Optical and mechanical parameters. 100 mm N. of elements 20.5 mm Dimensions 11.7 degrees Weight F/N = 4 (fixed) N.A.
|
|
- Tamsyn Daniel
- 6 years ago
- Views:
Transcription
1 OB SWIR 100 LENS OB-SWIR100/4 P/N C0416 General Description This family of high resolution SWIR lenses image from µmm making them especially well-suited for PCB inspection, special laser applications, surveillance and alignment and tracking. A high F/N and excellent transmission characteristics allow superior imaging in these wavelengths of interest. Optical and mechanical parameters Focal length Image format (diagonal) F.O.V. (diagonal) Max aperture Object format Min working distance Zoom value Focus Iris 100 mm N. of elements 20.5 mm Dimensions 11.7 degrees Weight F/N = 4 (fixed) N.A. Options 1500 mm Motorized focus N.A. Motorized iris Manual Motorized zoom Optional / If iris Other mount type Min F/N = 22 Customization 5 Dia 80 x 100 mm 0.9 Kg N.A. 101
2 P/N wavelength range mount type note C Canon FD C Nikon Without iris diaphragm C nm M42 Screw C Canon FD C Nikon With iris diaphragm C M42 Screw C Canon FD C Nikon Without iris diaphragm C nm M42 Screw C Canon FD C Nikon With iris diaphragm C M42 Screw C Canon FD C Nikon Without iris diaphragm C nm M42 Screw C Canon FD C Nikon With iris diaphragm C M42 Screw OB SWIR 100 More details are available upon request and technical drawings are open for the customers and their needs. 102
3 OB SWIR 100 MTF, Field Curvature, Distortion and Transmission from 900 to 1700 nm TS Diff. Limit TS (deg) TS (deg) TS (deg) TS (deg) The calculated MTF values are displayed below and are verified at the maximum F/N and the best focus plane. The colored Modulus of the OTF lines represent the F.O.V. starting from the center (0%) to the corner (100%). Field Curvature Distortion TTT ST SS Data for to µm. Surface: Image Spatial Frequency in cycles per mm Polychromatic Diffraction MTF C02-dis1.l13.zmx Millimeters Field Curvature / F-Tan(Theta) Distortion Maximum Field is Degrees. Wavelengths: Percent C02-dis1.l13.zmx Optical parameters for wavelength range µm Resolution MTF >50%@50lp/mm Distortion < 0.3% Antireflection Coating R < 1% < mm Vignetting < 6% Average axial chromatic aberration < Lens Transmission without coating > 97%
4 MTF, Field Curvature, Distortion and Transmission from 1700 to 2300 nm TS Diff. Limit TS (deg) TS (deg) TS (deg) TS (deg) OB SWIR 100 The calculated MTF values are displayed Below and are verified at the maximum F/N and the best focus plane. The colored lines represent the F.O.V. starting from the center (0%) to the corner (100%). Field Curvature Distortion T ST ST ST S Modulus of the OTF Data for to µm. Surface: Image Spatial Frequency in cycles per mm Polychromatic Diffraction MTF Millimeters Percent 104 Field Curvature / F-Tan(Theta) Distortion Maximum Field is Degrees. Wavelengths: Optical parameters ameters for wavelength range µm Resolution MTF > 40%@30lp/mm Lens Transmission without coating > 75% Distortion < 0.3% Antireflection Coating R < 1%
5 OB SWIR 100 MTF, Field Curvature, Distortion and 1.0 TS Diff. Limit TS (deg) TS (deg) TS (deg) TS (deg) Transmission from 900 to 2300 nm The calculated MTF values are displayed Below and are verified at the maximum Modulus of the OTF F/N and the best focus plane. The colored lines represent the F.O.V. starting from the center (0%) to the corner (100%). Field Curvature Distortion T ST ST ST S Data for to µm. Surface: Image Spatial Frequency in cycles per mm Polychromatic Diffraction MTF Millimeters Percent Field Curvature / F-Tan(Theta) Distortion Maximum Field is Degrees. Wavelengths: Optical parameters ameters for wavelength range µm Resolution MTF > 40%@30lp/mm Lens Transmission without coating > 70% Distortion < 0.3% Antireflection Coating R < 1% More details are available upon request and technical drawings are open for the customers and their needs.
6 OB SWIR
LENS OB-SWIR500/7 P/N C0615
LENS OB-SWIR500/7 P/N C0615 General Description This family of high resolution SWIR lenses image from 0.9 2.3 m making them especially well-suited for PCB inspection, special laser applications, surveillance
More informationLENS ZOOM-SWIR 7x P/N C0628
ZOOM SWIR 7x LENS ZOOM-SWIR 7x P/N C0628 General Description This family of high resolution SWIR lenses image from 0.9 2.3 m making them especially well-suited for PCB inspection, special laser applications,
More information7x P/N C1601. General Description
METRICZOOM SWIR 7x METRIC ZOOM-SWIR ZOOM 7x P/N C1601 C General Description This family of high resolution METRIC ZOOM SWIR lenses image from 0.9 to 2.3 µm making them especially well-suited well for surveillance,
More informationOptical design of a high resolution vision lens
Optical design of a high resolution vision lens Paul Claassen, optical designer, paul.claassen@sioux.eu Marnix Tas, optical specialist, marnix.tas@sioux.eu Prof L.Beckmann, l.beckmann@hccnet.nl Summary:
More informationTECHSPEC COMPACT FIXED FOCAL LENGTH LENS
Designed for use in machine vision applications, our TECHSPEC Compact Fixed Focal Length Lenses are ideal for use in factory automation, inspection or qualification. These machine vision lenses have been
More informationFor high resolution, large-sized line sensor cameras. Recommendable line sensor cameras - 5.2μm x 12K / 7μm x 8K
Nikon Rayfact Series Features For high resolution, large-sized line sensor cameras. Recommendable line sensor cameras - 5.2μm x 12K / 7μm x 8K Guarantee high resolution and uniformity from the center to
More informationmm F2.6 6MP IR-Corrected. Sensor size
1 1 inch and 1/1.2 inch image size spec. Sensor size 1-inch 1/1.2-inch 2/3-inch Image circle OK OK OK OK 1/1.8-inch OK 1/2-inch OK 1/2.5-inch 1 1-inch CMV4000 PYTHON5000 KAI-02150 KAI-2020 KAI-2093 KAI-4050
More informationSome of the important topics needed to be addressed in a successful lens design project (R.R. Shannon: The Art and Science of Optical Design)
Lens design Some of the important topics needed to be addressed in a successful lens design project (R.R. Shannon: The Art and Science of Optical Design) Focal length (f) Field angle or field size F/number
More informationME 297 L4-2 Optical design flow Analysis
ME 297 L4-2 Optical design flow Analysis Nayer Eradat Fall 2011 SJSU 1 Are we meeting the specs? First order requirements (after scaling the lens) Distortion Sharpness (diffraction MTF-will establish depth
More informationNikon 200mm f/4d ED-IF AF Micro Nikkor (Tested)
Nikon 200mm f/4d ED-IF AF Micro Nikkor (Tested) Nikon 200mm f/4d ED-IF AF Micro Nikkor Image Circle 35mm Type Telephoto Prime Macro Focal Length 200mm APS Equivalent 300mm Max Aperture f/4 Min Aperture
More informationOptical Components for Laser Applications. Günter Toesko - Laserseminar BLZ im Dezember
Günter Toesko - Laserseminar BLZ im Dezember 2009 1 Aberrations An optical aberration is a distortion in the image formed by an optical system compared to the original. It can arise for a number of reasons
More informationTelecentric lenses.
Telecentric lenses 2014 Bi-Telecentric lenses Titolo Index Descrizione Telecentric lenses Opto Engineering Telecentric lenses represent our core business: these products benefit from a decade-long effort
More informationMacro Varon 4.5/85. Key features. Applications. Web and surface inspections
The Macro Varon lens has been designed for high resolution 12k line scan cameras with 3.5 µm pixel pitch. They are optimized for an optical magnification range of.5x to 2.x. CAS-lens technology produces
More informationBasler Accessories. Technical Specification BASLER LENS C M. Order Number
Basler Accessories Technical Specification BASLER LENS C23-526-2M Order Number 22183 Document Number: DG1916 Version: 1 Language: (English) Release Date: 17 January 218 Contacting Basler Support Worldwide
More informationBasler Accessories. Technical Specification BASLER LENS C M. Order Number
Basler Accessories Technical Specification BASLER LENS C23-1616-2M Order Number 2200000180 Document Number: DG001913 Version: 01 Language: 000 (English) Release Date: 17 January 2018 Contacting Basler
More informationUsing molded chalcogenide glass technology to reduce cost in a compact wide-angle thermal imaging lens
Using molded chalcogenide glass technology to reduce cost in a compact wide-angle thermal imaging lens George Curatu a, Brent Binkley a, David Tinch a, and Costin Curatu b a LightPath Technologies, 2603
More informationThe Importance of Wavelengths on Optical Designs
1 The Importance of Wavelengths on Optical Designs Bad Kreuznach, Oct. 2017 2 Introduction A lens typically needs to be corrected for many different parameters as e.g. distortion, astigmatism, spherical
More informationOptical basics for machine vision systems. Lars Fermum Chief instructor STEMMER IMAGING GmbH
Optical basics for machine vision systems Lars Fermum Chief instructor STEMMER IMAGING GmbH www.stemmer-imaging.de AN INTERNATIONAL CONCEPT STEMMER IMAGING customers in UK Germany France Switzerland Sweden
More informationCompact camera module testing equipment with a conversion lens
Compact camera module testing equipment with a conversion lens Jui-Wen Pan* 1 Institute of Photonic Systems, National Chiao Tung University, Tainan City 71150, Taiwan 2 Biomedical Electronics Translational
More informationUsing Optics to Optimize Your Machine Vision Application
Expert Guide Using Optics to Optimize Your Machine Vision Application Introduction The lens is responsible for creating sufficient image quality to enable the vision system to extract the desired information
More informationCODE V Introductory Tutorial
CODE V Introductory Tutorial Cheng-Fang Ho Lab.of RF-MW Photonics, Department of Physics, National Cheng-Kung University, Tainan, Taiwan 1-1 Tutorial Outline Introduction to CODE V Optical Design Process
More informationDIMENSIONAL MEASUREMENT OF MICRO LENS ARRAY WITH 3D PROFILOMETRY
DIMENSIONAL MEASUREMENT OF MICRO LENS ARRAY WITH 3D PROFILOMETRY Prepared by Benjamin Mell 6 Morgan, Ste156, Irvine CA 92618 P: 949.461.9292 F: 949.461.9232 nanovea.com Today's standard for tomorrow's
More informationImaging Optics Fundamentals
Imaging Optics Fundamentals Gregory Hollows Director, Machine Vision Solutions Edmund Optics Why Are We Here? Topics for Discussion Fundamental Parameters of your system Field of View Working Distance
More informationNikon Rayfact Series. Features. Applications. ver2.2
Nikon Rayfact Series Features Rayfact 2x and 1x : successor models to Printing Nikkor Lenses. No lens aberration (0.0%) at the standard magnification ratio. Guarantee high resolution and uniformity from
More informationXenon-Zirconia 3.3/92
This lens with.2x magnification is optimized for the use with 12k (62.5 mm) line scan sensors with 5 µm pixel, but can also be used with 16k (82 mm) lines. It is broadband coated and can be used in the
More informationNikon Rayfact VF. Features. Applications. ver2.2
Nikon Rayfact VF Features Variable magnification range : 0.5x - 3.0x Image size φ 64mm to meet large-sized high resolution line censor cameras. Suitable for line censor cameras of 7μm x 8K / 5μm x 12K.
More informationVariable microinspection system. system125
Variable microinspection system system125 Variable micro-inspection system Characteristics Large fields, high NA The variable microinspection system mag.x system125 stands out from conventional LD inspection
More informationNikon 24mm f/2.8d AF Nikkor (Tested)
Nikon 24mm f/2.8d AF Nikkor (Tested) Name Nikon 24mm ƒ/2.8d AF Nikkor Image Circle 35mm Type Wide Prime Focal Length 24mm APS Equivalent 36mm Max Aperture ƒ/2.8 Min Aperture ƒ/22 Diaphragm Blades 7 Lens
More informationABOUT RESOLUTION. pco.knowledge base
The resolution of an image sensor describes the total number of pixel which can be used to detect an image. From the standpoint of the image sensor it is sufficient to count the number and describe it
More informationOptical System Design
Phys 531 Lecture 12 14 October 2004 Optical System Design Last time: Surveyed examples of optical systems Today, discuss system design Lens design = course of its own (not taught by me!) Try to give some
More informationIMAGE SENSOR SOLUTIONS. KAC-96-1/5" Lens Kit. KODAK KAC-96-1/5" Lens Kit. for use with the KODAK CMOS Image Sensors. November 2004 Revision 2
KODAK for use with the KODAK CMOS Image Sensors November 2004 Revision 2 1.1 Introduction Choosing the right lens is a critical aspect of designing an imaging system. Typically the trade off between image
More informationLEICA Summarit-S 70 mm ASPH. f/2.5 / CS
Technical Data. Illustration 1:2 Technical Data Order no. 1155 (CS: 1151) Image angle (diagonal, horizontal, vertical) approx. 42 / 35 / 24, corresponds to approx. 56 focal length in 35 format Optical
More informationAgilOptics mirrors increase coupling efficiency into a 4 µm diameter fiber by 750%.
Application Note AN004: Fiber Coupling Improvement Introduction AgilOptics mirrors increase coupling efficiency into a 4 µm diameter fiber by 750%. Industrial lasers used for cutting, welding, drilling,
More informationEE-527: MicroFabrication
EE-57: MicroFabrication Exposure and Imaging Photons white light Hg arc lamp filtered Hg arc lamp excimer laser x-rays from synchrotron Electrons Ions Exposure Sources focused electron beam direct write
More informationTelecentric Imaging Object space telecentricity stop source: edmund optics The 5 classical Seidel Aberrations First order aberrations Spherical Aberration (~r 4 ) Origin: different focal lengths for different
More informationNikon 180mm f/2.8d ED-IF AF Nikkor (Tested)
Nikon 180mm f/2.8d ED-IF AF Nikkor (Tested) Name Nikon 180mm f/2.8d ED-IF AF Nikkor Image Circle 35mm Type Telephoto Prime Focal Length 180mm APS Equivalent 270mm Max Aperture f/2.8 Min Aperture f/22 Diaphragm
More informationNikon Rayfact IL Series
Nikon Rayfact IL Series Features Compatible with EL Nikkor40mmF4N, 50mmF2.8N, 63mmF2.8N and 75mmF4N Lineup : 4 models New product release : NikonRayfactIL95mmF5.6N * 4 models cover a wide range of magnification
More informationMML-High Resolution 5M Series
Fixed Magnification Series -High Resolution 5M Series High-resolution models that possess the best contrast and NA of all Series. Image acquisition with even higher image quality is realized by combining
More informationPHYSICS OPTICS. Mr Rishi Gopie
OPTICS Mr Rishi Gopie Ray Optics II Images formed by lens maybe real or virtual and may have different characteristics and locations that depend on: i) The type of lens involved, whether converging or
More informationXenon-Diamond 2.9/106 With beam splitter
Xenon-Diamond 2.9/16 This high resolution 2.6x line scan lens with beam splitter is optimized for the use with 12k (62.5 mm) line scan sensors with 5 µm pixel, but can also be used with 16k / 5 µm (82
More informationModulation Transfer Function
Modulation Transfer Function The Modulation Transfer Function (MTF) is a useful tool in system evaluation. t describes if, and how well, different spatial frequencies are transferred from object to image.
More informationSequential Ray Tracing. Lecture 2
Sequential Ray Tracing Lecture 2 Sequential Ray Tracing Rays are traced through a pre-defined sequence of surfaces while travelling from the object surface to the image surface. Rays hit each surface once
More informationCOURSE NAME: PHOTOGRAPHY AND AUDIO VISUAL PRODUCTION (VOCATIONAL) FOR UNDER GRADUATE (FIRST YEAR)
COURSE NAME: PHOTOGRAPHY AND AUDIO VISUAL PRODUCTION (VOCATIONAL) FOR UNDER GRADUATE (FIRST YEAR) PAPER TITLE: BASIC PHOTOGRAPHIC UNIT - 3 : SIMPLE LENS TOPIC: LENS PROPERTIES AND DEFECTS OBJECTIVES By
More informationPoint Spread Function. Confocal Laser Scanning Microscopy. Confocal Aperture. Optical aberrations. Alternative Scanning Microscopy
Bi177 Lecture 5 Adding the Third Dimension Wide-field Imaging Point Spread Function Deconvolution Confocal Laser Scanning Microscopy Confocal Aperture Optical aberrations Alternative Scanning Microscopy
More informationCharacteristics of point-focus Simultaneous Spatial and temporal Focusing (SSTF) as a two-photon excited fluorescence microscopy
Characteristics of point-focus Simultaneous Spatial and temporal Focusing (SSTF) as a two-photon excited fluorescence microscopy Qiyuan Song (M2) and Aoi Nakamura (B4) Abstracts: We theoretically and experimentally
More informationChapter 3 Op,cal Instrumenta,on
Imaging by an Op,cal System Change in curvature of wavefronts by a thin lens Chapter 3 Op,cal Instrumenta,on 3-1 Stops, Pupils, and Windows 3-4 The Camera 3-5 Simple Magnifiers and Eyepieces 1. Magnifiers
More informationMICRO AND NANOPROCESSING TECHNOLOGIES
MICRO AND NANOPROCESSING TECHNOLOGIES LECTURE 4 Optical lithography Concepts and processes Lithography systems Fundamental limitations and other issues Photoresists Photolithography process Process parameter
More informationSimple telecentric submillimeter lens with near-diffraction-limited performance across an 80 degree field of view
8752 Vol. 55, No. 31 / November 1 2016 / Applied Optics Research Article Simple telecentric submillimeter lens with near-diffraction-limited performance across an 80 degree field of view MOHSEN REZAEI,
More informationPhotolithography II ( Part 2 )
1 Photolithography II ( Part 2 ) Chapter 14 : Semiconductor Manufacturing Technology by M. Quirk & J. Serda Saroj Kumar Patra, Department of Electronics and Telecommunication, Norwegian University of Science
More informationIMAGE FORMATION. Light source properties. Sensor characteristics Surface. Surface reflectance properties. Optics
IMAGE FORMATION Light source properties Sensor characteristics Surface Exposure shape Optics Surface reflectance properties ANALOG IMAGES An image can be understood as a 2D light intensity function f(x,y)
More informationOptical Engineering 421/521 Sample Questions for Midterm 1
Optical Engineering 421/521 Sample Questions for Midterm 1 Short answer 1.) Sketch a pechan prism. Name a possible application of this prism., write the mirror matrix for this prism (or any other common
More information12.4 Alignment and Manufacturing Tolerances for Segmented Telescopes
330 Chapter 12 12.4 Alignment and Manufacturing Tolerances for Segmented Telescopes Similar to the JWST, the next-generation large-aperture space telescope for optical and UV astronomy has a segmented
More informationCXCI. Optical design of a compact telescope for the next generation Earth Observation system CXCI. Vincent COSTES. Octobre 2012
CXCI Optical design of a compact telescope for the next generation Earth Observation system Vincent COSTES Octobre 2012 CXCI CXCI SUMMARY INTRODUCTION CXCI TECHNOLOGICAL PROGRAM COMPACTNESS REQUIREMENT
More informationA Art. SIGMA 105mm F1.4 DG HSM
February, 2018 A Art SIGMA 105mm F1.4 DG HSM Introducing the bokeh master featuring incredible resolution and designed for full-frame sensors, this is the longest focal length of the Art line s F1.4 lenses
More informationECEN 4606, UNDERGRADUATE OPTICS LAB
ECEN 4606, UNDERGRADUATE OPTICS LAB Lab 2: Imaging 1 the Telescope Original Version: Prof. McLeod SUMMARY: In this lab you will become familiar with the use of one or more lenses to create images of distant
More informationOPAL. SpotOptics. AUTOMATED WAVEFRONT SENSOR Single and double pass O P A L
Spotptics The software people for optics UTMTED WVEFRNT SENSR Single and double pass ccurate metrology of standard and aspherical lenses ccurate metrology of spherical and flat mirrors =0.3 to =60 mm F/1
More informationChapter 3 Op+cal Instrumenta+on
Chapter 3 Op+cal Instrumenta+on 3-1 Stops, Pupils, and Windows 3-4 The Camera 3-5 Simple Magnifiers and Eyepieces 3-6 Microscopes 3-7 Telescopes Today (2011-09-22) 1. Magnifiers 2. Camera 3. Resolution
More informationNotes from Lens Lecture with Graham Reed
Notes from Lens Lecture with Graham Reed Light is refracted when in travels between different substances, air to glass for example. Light of different wave lengths are refracted by different amounts. Wave
More informationAST Lab exercise: aberrations
AST2210 - Lab exercise: aberrations 1 Introduction This lab exercise will take you through the most common types of aberrations. 2 Chromatic aberration Chromatic aberration causes lens to have dierent
More information2016 Autumn Lens Series
26 Autumn Lens Series Art Art 8mm F.4 DG HSM 2-24mm F4 DG HSM mm F4 DG OS HSM Art 8mm F.4 DG HSM Peak 8mm F.4 performance. Introducing the ultimate lens for portraits and more. Portrait photographers demand
More informationTOPICS Recap of PHYS110-1 lecture Physical Optics - 4 lectures EM spectrum and colour Light sources Interference and diffraction Polarization
TOPICS Recap of PHYS110-1 lecture Physical Optics - 4 lectures EM spectrum and colour Light sources Interference and diffraction Polarization Lens Aberrations - 3 lectures Spherical aberrations Coma, astigmatism,
More informationLaboratory experiment aberrations
Laboratory experiment aberrations Obligatory laboratory experiment on course in Optical design, SK2330/SK3330, KTH. Date Name Pass Objective This laboratory experiment is intended to demonstrate the most
More informationLEICA VARIO-ELMARIT-R mm f/2,8-4,5 ASPH. 1
LEICA VARIO-ELMARIT-R -9 mm f/,-4, ASPH. The LEICA VARIO-ELMARIT-R -9mm f/.-4. ASPH. is a truly universal lens, which covers a broad range of focal lengths but still proves very fast. It is a lens which,
More informationLecture Notes 10 Image Sensor Optics. Imaging optics. Pixel optics. Microlens
Lecture Notes 10 Image Sensor Optics Imaging optics Space-invariant model Space-varying model Pixel optics Transmission Vignetting Microlens EE 392B: Image Sensor Optics 10-1 Image Sensor Optics Microlens
More informationCriteria for Optical Systems: Optical Path Difference How do we determine the quality of a lens system? Several criteria used in optical design
Criteria for Optical Systems: Optical Path Difference How do we determine the quality of a lens system? Several criteria used in optical design Computer Aided Design Several CAD tools use Ray Tracing (see
More information"SIMPLE MEASUREMENT, ADVANCED RESULTS"
"SIMPLE MEASUREMENT, ADVANCED RESULTS" 1 Phasics offers the most innovative solutions for lens and objectives quality control in R&D and production. Relying on a unique wavefront technology, the quadriwave
More information( ) Deriving the Lens Transmittance Function. Thin lens transmission is given by a phase with unit magnitude.
Deriving the Lens Transmittance Function Thin lens transmission is given by a phase with unit magnitude. t(x, y) = exp[ jk o ]exp[ jk(n 1) (x, y) ] Find the thickness function for left half of the lens
More informationAdvanced Optics for Vision. Stuart W. Singer Sr. Vice President & CTO Schneider Optics, Inc.
Advanced Optics for Vision Stuart W. Singer Sr. Vice President & CTO Schneider Optics, Inc. Table of Contents Modulation Transfer Function (MTF) What does it mean Aberration effects f/number effects Manufacturing
More informationSIGMA 17-70mm F2.8-4 DC MACRO OS HSM 17-70mm F2.8-4 DC MACRO HSM
January 2013 C Contemporary SIGMA 17-70mm F2.8-4 DC MACRO OS HSM 17-70mm F2.8-4 DC MACRO HSM Sigma Imaging (UK) Ltd is pleased to announce that the SRP of the new 17-70mm F2.8-4 DC lens is 449.99. Canon
More informationLenses Design Basics. Introduction. RONAR-SMITH Laser Optics. Optics for Medical. System. Laser. Semiconductor Spectroscopy.
Introduction Optics Application Lenses Design Basics a) Convex lenses Convex lenses are optical imaging components with positive focus length. After going through the convex lens, parallel beam of light
More informationImageMaster. Worldwide Leader in MTF Testing
ImageMaster Worldwide Leader in MTF Testing Contents Page Overview 3 ImageMaster Series The most comprehensive line of MTF Equipment...........3 ImageMaster R&D Line................................................7
More informationMicroscope anatomy, image formation and resolution
Microscope anatomy, image formation and resolution Ian Dobbie Buy this book for your lab: D.B. Murphy, "Fundamentals of light microscopy and electronic imaging", ISBN 0-471-25391-X Visit these websites:
More informationTest procedures Page: 1 of 5
Test procedures Page: 1 of 5 1 Scope This part of document establishes uniform requirements for measuring the numerical aperture of optical fibre, thereby assisting in the inspection of fibres and cables
More informationWhy select a BOS zoom lens over a COTS lens?
Introduction The Beck Optronic Solutions (BOS) range of zoom lenses are sometimes compared to apparently equivalent commercial-off-the-shelf (or COTS) products available from the large commercial lens
More informationOptical Systems. Selection Guide. Simple Telescope Kit page 6.4. Variable Attenuators for linearly polarized laser beam page 6.
Selection Guide F-Theta Lens page 6. Compact Beam Expander page 6.3 Zoom Beam Expander page 6.3 Simple Telescope Kit page 6.4 Gauss-to-Top Hat Beam Shaping Lens page 6.5 Continuously Variable Attenuator
More informationLenses. Overview. Terminology. The pinhole camera. Pinhole camera Lenses Principles of operation Limitations
Overview Pinhole camera Principles of operation Limitations 1 Terminology The pinhole camera The first camera - camera obscura - known to Aristotle. In 3D, we can visualize the blur induced by the pinhole
More informationChoosing the Best Optical Filter for Your Application. Georgy Das Midwest Optical Systems, Inc.
Choosing the Best Optical Filter for Your Application Georgy Das Midwest Optical Systems, Inc. Filters are a Necessity, Not an Accessory. Key Terms Transmission (%) 100 90 80 70 60 50 40 30 20 10 OUT-OF-BAND
More informationOptical Design with Zemax
Optical Design with Zemax Lecture : Correction II 3--9 Herbert Gross Summer term www.iap.uni-jena.de Correction II Preliminary time schedule 6.. Introduction Introduction, Zemax interface, menues, file
More informationHyperspectral Imager for Coastal Ocean (HICO)
Hyperspectral Imager for Coastal Ocean (HICO) Detlev Even 733 Bishop Street, Suite 2800 phone: (808) 441-3610 fax: (808) 441-3601 email: detlev@nova-sol.com Arleen Velasco 15150 Avenue of Science phone:
More informationBIG PIXELS VS. SMALL PIXELS THE OPTICAL BOTTLENECK. Gregory Hollows Edmund Optics
BIG PIXELS VS. SMALL PIXELS THE OPTICAL BOTTLENECK Gregory Hollows Edmund Optics 1 IT ALL STARTS WITH THE SENSOR We have to begin with sensor technology to understand the road map Resolution will continue
More informationExam 4. Name: Class: Date: Multiple Choice Identify the choice that best completes the statement or answers the question.
Name: Class: Date: Exam 4 Multiple Choice Identify the choice that best completes the statement or answers the question. 1. Mirages are a result of which physical phenomena a. interference c. reflection
More informationOptimisation. Lecture 3
Optimisation Lecture 3 Objectives: Lecture 3 At the end of this lecture you should: 1. Understand the use of Petzval curvature to balance lens components 2. Know how different aberrations depend on field
More informationSource: (January 4, 2010)
Source: http://www.slrgear.com/reviews/showproduct.php/product/101/cat/12 (January 4, 2010) Name Nikon 105mm ƒ/2d AF DC Nikkor Image Circle 35mm Type Telephoto Prime Defocus Control Focal Length 105mm
More informationIntroducing Celestron s EdgeHD Optical System
Introducing Celestron s EdgeHD Optical System See the Universe in HD EdgeHD is an Aplanatic Schmidt telescope designed to produce aberration free images across a wide visual and photographic field of view.
More informationIntroduction...1. List of figures. 1. The Microvision, Inc., SPECTRUM SD25000 HMD Custom-built HMD tester with monochrome camera...
Table of contents Page Introduction...1 HMD testing setup...2 HMD test parameters...4 Exit pupil size and shape...4 Eye relief...5 Field-of-view...6 See-through transmission...6 Spectral output...7 Field
More informationAPPLICATIONS FOR TELECENTRIC LIGHTING
APPLICATIONS FOR TELECENTRIC LIGHTING Telecentric lenses used in combination with telecentric lighting provide the most accurate results for measurement of object shapes and geometries. They make attributes
More informationAcquisition. Some slides from: Yung-Yu Chuang (DigiVfx) Jan Neumann, Pat Hanrahan, Alexei Efros
Acquisition Some slides from: Yung-Yu Chuang (DigiVfx) Jan Neumann, Pat Hanrahan, Alexei Efros Image Acquisition Digital Camera Film Outline Pinhole camera Lens Lens aberrations Exposure Sensors Noise
More informationOptical Design Forms for DUV&VUV Microlithographic Processes
Optical Design Forms for DUV&VUV Microlithographic Processes James Webb, Julie Bentley, Paul Michaloski, Anthony Phillips, Ted Tienvieri Tropel Corporation, 60 O Connor Road, Fairport, NY 14450 USA, jwebb@tropel.com
More informationSpotOptics. The software people for optics OPAL O P A L
Spotptics The software people for optics UTMTED WVEFRNT SENSR ccurate metrology of standard and aspherical lenses (single pass) ccurate metrology of spherical and flat mirrors (double pass) =0.3 to =50
More informationinnovative remarkable immediate reliable innovative remarkable immediate
nsive infra-red reliable innovative remarkable immediate responsive infra-re ve remarkable immediate responsive infra-red reliable innovative remarkable nsive infra-red reliable innovative remarkable immediate
More informationSupplementary Materials
Supplementary Materials In the supplementary materials of this paper we discuss some practical consideration for alignment of optical components to help unexperienced users to achieve a high performance
More informationOptical Performance of Nikon F-Mount Lenses. Landon Carter May 11, Measurement and Instrumentation
Optical Performance of Nikon F-Mount Lenses Landon Carter May 11, 2016 2.671 Measurement and Instrumentation Abstract In photographic systems, lenses are one of the most important pieces of the system
More informationLithography Smash Sensor Objective Product Requirements Document
Lithography Smash Sensor Objective Product Requirements Document Zhaoyu Nie (Project Manager) Zichan Wang (Customer Liaison) Yunqi Li (Document) Customer: Hong Ye (ASML) Faculty Advisor: Julie Bentley
More informationle immediate reliable innovative remarkable immediate responsive infra-red
le immediate responsive infra-red reliable innovative remarkable immediate ve infra-red reliable innovative remarkable immediate responsive infra-red le immediate responsive infra-red reliable innovative
More informationGoogle Cardboard (I/O 2015)
Table of Contents Google Cardboard (I/O 2015) Technical Specification 1. Introduction... 2 2. Reference Information... 2 2.1. Applicable Documents... 2 3. Design Specifications... 3 3.1. Lens Optical Design
More informationa) How big will that physical image of the cells be your camera sensor?
1. Consider a regular wide-field microscope set up with a 60x, NA = 1.4 objective and a monochromatic digital camera with 8 um pixels, properly positioned in the primary image plane. This microscope is
More informationExercise 1 - Lens bending
Exercise 1 - Lens bending Most of the aberrations change with the bending of a lens. This is demonstrated in this exercise. a) Establish a lens with focal length f = 100 mm made of BK7 with thickness 5
More informationPHY 431 Homework Set #5 Due Nov. 20 at the start of class
PHY 431 Homework Set #5 Due Nov. 0 at the start of class 1) Newton s rings (10%) The radius of curvature of the convex surface of a plano-convex lens is 30 cm. The lens is placed with its convex side down
More informationStockOptics. CATALOG 2018 Europe
StockOptics CATALOG 2018 Europe Dear asphericon customer Within the StockOptics product line, you can choose from an extensive portfolio of precision-polished aspheric lenses, cylinders and axicons. Benefit
More informationSigma Imaging (UK) Ltd is pleased to announce that the SRP of the new mm F2.8 DG OS HSM
January 2013 S Sports SIGMA 120-300mm F2.8 DG OS HSM Sigma Imaging (UK) Ltd is pleased to announce that the SRP of the new 120-300mm F2.8 DG OS HSM lens is 3,599.99. Sigma and Canon fit will be available
More information