Patents Assigned to Insiava (Pty) Limited
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Patent number: 9515227Abstract: A light emitting device (10) comprises a body (12) of a semiconductor material having a first face (14) and at least one other face (16). At least one pn-junction (18) in the body is located towards the first face and is configured to be driven via contacts on the body into a light emitting mode. The other face (16) of the body is configured to transmit from the body light emitted by the at least one pn-junction (18) in the near infrared part of the spectrum and having wavelengths longer than 1 ?m.Type: GrantFiled: September 12, 2012Date of Patent: December 6, 2016Assignee: INSIAVA (PTY) LIMITEDInventors: Monuko Du Plessis, Alfons Willi Bogalecki
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Patent number: 9306113Abstract: A light emitting device comprises a body of an indirect bandgap semiconductor material. A junction region is formed between a first region in the body of a first doping kind and a second region of the body of a second doping kind of first concentration. A third region of the second doping kind of a second concentration is spaced from the junction region by the second region. The second concentration is higher than the first concentration. A terminal arrangement is connected to the body for, in use, reverse biasing the first junction region into a breakdown mode, thereby to cause emission of light. The device is configured such that a depletion region associated with the junction region reaches through the shaped region to reach the third region, before the junction enters the breakdown mode.Type: GrantFiled: June 15, 2011Date of Patent: April 5, 2016Assignee: INSIAVA (PTY) LIMITEDInventor: Monuko Du Plessis
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Patent number: 9117970Abstract: A light emitting device (10) comprises a body (11) comprising a substrate (12) of a p-type semiconductor material. The substrate has an upper surface (14) and having formed therein on one side of the upper surface and according to a bulk semi-conductor fabrication process utilizing lateral active area isolation techniques: a first n+-type island (16) to form a first junction (24) between the first island and the substrate; and a second n+-type island (18) spaced laterally from the first island (16). The substrate provides a laterally extending link (20) between the islands having an upper surface. The upper surface of the link, an upper surface of the island (16) and an upper surface of the island (18) collectively form a planar interface (21) between the body (11) and an isolation layer (19) of the device. The device comprises a terminal arrangement to apply a reverse bias to the first junction, to cause the device to emit light. The device is configured to facilitate the transmission of the emitted light.Type: GrantFiled: January 21, 2011Date of Patent: August 25, 2015Assignee: INSIAVA (PTY) LIMITEDInventor: Petrus Johannes Venter
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Patent number: 8969112Abstract: An optoelectronic device comprises a body of an indirect bandgap semiconductor material having a surface and a photon active region on one side of the surface. A light directing arrangement is formed integrally with the body on an opposite side of the surface.Type: GrantFiled: May 15, 2014Date of Patent: March 3, 2015Assignee: Insiava (Pty) LimitedInventors: Monuko Du Plessis, Ray Frederick Greyvenstein, Alfons Willi Bogalecki
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Publication number: 20140248728Abstract: An optoelectronic device comprises a body of an indirect bandgap semiconductor material having a surface and a photon active region on one side of the surface. A light directing arrangement is formed integrally with the body on an opposite side of the surface.Type: ApplicationFiled: May 15, 2014Publication date: September 4, 2014Applicant: INSIAVA (PTY) LIMITEDInventors: MONUKO DU PLESSIS, Ray Frederick Greyvenstein, Alfons Willi Bogalecki
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Publication number: 20140231678Abstract: A light emitting device (10) comprises a body (12) of a semiconductor material having a first face (14) and at least one other face (16). At least one pn-junction (18) in the body is located towards the first face and is configured to be driven via contacts on the body into a light emitting mode. The other face (16) of the body is configured to transmit from the body light emitted by the at least one pn-junction (18) in the near infrared part of the spectrum and having wavelengths longer than 1 ?m.Type: ApplicationFiled: September 12, 2012Publication date: August 21, 2014Applicant: INSIAVA (PTY) LIMITEDInventors: Monuko Du Plessis, Alfons Willi Bogalecki
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Patent number: 8759845Abstract: A light emitting device (10) comprises a body (12) of a semiconductor material. A first junction region (14) is formed in the body between a first region (12.1) of the body of a first doping kind and a second region (12.2) of the body of a second doping kind. A second junction region (16) is formed in the body between the second region (12.2) of the body and a third region (12.3) of the body of the first doping kind. A terminal arrangement (18) is connected to the body for, in use, reverse biasing the first junction region (14) into a breakdown mode and for forward biasing at least part (16.1) of the second junction region (16), to inject carriers towards the first junction region (14). The device (10) is configured so that a first depletion region (20) associated with the reverse biased first junction region (14) punches through to a second depletion region associated with the forward biased second junction region (16).Type: GrantFiled: January 21, 2009Date of Patent: June 24, 2014Assignee: Insiava (Pty) LimitedInventors: Lukas Willem Snyman, Monuko Du Plessis
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Patent number: 8729582Abstract: An optoelectronic device (20) comprises a body (14) of an indirect bandgap semiconductor material having a surface (16) and a photon active region (12) on one side of the surface. A fight directing arrangement (22) is formed integrally with the body on an opposite side of the surface.Type: GrantFiled: October 31, 2008Date of Patent: May 20, 2014Assignee: Insiava (Pty) LimitedInventors: Monuko Du Plessis, Ray Frederick Greyvenstein, Alfons Willi Bogalecki
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Patent number: 8674382Abstract: A semiconductor light emitting device (10) comprises a semiconductor structure (12) comprising a first body (14) of a first semiconductor material (in this case Ge) comprising a first region of a first doping kind (in this case n) and a second body (18) of a second semiconductor material (in this case Si) comprising a first region of a second doping kind (in this case p). The structure comprises a junction region (15) comprising a first heterojunction (16) formed between the first body (14) and the second body (18) and a pn junction (17) formed between regions of the structure of the first and second doping kinds respectively. A biasing arrangement (20) is connected to the structure for, in use, reverse biasing the pn junction, thereby to cause emission of light.Type: GrantFiled: January 30, 2009Date of Patent: March 18, 2014Assignee: Insiava (Pty) LimitedInventors: Lukas Willem Snyman, Monuko Du Plessis
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Patent number: 8669564Abstract: A light emitting device (10) comprises an elongate first body (12) of a semiconductor material. A transverse junction (18) is formed in the first body between a first n+-type region (12.1) of the first body and a second p-type region (12.2). A third p+-type region (12.3) is spaced from the first region by the second region. A second body (22) of an isolation material is provided immediately adjacent at least part of the second region to at least partially encapsulate the first body. A terminal arrangement (28) is connected to the first body and is arranged to reverse bias the junction (18) into a breakdown mode. The device is configured such that a depletion region associated with the junction (18) extends through the second region (12.2) and reaches the third region (12.3) before the junction (18) enters the breakdown mode.Type: GrantFiled: November 26, 2009Date of Patent: March 11, 2014Assignee: Insiava (Pty) LimitedInventor: Monuko Du Plessis
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Publication number: 20130214293Abstract: A micro optical device 10 comprises a body 12. The body comprises a movable member 14, which is moveable relative to another part 26 of the body. An optical element, such as an optical source 16, is provided on or within the movable member. The moveable member may be subjected to a parameter, such as mass, to be sensed and by monitoring at detector 22 changes of an optical signal emitted by the optical source, the parameter may be monitored.Type: ApplicationFiled: July 8, 2011Publication date: August 22, 2013Applicant: Insiava(PTY)LimitedInventors: Monuko Duplessis, Alfons Willi Bogalecki
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Patent number: 8395226Abstract: An electro-optical device 10 comprises a body 12 of a semiconductor material, such as silicon. A light source 14 is formed integrally in the body. The device comprises an associated light detector 16 and an optical path providing part 19 having a refractive index and extending between the light source 14 and the detector 16, to provide an optical path 18 having a path length. A sensor 20 cooperates with the optical path providing part 19 and is configured to modulate light emitted by the light source 14, by changing at least one of light absorption characteristics in the optical path by exposing a medium in the optical path to the emitted light, the path length and the refractive index.Type: GrantFiled: January 27, 2010Date of Patent: March 12, 2013Assignee: Insiava (Pty) LimitedInventors: Monuko Du Plessis, Lukas Willem Snyman
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Publication number: 20130026534Abstract: A light emitting device (10) comprises a body (11) comprising a substrate (12) of a p-type semiconductor material. The substrate has an upper surface (14) and having formed therein on one side of the upper surface and according to a bulk semi-conductor fabrication process utilizing lateral active area isolation techniques: a first n+-type island (16) to form a first junction (24) between the first island and the substrate; and a second n+-type island (18) spaced laterally from the first island (16). The substrate provides a laterally extending link (20) between the islands having an upper surface. The upper surface of the link, an upper surface of the island (16) and an upper surface of the island (18) collectively form a planar interface (21) between the body (11) and an isolation layer (19) of the device. The device comprises a terminal arrangement to apply a reverse bias to the first junction, to cause the device to emit light. The device is configured to facilitate the transmission of the emitted light.Type: ApplicationFiled: January 21, 2011Publication date: January 31, 2013Applicant: INSIAVA (PTY) LIMITEDInventor: Petrus Johannes Venter
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Patent number: 8362679Abstract: A light emitting device (10) comprises a first body (12) of an indirect bandgap semiconductor material. A first junction region (18) in the body is formed between a first region (12.1) of the body of a first doping kind and a second region (12.2) of the body of a second doping kind. A second junction (20) region in the body is formed between the second region of the body and a third region of the body of the first doping kind. The first and second junction regions being spaced from one another by not further than a minority carrier diffusion length. A terminal arrangement is connected to the first, second and third regions of the body for, in use, reverse biasing the first junction region into avalanche or field emission mode and for forward biasing the second junction region to inject carriers into the first junction region. A second body (22) of an isolation material is located immediately adjacent at least one wall of the third region, thereby to reduce parasitic injection from the third region.Type: GrantFiled: October 8, 2008Date of Patent: January 29, 2013Assignee: Insiava (Pty) LimitedInventor: Monuko Du Plessis