Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay

Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay

Innovative display technologies enable a wide range of different system applications. specifically, in metrology, medical, and automotive applications microdisplays were increasingly used. In the last decades OLED microdisplays were in the focus of display development. A new class of OLED microdispl...

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Main Authors: Constanze Großmann, Ute Gawronski, Martin Breibarth, Gunther Notni, Andreas Tünnermann
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Advances in Materials Science and Engineering
Online Access:http://dx.doi.org/10.1155/2012/417376
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spelling doaj-f02c211303f940a4854b27827807ebd72020-11-25T01:49:16ZengHindawi LimitedAdvances in Materials Science and Engineering1687-84341687-84422012-01-01201210.1155/2012/417376417376Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED MicrodisplayConstanze Großmann0Ute Gawronski1Martin Breibarth2Gunther Notni3Andreas Tünnermann4Fraunhofer IOF, Albert-Einstein-Straße 7, 07745 Jena, GermanyFraunhofer IOF, Albert-Einstein-Straße 7, 07745 Jena, GermanyFraunhofer IOF, Albert-Einstein-Straße 7, 07745 Jena, GermanyFraunhofer IOF, Albert-Einstein-Straße 7, 07745 Jena, GermanyFraunhofer IOF, Albert-Einstein-Straße 7, 07745 Jena, GermanyInnovative display technologies enable a wide range of different system applications. specifically, in metrology, medical, and automotive applications microdisplays were increasingly used. In the last decades OLED microdisplays were in the focus of display development. A new class of OLED microdisplays with an integrated photodiode array is the latest development. The so-called bi-directional OLED microdisplays combine light-emitting devices (AM-OLED microdisplay) and photo sensitive detectors (photodiode matrix) on one single chip based on OLED-on-CMOS-technology. Currently this kind of display is still a prototype. Based on such a novel bidirectional OLED microdisplay, we present for the first time a system simulation and design of a 3D optical surface metrology system. The first step is the full characterization of the microdisplay. Depending on the characterization results the future system parameters are determined. Based on the characterization results and the application parameters the system design parameters are defined. The functionality of the system is simulated, and a theoretical proof of concept is presented. An example for our application on 3D optical surface metrology system is evaluated.http://dx.doi.org/10.1155/2012/417376
collection DOAJ
language English
format Article
sources DOAJ
author Constanze Großmann
Ute Gawronski
Martin Breibarth
Gunther Notni
Andreas Tünnermann
spellingShingle Constanze Großmann
Ute Gawronski
Martin Breibarth
Gunther Notni
Andreas Tünnermann
Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
Advances in Materials Science and Engineering
author_facet Constanze Großmann
Ute Gawronski
Martin Breibarth
Gunther Notni
Andreas Tünnermann
author_sort Constanze Großmann
title Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
title_short Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
title_full Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
title_fullStr Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
title_full_unstemmed Simulation and System Design of a 3D Metrology Optical System Based on a Bidirectional OLED Microdisplay
title_sort simulation and system design of a 3d metrology optical system based on a bidirectional oled microdisplay
publisher Hindawi Limited
series Advances in Materials Science and Engineering
issn 1687-8434
1687-8442
publishDate 2012-01-01
description Innovative display technologies enable a wide range of different system applications. specifically, in metrology, medical, and automotive applications microdisplays were increasingly used. In the last decades OLED microdisplays were in the focus of display development. A new class of OLED microdisplays with an integrated photodiode array is the latest development. The so-called bi-directional OLED microdisplays combine light-emitting devices (AM-OLED microdisplay) and photo sensitive detectors (photodiode matrix) on one single chip based on OLED-on-CMOS-technology. Currently this kind of display is still a prototype. Based on such a novel bidirectional OLED microdisplay, we present for the first time a system simulation and design of a 3D optical surface metrology system. The first step is the full characterization of the microdisplay. Depending on the characterization results the future system parameters are determined. Based on the characterization results and the application parameters the system design parameters are defined. The functionality of the system is simulated, and a theoretical proof of concept is presented. An example for our application on 3D optical surface metrology system is evaluated.
url http://dx.doi.org/10.1155/2012/417376
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AT utegawronski simulationandsystemdesignofa3dmetrologyopticalsystembasedonabidirectionaloledmicrodisplay
AT martinbreibarth simulationandsystemdesignofa3dmetrologyopticalsystembasedonabidirectionaloledmicrodisplay
AT gunthernotni simulationandsystemdesignofa3dmetrologyopticalsystembasedonabidirectionaloledmicrodisplay
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