{"id":12579,"date":"2022-11-13T23:00:21","date_gmt":"2022-11-13T23:00:21","guid":{"rendered":"https:\/\/blog.ophiropt.com\/?p=12579"},"modified":"2024-03-11T14:54:57","modified_gmt":"2024-03-11T14:54:57","slug":"wb-i-vis-wide-beam-imager-fur-wellenlangen-von-350-1100nm-arbeitet-ab-sofort-mit-neuer-ophir-kamera-sp932u","status":"publish","type":"post","link":"https:\/\/www.ophiropt.com\/blog\/de\/wb-i-vis-wide-beam-imager-fur-wellenlangen-von-350-1100nm-arbeitet-ab-sofort-mit-neuer-ophir-kamera-sp932u\/","title":{"rendered":"WB-I VIS: Wide Beam Imager f\u00fcr Wellenl\u00e4ngen von 350-1100nm arbeitet ab sofort mit neuer Ophir Kamera SP932U"},"content":{"rendered":"\n

Die Herausforderung<\/strong><\/p>\n\n\n\n

Zahlreiche\nAnwendungen erfordern sehr divergente Strahlen oder Strahlen mit gro\u00dfem\nFokusdurchmesser, die VCSEL, Laserdioden, LED oder Faserlaser in\nunterschiedlichen Wellenl\u00e4ngenbereichen liefern. Komponenten im UV, sichtbaren\noder im nahen Infrarotspektrum werden insbesondere eingesetzt, wenn eine 3D-Bildgebung\nerforderlich ist wie bei der Gesichts- und Gestenerkennung, AR\/VR, in\nmedizinischen Ger\u00e4ten oder bei autonomen Fahrzeugen.  <\/p>\n\n\n\n

Um die\nLeistungsf\u00e4higkeit der Komponenten in allen diesen Anwendungen zu garantieren,\nist eine Strahlcharakterisierung von entscheidender Bedeutung. Allerdings sind\ndie Aperturen klassischer Strahlprofilmessger\u00e4te in der Regel zu klein, um den\ngesamten Strahl zu erfassen. Zus\u00e4tzlich lassen sich die divergenten Strahlen\nmeist mit einem Standardsensor nicht messen, da das Ansprechverhalten des\nSensors sehr stark vom Einfallswinkel der Strahlen abh\u00e4ngt. <\/p>\n\n\n\n

Ophir WB-I VIS (Wide Beam Imager) L\u00f6sung<\/strong><\/p>\n\n\n\n

Dieses\nProblem ist nun gel\u00f6st: Die Ophir WB-I VIS<\/a> (Wide Beam Imager) Komponenten\nwurde f\u00fcr den Wellenl\u00e4ngenbereich zwischen 350-1100nm entwickelt und erlaubt\ndie Messung von Strahlprofil und Divergenz von Strahlen bis zu einem Divergenzwinkel\nvon 70\u00b0 im Vergleich zu 15\u00b0 bei Standard Strahlprofilmessger\u00e4ten. Das kompakte,\nkalibrierte optische System erlaubt die Messung von Gr\u00f6\u00dfe und der Leistungsverteilung\ngro\u00dfer und divergenter Strahlen mit einer Apertur von 45mm. Es ist robust\ngenug, um sowohl im Labor als auch im Feld eingesetzt zu werden. <\/p>\n\n\n\n

Die Strahlen\ntreffen auf einen 45mm durchl\u00e4ssigen Diffusorschirm, werden reduziert und\nanschlie\u00dfend \u00fcber eine CCTV-Linse und einen variablen Abschw\u00e4cher auf der\nFokusebene der Kamera erneut abgebildet. Die Kamera erstellt zusammen mit der Ophir BeamGage<\/a> Software ein vollst\u00e4ndiges und\nakkurates Bild der Intensit\u00e4tsverteilung des Lichts.<\/p>\n\n\n\n

Nun wurde die WB-I VIS L\u00f6sung aktualisiert: Sie arbeitet nun mit der neuen, hochaufl\u00f6senden SP932U<\/a> Kamera. Diese nutzt eine spezielle Funktion der BeamGage Software, die die Genauigkeit bei NIR Wellenl\u00e4ngen weiter erh\u00f6ht und gleichzeitig \u00fcber eine schnelle Wiederholrate und einen gr\u00f6\u00dferen dynamischen Bereich verf\u00fcgt.<\/p>\n\n\n\n

\"\"<\/figure><\/div>\n\n\n\n

Zus\u00e4tzlich zu dem Kamera-Upgrade verf\u00fcgt die neue WB-I VIS Version \u00fcber eine Irisblende, um die Lichtintensit\u00e4t auf das optimale Niveau einzustellen. Gerade bei Messungen im Feld profitieren die Anwender von dieser Funktion, da damit zus\u00e4tzliche Einstellungen beim Aufbau vor Ort entfallen. \u00a0<\/p>\n\n\n\n

\"\"<\/figure><\/div>\n\n\n\n

Messungen\ndes Strahlprofils eines divergenten VCSEL bei 950 nm mit der BeamGage Software und\ndem WB-I VIS.<\/p>\n","protected":false},"excerpt":{"rendered":"

Die Herausforderung Zahlreiche Anwendungen erfordern sehr divergente Strahlen oder Strahlen mit gro\u00dfem Fokusdurchmesser, die VCSEL, Laserdioden, LED oder Faserlaser in 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