. A semiconductor structure of series connection of two light emitting diodes, comprising:
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a first light emitting diode having stack layers from a bottom thereof including a thermal conductive substrate, an nonconductive protective layer, a metal adhering layer, a mirror protective layer, an ohmic contact epi-layer, a upper cladding layer, an active layer, and a lower cladding layer, further, a first ohmic contact metal electrode formed on an interface between said mirror protective layer and said ohmic contact epi-layer and buried in said mirror protective layer, a second ohmic contact metal electrode formed on said lower cladding layer; a second light emitting diode having the same stack layers as said first light emitting diode;
still wherein both of said light emitting diodes, respectively, have a first trench formed therein which has a bottom exposed said ohmic contact epi-layer and said trench bottom contains an electrical conductive channel connecting said first ohmic contact metal electrode;an isolation trench formed at a border of said first trench and with a bottom exposed said nonconductive protective layer to isolate said first light emitting diode and said second light emitting diode; a dielectric layer formed to fill in said isolation trench and extend to a sidewall of said first trench, said sidewall being a boundary between said first and said second light emitting diode; and a metal bonding layer conductive trace formed on said dielectric layer and extended to connect said second first ohmic contact metal electrode of said first light emitting diode and said second ohmic contact metal electrode of said second light emitting diode. - View Dependent Claims (2, 3, 4, 5)
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6. A semiconductor structure, comprising:
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a substrate; a first light emitting diode on the substrate, the first light emitting diode having a first bonding pad and a second bonding pad formed on the substrate; a second light emitting diode having a third bonding pad and a fourth bonding pad formed on the substrate, wherein one of the first bonding pad or the second bonding pad is electrically connected to one of the third bonding pad or the fourth bonding pad through a conductive trace; an adhering layer under the first light emitting diode and the second light emitting diode and attaching the first light emitting diode and the second light emitting diode to the substrate; and a nonconductive protective layer formed between the substrate and the two light emitting diodes. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A semiconductor structure, comprising:
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a substrate; a first light emitting diode on the substrate, comprising a first n-type layer, a first active layer, and a first p-type layer; a second light emitting diode on the substrate, comprising a second n-type layer, a second active layer, and a second p-type layer; an adhering layer for connecting the two light emitting diodes and the substrate; a nonconductive protective layer between the substrate and the two light emitting diodes; and a conductive trace electrically connecting one of the first n-type layer and the first p-type layer of the first light emitting diode to one of the second n-type layer and the second p-type layer of the second light emitting diode. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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Specification