Patent application number | Description | Published |
20100230698 | Optoelectronic Semiconductor Body - An optoelectronic semiconductor body includes a substrate with a front side for emitting electromagnetic radiation. The optoelectronic semiconductor body has a semiconductor layer sequence that is arranged on a rear side of the substrate and has an active layer suitable for generating the electromagnetic radiation. The optoelectronic semiconductor body also includes first and second electrical connection layers that are arranged on a first surface of the semiconductor body that faces away from the substrate. | 09-16-2010 |
20110049555 | Optoelectronic Semiconductor Chip and Method for Producing Same - An optoelectronic semiconductor chip has a semiconductor layer sequence having an active layer that generates radiation between a layer of a first conductivity type and a layer of a second conductivity type. The layer of the first conductivity type is adjacent to a front side of the semiconductor layer sequence. The semiconductor layer sequence contains at least one cutout extending from a rear side, lying opposite the front side, of the semiconductor layer sequence through the active layer to the layer of the first conductivity type. The layer of the first conductivity type is electrically connected through the cutout by means of a first electrical connection layer which covers the rear side of the semiconductor layer sequence at least in places. | 03-03-2011 |
20110101390 | Monolithic, Optoelectronic Semiconductor Body and Method for the Production Thereof - An optoelectronic semiconductor body comprises a semiconductor layer sequence which is subdivided into at least two electrically isolated subsegments. The semiconductor layer sequence has an active layer in each subarea. Furthermore, at least three electrical contact pads are provided. A first line level makes contact with a first of the at least two subsegments and with the first contact pad. A second line level makes contact with the second of the at least two subsegments and with a second contact pad. A third line level connects the two subsegments to one another and makes contact with the third contact pad. Furthermore, the line levels are each arranged opposite a first main face, wherein the first main face is intended to emit electromagnetic radiation that is produced. | 05-05-2011 |
20110104836 | METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT AND OPTOELECTRONIC COMPONENT - In a method for producing an optoelectronic component, a growth substrate having a first coefficient of thermal expansion is provided. A multilayered buffer layer sequence is applied thereto. A layer sequence having a second coefficient of thermal expansion—different than the first coefficient of thermal expansion—is subsequently deposited epitaxially. It furthermore comprises an active layer for emitting electromagnetic radiation. A carrier substrate is subsequently applied on the epitaxially deposited layer sequence. The growth substrate is removed and the multilayered buffer layer sequence is structured in order to increase a coupling-out of electromagnetic radiation. Finally, contact is made with the epitaxially deposited layer sequence. | 05-05-2011 |
20110114988 | Led Chip - A light-emitting diode chip ( | 05-19-2011 |
20110241031 | OPTOELECTRONIC PROJECTION DEVICE - An optoelectronic projection device which generates a predefined image during operation, including a semiconductor body having an active layer that generates electromagnetic radiation and a radiation exit side and is an imaging element of the projection device, wherein, to electrically contact the semiconductor body, a first contact layer and a second contact layer are arranged at a rear side of the semiconductor body, the rear side lying opposite the radiation exit side, and are electrically insulated from one another by a separating layer. | 10-06-2011 |
20110260205 | RADIATION-EMITTING SEMICONDUCTOR CHIP - A radiation-emitting semiconductor chip includes a carrier and a semiconductor body having a semiconductor layer sequence, wherein an emission region and a protective diode region are formed in the semiconductor body having the semiconductor layer sequence; the semiconductor layer sequence includes an active region that generates radiation, the active region being arranged between a first semiconductor layer and a second semiconductor layer; the first semiconductor layer is arranged on a side of the active region which faces away from the carrier; the emission region has a recess extending through the active region; the first semiconductor layer in the emission region is electrically conductively connected to a first connection layer, wherein the first connection layer extends in the recess from the first semiconductor layer toward the carrier; and the first connection layer in the protective diode region is electrically conductively connected to the second semiconductor layer. | 10-27-2011 |
20110272728 | Radiation-Emitting Semiconductor Chip - A radiation-emitting semiconductor chip ( | 11-10-2011 |
20120018763 | RADIATION-EMITTING SEMICONDUCTOR CHIP AND METHOD FOR PRODUCING A RADIATION-EMITTING SEMICONDUCTOR CHIP - A radiation-emitting semiconductor chip includes: a carrier and a semiconductor body with a semiconductor layer sequence including an active region that generates radiation, a first semiconductor layer and a second semiconductor layer; wherein the active region is arranged between the first semiconductor layer and the second semiconductor layer; the first semiconductor layer is arranged on a side of the active region which faces away from the carrier; the semiconductor body comprises at least one recess which extends through the active region; the first semiconductor layer is electrically conductively connected to a first connection layer extending in the recess from the first semiconductor layer in a direction of the carrier; and the first connection layer is electrically connected to the second semiconductor layer via a protective diode. | 01-26-2012 |
20120086026 | Optoelectronic Semiconductor Body and Method for the Production Thereof - An optoelectronic semiconductor body comprises a substantially planar semiconductor layer sequence having a first and a second main side, which has an active layer suitable for generating electromagnetic radiation. Furthermore, the semiconductor body comprises at least one trench that severs the active layer of the semiconductor layer sequence and serves for subdividing the active of the semiconductor layer sequence into at least two electrically insulated active partial layers. A first and second connection layer arranged on a second main side serve for making contact with the active partial layers. In this case, the first and second connection layers for making contact with the at least two active partial layers are electrically conductively connected to one another in such a way that the active partial layers form a series circuit. | 04-12-2012 |
20120322186 | METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT AND OPTOELECTRONIC COMPONENT - In a method for producing an optoelectronic component, a growth substrate having a first coefficient of thermal expansion is provided. A multilayered buffer layer sequence is applied thereto. A layer sequence having a second coefficient of thermal expansion—different than the first coefficient of thermal expansion—is subsequently deposited epitaxially. It furthermore comprises an active layer for emitting electromagnetic radiation. A carrier substrate is subsequently applied on the epitaxially deposited layer sequence. The growth substrate is removed and the multilayered buffer layer sequence is structured in order to increase a coupling-out of electromagnetic radiation. Finally, contact is made with the epitaxially deposited layer sequence. | 12-20-2012 |
20150236070 | RADIATION-EMITTING SEMICONDUCTOR CHIP - A radiation-emitting semiconductor chip includes a carrier and a semiconductor body having a semiconductor layer sequence, wherein an emission region and a protective diode region are formed in the semiconductor body having the semiconductor layer sequence; the semiconductor layer sequence includes an active region that generates radiation and is arranged between a first semiconductor layer and a second semiconductor layer; the first semiconductor layer is arranged on a side of the active region facing away from the carrier; the emission region has a recess extending through the active region; the first semiconductor layer, in the emission region, electrically conductively connects to a first connection layer, wherein the first connection layer extends in the recess from the first semiconductor layer toward the carrier; the second semiconductor layer, in the emission region, electrically conductively connects to a second connection layer. | 08-20-2015 |
Patent application number | Description | Published |
20120043572 | Optoelectronic Semiconductor Body - An optoelectronic semiconductor body with a semiconductor layer sequence ( | 02-23-2012 |
20130146910 | LIGHT EMITTING DIODE CHIP - A light emitting diode chip includes a semiconductor layer sequence, the semiconductor layer sequence having an active layer that generates electromagnetic radiation, wherein the light emitting diode chip has a radiation exit area at a front side. At a rear side lying opposite the radiation exit area, the light emitting diode chip has, at least in regions, a mirror layer containing silver. A functional layer that reduces corrosion and/or improves adhesion of the mirror layer is arranged on the mirror layer, wherein a material from which the functional layer is formed is also distributed in the entire mirror layer. The material of the functional layer has a concentration gradient in the mirror layer, wherein the concentration of the material of the functional layer in the mirror layer decreases proceeding from the functional layer in the direction toward the semiconductor layer sequence. | 06-13-2013 |
20130221390 | LIGHT-EMITTING DIODE CHIP - A light-emitting diode chip having a semiconductor layer sequence having an active layer that generates electromagnetic radiation, wherein the light-emitting diode chip has, on a front side, a radiation exit surface, at least regions of the light-emitting diode chip have, on a rear side opposite the radiation exit surface, a mirror layer containing silver, a protective layer containing Pt is disposed on the mirror layer, and the protective layer has a structure that covers the mirror layer only in sub-regions. | 08-29-2013 |
20130221392 | Optoelectronic Semiconductor Body and Method for Producing the Same - An optoelectronic semiconductor body includes a semiconductor layer sequence which has an active layer suitable for generating electromagnetic radiation, and a first and a second electrical connecting layer. The semiconductor body is provided for emitting electromagnetic radiation from a front side. The first and the second electrical connecting layer are arranged at a rear side opposite the front side and are electrically insulated from one another by means of a separating layer. The first electrical connecting layer, the second electrical connecting layer and the separating layer laterally overlap and a partial region of the second electrical connecting layer extends from the rear side through a breakthrough in the active layer in the direction of the front side. Furthermore, a method for producing such an optoelectronic semiconductor body is specified. | 08-29-2013 |
20130228819 | Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip includes a semiconductor layer sequence and a carrier substrate. A first and a second electrical contact layer are arranged at least in regions between the carrier substrate and the semiconductor layer sequence and are electrically insulated from one another by an electrically insulating layer. A mirror layer is arranged between the semiconductor layer sequence and the carrier substrate. The minor layer adjoins partial regions of the first electrical contact layer and partial regions of the electrically insulating layer. The partial regions of the electrically insulating layer which adjoin the mirror layer are covered by the second electrical contact layer in such a way that at no point do they adjoin a surrounding medium of the optoelectronic semiconductor chip. | 09-05-2013 |
20130313604 | Method for Producing a Light-Emitting Semiconductor Component and Light-Emitting Semiconductor Component - A method for producing a light-emitting semiconductor component is specified. A light-emitting semiconductor chip is arranged on a mounting area of a carrier. The semiconductor chip is electrically connected to electrical contact regions on the mounting area. An encapsulation layer is applied to the semiconductor chip by means of atomic layer deposition. All surfaces of the semiconductor chip which are free after mounting and electrical connection are covered with an encapsulation layer. Furthermore, a light-emitting semiconductor component is specified. | 11-28-2013 |
20140021507 | Optoelectronic Semiconductor Chip and Method for Producing Optoelectronic Semiconductor Chips - An optoelectronic semiconductor chip has a semiconductor body and a substrate on which the semiconductor body is disposed. The semiconductor body has an active region disposed between a first semiconductor layer of a first conductor type and a second semiconductor layer of a second conductor type. The first semiconductor layer is disposed on the side of the active region facing the substrate. The first semiconductor layer is electrically conductively connected to a first termination layer that is disposed between the substrate and the semiconductor body. An encapsulation layer is disposed between the first termination layer and the substrate and, in plan view of the semiconductor chip, projects at least in some regions over a side face which delimits the semiconductor body. | 01-23-2014 |
20140027805 | Optoelectronic Semiconductor Chip and Method for Producing an Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip has an epitaxial layer sequence. A doped epitaxial layer of the epitaxial layer sequence has a first region and a second region and a protected structure. The first region of the doped epitaxial layer completely covers the protected structure. The outer surface of the doped epitaxial layer has a first roughness in the first region and a second roughness in the second region. | 01-30-2014 |
20140197435 | Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip includes a semiconductor body of semiconductor material, a p-contact layer and an n-contact layer. The semiconductor body includes an active layer intended for generating radiation. The semiconductor body includes a p-side and an n-side, between which the active layer is arranged. The p-contact layer is intended for electrical contacting the p-side. The n-contact layer is intended for electrical contacting the n-side | 07-17-2014 |
20140203413 | Composite Substrate, Semiconductor Chip Having a Composite Substrate and Method for Producing Composite Substrates and Semiconductor Chips - A composite substrate has a carrier and a utility layer. The utility layer is attached to the carrier by means of a dielectric bonding layer and the carrier contains a radiation conversion material. Other embodiments relate to a semiconductor chip having such a composite substrate, a method for producing a composite substrate and a method for producing a semiconductor chip with a composite substrate. | 07-24-2014 |
20140319566 | LIGHT EMITTING DIODE CHIP - A light emitting diode chip includes a semiconductor layer sequence having an active layer that generates electromagnetic radiation, wherein the light emitting diode chip has a radiation exit area at a front side, the light emitting diode chip has a mirror layer at least in regions at a rear side situated opposite the radiation exit area, said mirror layer containing silver, a protective layer is arranged on the mirror layer, and the protective layer comprises a transparent conductive oxide. | 10-30-2014 |
20140342484 | METHOD FOR PRODUCING AN OPTOELECTRONIC SEMICONDUCTOR CHIP AND CORRESPONDING OPTOELECTRONIC SEMICONDUCTOR CHIP - A method of producing a semiconductor chip includes providing a silicon growth substrate, producing a III nitride buffer layer on the growth substrate by sputtering, and growing a III nitride semiconductor layer sequence having an active layer above the buffer layer. | 11-20-2014 |
20140346541 | METHOD FOR PRODUCING AN OPTOELECTRONIC SEMICONDUCTOR CHIP AND OPTOELECTRONIC SEMICONDUCTOR CHIP - A method of producing an optoelectronic semiconductor chip includes providing a growth substrate, producing a III nitride nucleation layer on the growth substrate by sputtering, wherein a material of the growth substrate differs from a material of the nucleation layer, and growing a III nitride semiconductor layer sequence having an active layer onto the nucleation layer. | 11-27-2014 |
20150044798 | Method for Producing an Optoelectronic Component - A method for producing an optoelectronic component is provided. A transfer layer, containing In | 02-12-2015 |
20150287883 | Composite Substrate, Semiconductor Chip Having a Composite Substrate and Method for Producing Composite Substrates and Semiconductor Chips - A composite substrate has a carrier and a utility layer. The utility layer is attached to the carrier by means of a dielectric bonding layer and the carrier contains a radiation conversion material. Other embodiments relate to a semiconductor chip having such a composite substrate, a method for producing a composite substrate and a method for producing a semiconductor chip with a composite substrate. | 10-08-2015 |
20150372203 | Optoelectronic Semiconductor Chip Encapsulated with an ALD Layer and Corresponding Method for Production - An optoelectronic semiconductor chip includes a semiconductor body with an active region provided for generating electromagnetic radiation, a first mirror layer provided for reflecting the electromagnetic radiation, a first encapsulation layer formed with an electrically insulating material, and a carrier provided for mechanically supporting the first encapsulation layer, the first mirror layer and the semiconductor body. The first mirror layer is arranged between the carrier and the semiconductor body. The first encapsulation layer is arranged between the carrier and the first mirror layer. The first encapsulation layer is an ALD layer. | 12-24-2015 |
20160005930 | OPTOELECTRONIC SEMICONDUCTOR CHIP ENCAPSULATED WITH AN ALD LAYER AND CORRESPONDING METHOD OF PRODUCTION - An optoelectronic semiconductor chip includes a semiconductor body including n-conducting and p-conducting regions, an active region generating electromagnetic radiation, a mirror layer reflecting the electromagnetic radiation, and an encapsulating layer sequence formed with an insulating material, wherein the mirror layer is arranged at an underside of the p-conducting region, the active region is arranged at a side of the p-conducting region facing away from the mirror layer, the n-conducting region is arranged at a side of the active region facing away from the p-conducting region, the encapsulation layer sequence covers the semiconductor body at the outer surface thereof in places, the encapsulation layer sequence extends at the outer surface of the semiconductor body from the active region along the p-conducting region as far as below the mirror layer, and the encapsulation layer sequence includes at least one encapsulation layer which is an ALD layer or consists of an ALD layer. | 01-07-2016 |
20160027972 | METHOD OF ENCAPSULATING AN OPTOELECTRONIC DEVICE AND LIGHT-EMITTING DIODE CHIP - A method of encapsulating an optoelectronic device includes providing a surface intended to be encapsulated, the surface containing platinum, generating reactive oxygen groups and/or reactive hydroxyl groups on the surface, and depositing a passivation layer by atomic layer deposition on the surface. | 01-28-2016 |
Patent application number | Description | Published |
20080220564 | Semiconductor module - A semiconductor module is disclosed. One embodiment provides a first semiconductor chip, a second semiconductor chip and a spacer. The first semiconductor chip has a depression at a first main surface. The spacer is applied to the first main surface and at least partly fills the depression. The second semiconductor chip is applied to the spacer. | 09-11-2008 |
20080246137 | INTEGRATED CIRCUIT DEVICE AND METHOD FOR THE PRODUCTION THEREOF - An integrated circuit device includes a semiconductor chip and a control chip at different supply potentials. A lead chip island includes an electrically conductive partial region and an insulation layer. The semiconductor chip is arranged on the electrically conductive partial region of the lead chip island and the control chip is cohesively fixed on the insulation layer. | 10-09-2008 |
20080296782 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed. One embodiment provides a device including a carrier, an electrically insulating layer applied onto the carrier, an adhesive layer applied to the electrically insulating layer. A first semiconductor chip applied to the adhesive layer. | 12-04-2008 |
20090072379 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed. One embodiment includes a carrier, a semiconductor chip attached to the carrier, a first conducting line having a first thickness and being deposited over the semiconductor chip and the carrier and a second conducting line having a second thickness and being deposited over the semiconductor chip and the carrier. The first thickness is smaller than the second thickness. | 03-19-2009 |
20090093090 | METHOD FOR PRODUCING A POWER SEMICONDUCTOR MODULE COMPRISING SURFACE-MOUNTABLE FLAT EXTERNAL CONTACTS - A method for producing a power semiconductor module having surface mountable flat external contact areas is disclosed. At least one power semiconductor chip is fixed by its rear side on a drain external contact. An insulation layer covers the top side over the side edges of the semiconductor chip as far as the inner housing plane was a leaving free the source and gate contact areas on the top side of the semiconductor chip and also was partly leaving free the top sides of the corresponding external contacts. | 04-09-2009 |
20110189821 | SEMICONDUCTOR DEVICE - A semiconductor device and method is disclosed. One embodiment provides a method comprising placing a first semiconductor chip on a carrier. After placing the first semiconductor chip on the carrier, an electrically insulating layer is deposited on the carrier. A second semiconductor chip is placed on the electrically insulating layer. | 08-04-2011 |
20150279782 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed. One embodiment includes a carrier, a semiconductor chip attached to the carrier, a first conducting line having a first thickness and being deposited over the semiconductor chip and the carrier and a second conducting line having a second thickness and being deposited over the semiconductor chip and the carrier. The first thickness is smaller than the second thickness. | 10-01-2015 |