Model No. Format (") Mount Focal Length (mm) Aperture (F) Angle of View (HOR) M.O.D. (m) Rear ( mm) Front Filter Thread ( MxP=) Dimensions Weight (g)
|
|
- Nigel Mills
- 5 years ago
- Views:
Transcription
1
2
3 FEATURE INDIATION Lens type Fixed Focal VariFocal Zoom Iris type Manual Iris D Auto Iris Video Auto Iris 3 Motors Function Wide Aperture Ratio Aspherical Lens Megapixel Lens Day & Night Feature of VariFocal Wide Angle VariFocal Fixed focal length, very simple and compact design ompact design, focal length adjusted manually Focal length adjusted without focus shift of image plane Manually operated iris Auto iris supporting D controlled cameras Auto iris supporting Video controlled cameras Operated iris, zoom and focus by electric remote control Large aperture that transmits more light Aspherical lens which greatly improves the image quality and makes the design compact Highperformance lens which is used mainly with megapixel cameras Lens optimized for both visible and new IR spectrum which eliminates focus shift with Day&Night cameras Varifocal lens provides a wide field of view Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T2314FI T2616FI T0412FI MANUAL IRIS MOUNT/MOUNT Telephoto VariFocal Varifocal lens provides a small field of view or magnified image in long range applications Feature of Zoom Spot Filter A neutral density filter inside the lens that attenuates the amount of light transmission from very bright object Preset on Focus & Zoom The model which has the function of preset on focus and zoom Override Manual The model which enables manual control from remote locations Application of Megapixel / FA Lens Security FAImage Procession For Security, available in monitoring at infinity. Provides good image recognition accuracy For Factory Autmation or Image Procession, used in momitoring at a close proximity Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T0812FI H1214FI M
4 AUTO IRIS D DRIVE/VIDEO DRIVE Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) TG2314F TG0812F TG2616F HG0614F TG0412F HG1214F Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) (xd)or(xhxd) T2Z T3Z3510IR T2Z T4Z T3Z T10Z T3Z T5Z8513IR VARIFOAL MANUAL IRIS Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) TG2314AF TG2616AF HG1214AF Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H2Z H3Z4512IR H3Z H3Z1014 Series type lenses have no focus shift with or without IR lighting only when used with type cameras. If these lenses are used with type cameras, some focus shift may occur with IR lighting.
5 Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) TG2Z1816F TG2Z2814F TG2Z3514F TG3Z2312F Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) HG2Z4516F HG3Z4512FIR HG3Z1014F HG3Z1014 Series type lenses have no focus shift with or without IR lighting only when used with type cameras. If these lenses are used with type cameras, some focus shift may occur with IR lighting. VARIFOAL AUTO IRIS D DRIVE Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) (xd)or(xhxd) TG3Z2710F TG4Z2813F TG3Z2910F TG10Z0513F TG3Z3510F TG5Z8513FIR TG3Z3510FIR VARIFOAL AUTO IRIS D DRIVE
6 VARIFOAL AUTO IRIS VIDEO DRIVE Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) (xd)or(xhxd) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) TG2Z1816AF TG3Z3510AF TG5Z8513AFIR TG2Z2814AF TG3Z3510AFIR HG2Z4516AF TG2Z3514AF TG4Z2813AF HG3Z4512AFIR TG3Z2710AF TG10Z0513AF HG3Z1014AF Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) (xd)or(xhxd) H6Z T6Z5710AID H6Z0812AID M6Z T6Z5710AIVD H6Z0812AIVD MANUAL ZOOM MANUAL IRIS/D DRIVE/VIDEO DRIVE HG3Z1014 Series type lenses have no focus shift with or without IR lighting only when used with type cameras. If these lenses are used with type cameras, some focus shift may occur with IR lighting.
7 MOTORIZED ZOOM MOTORIZED ZOOM Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T6Z5710M T6Z5710MP T6Z5710MS T6Z5710MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T10Z5712M T10Z5712MP T10Z5712MS T10Z5712MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T6Z5710AMS T6Z5710AMSP T6Z5710D T6Z5710PD Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T10Z5712AMS T10Z5712AMSP T10Z5712D T10Z5712PD
8 MOTORIZED ZOOM MOTORIZED ZOOM Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T21Z5816M T21Z5816MP T21Z5816MS T21Z5816MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T34Z5518AMS T34Z5518AMSP T34Z5518D T34Z5518PD Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T21Z5816AMS T21Z5816AMSP T21Z5816D T21Z5816PD Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T34Z5518AMSR T34Z5518AMSPR
9 MOTORIZED ZOOM MOTORIZED ZOOM Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H6Z0812M H6Z0812MP H6Z0812MS H6Z0812MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H10Z0812M H10Z0812MP H10Z0812MS H10Z0812MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H6Z0812AMS H6Z0812AMSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H10Z0812AMS H10Z0812AMSP
10 MOTORIZED ZOOM MOTORIZED ZOOM Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H10Z1218M H10Z1218MP H10Z1218MS H10Z1218MSP Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H16Z7516AMS H16Z7516AMSP H16Z7516AMSR H16Z7516AMSPR Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H10Z1218AMS H10Z1218AMSP H10Z1218D H10Z1218PD Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H16Z7516D H16Z7516PD
11 MOTORIZED ZOOM MOTORIZED ZOOM Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H16Z7516AMSIR H16Z7516AMSPIR H16Z7516AMSRIR H16Z7516AMSPRIR Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H30Z1015AMS H30Z1015AMSP H30Z1015AMSR H30Z1015AMSPR Features of H16Z7516IR Series Infrared light increases at night because the wavelength distribution changes greatly between day and night. In case of night surveillance with infrared lighting, standard TV lenses cause a focus shift because of the difference in wavelength distribution, even when focused properly during the day. Features of H30Z1015 Series This lens provides the most powerful zoom ratio (10300mm) and fastest Fstop (F) in the TV market, making it ideal for long distance or low light surveillance. Typical applications include highway and traffic monitoring, port and harbor surveillance, airport surveillance and border patrol. omputar's new IR zoom lens utilizes a special optical glass material which minimizes light dispersion. As a result, refocusing is not required when used at night with infrared lighting. The lens also has a special multicoating on all lens elements so that the lens transmits more light up to the infrared region. This provides a much more vivid picture when used at night with Day/Night ameras or Ultra High Sensitivity ameras.
12 SEURITY/FAIMAGE PROESSION Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) (xd)or(xhxd) HG2Z0414FMP M0814MP M3Z1228MP M1214MP SEURITY Highperformance megapixel lens which is required for highresolution cameras. Advanced optical design provides highresolution image throughout the focal range. Unique varifocal design provides an adjustable angle of view while maintaining megapixel resolution. High resolution with minimal distortion in both center and corner area of image. M1614MP HG2Z0414FMP M3Z1228MP FA IMAGE PROESSION Superhighperformance lens which fully utilizes the resolution of megapixel sensors. Designed for megapixel cameras. M0814MP M1214MP M1614MP M2514MP M5018MP H0514MP MLM3XMP MLH10X TEM55 Multi purpose and excellent performance lens for short working distance as required by factory automation and machine vision applications. Dedicated design emphasis on the performance for closeup applications required in factory automation and image processing areas. Low distortion. Assured excellent light intensity even in peripheral areas. Robust design with builtin locking mechanisms for focus and iris. Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) H0514MP SEURITY/FAIMAGE PROESSION MEGA PIXELFA Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) M2514MP M5018MP FA IMAGE PROESSION & SEURITY Achieves high level of excellent resolution in both closeup applications required in factory automations, image processing areas. And a high megapixel performance for longer applications required in the security field. Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) NOTES (xd)or(xhxd) MLH10X X (6") Macro Zoom Lens markmlh10x, MLM3XMPshows Maximum Magnification TEM55 has 0.75X and 2X rear adapters as option. MLM3XMP 1.0X Macro Zoom Lens DESRIPTION APPLIATION TEM Telecentric Lens M550.75X Rear converter 0.75X (Designed for TEM55) Attached between lens and camera Makes focal length 0.75X M552.0X Rear converter 2.0X (Designed for TEM55) Attached between lens and camera Makes focal length 2.0X MEGA PIXELFA
13 PINHOLE MANUAL IRIS/D DRIVE/VIDEO DRIVE Angle of View (HOR) Effective Aperture Front (mm) Rear (mm) Front Filter Thread (MxP=) (xd)or(xhxd) T2625P TG2625FP TG2625AFP DESRIPTION APPLIATION EX X Extender for mount Attached between lens and camera Makes focal length X EX2 2X Extender for mount Attached between lens and camera Doubles focal length EX X Extender for mount Attached between lens and camera Makes focal length X EX2 2X Extender for mount Attached between lens and camera Doubles focal length AESSORIES DESRIPTION APPLIATION VM100 Extension Tube Kit 40, 20, 10, 5, 1, 0.5mm Attached between lens and camera Reduces minimum focusing distance VM400 5mm Adapter Ring Attached between lens and camera Adapts mount lens to mount camera VM300 View Finder Adjustable field of view Helps determine required focal lenght
14 10 10 TEHNIAL INFORMATION Aberration Theory for Spherical Lens for Aspherical lens TEHNIAL INFORMATION Spot Image Spot Image By definition, spherical lenses have a constant radius of curvature and are commonly used in the majority of TV lenses. Unfortunately all spherical surfaces exhibit spherical aberration which is the inability of the element to focus the light rays passing through the center and the edge of the element to a single point in the image plane. This problem is solved by using an aspheric surface, which does focus the rays passing through the two zones of the aspheric surface to the same point on the image plane. Manufacturing techniques required to produce an aspheric surface are more expensive than conventional spherical fabrication, however the use of aspheric elements in a lens greatly improves the image quality.
15 TV cameras, when used at night, are subjected to considerably more near infrared energy than that of the visible spectrum. This shift in spectrum sensitivity creates a Focus Shift (i.e. most lenses cannot focus the IR at the same image locations as the visible spectrum.) omputar has corrected this image shift by using ED glass. ED glass has special refractive properties that allow the optical designer to correct the longer IR wavelength so that two spectral regions and focused at the same image plane. ED glass produces an image that is not subject to Focus Shift Day or Night. TEHNIAL INFORMATION Daytime Nighttime IR Lens Non IR Lens Object distance Focal length f=2.8mm f=3.5mm f=8mm 2m 5m 10m 20m TEHNIAL INFORMATION f=30mm f=50mm
16 TEHNIAL INFORMATION TEHNIAL INFORMATION
17 T2314FI3 T2616FI3 T0412FI3 T0812FI3 H1214FI3 M8513 Format inch Format inch Focal Length (mm) Focal Length (mm) Aperture (F) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) 57.4 " (6.44.8mm) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) TG2314F3 TG2616F4 TG0412F3 TG0812F3 HG0614F3 HG1214F3 TG2314AF3 TG2616AF3 HG1214AF UNIT: () 1/4" (3.62.7mm) TG2Z1816F TG2Z2814F2 TG2Z3514F2 TG3Z2312F TG3Z2710F TG3Z3510F TG3Z3510FIR TG4Z2813F TG10Z0513F2 TG5Z8513FIR HG2Z4516F2 HG3Z4512FIR HG3Z1014F TG2Z1816AF TG2Z2814AF2 TG2Z3514AF2 TG3Z2710AF TG3Z3510AF TG3Z3510AFIR TG4Z2813AF TG10Z0513AF2 TG5Z8513AFIR HG2Z4516AF2 HG3Z4512AFIR HG3Z1014AF Format inch Focal Length (mm) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) ANGLE OF VIEW T2Z1816 T2Z35142 T3Z2710 T3Z3510 T3Z3510IR T4Z2813 T10Z05132 T5Z8513IR H2Z45162 H3Z4512IR H3Z1014 Format inch Focal Length (mm) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) H6Z0812 M6Z1212 Format inch T6Z5710AID H6Z0812AID T6Z5710AIVD H6Z0812AIVD Format inch Focal Length (mm) Focal Length (mm) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) Aperture (F) " (6.44.8mm) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) UNIT: () 1/4" (3.62.7mm) ANGLE OF VIEW
18 T6Z5710Series T10Z5712Series T21Z5816Series T34Z5518Series H6Z0812Series H10Z0812Series H10Z1218Series H16Z7516Series H30Z1015Series Format inch Focal Length (mm) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) HG2Z0414FMP M3Z1228MP M0814MP M1214MP M1614MP M2514MP M5018MP H0514MP MLM3XMP MLH10X TEM55 Format inch Focal Length (mm) X1.0X X 55 Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) mark (MLH10X, MLM3XMP) shows Maximum Magnification T2625P TG2625FP TG2625AFP Format inch Focal Length (mm) Aperture (F) Angle of View (HORIZONTAL) 1" mm) " (8.86.6mm) " (6.44.8mm) " (4.83.6mm) UNIT: () 1/4" (3.62.7mm) ANGLE OF VIEW SPEIFIATIONS SUBJET TO HANGE WITHOUT NOTIE.
12-13 L E N S P R O D U C T G U I D E
12-13 The World Standard for Lenses. At B, we have set the world standard for lenses through the design, manufacture and global sales of the "omputar" brand. Since the very beginning of the video security
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 information2009 CCTV LENSES MEGAPIXEL 24/7 SECURITY HIGH QUALITY SURVEILLANCE FA/MACHINE VISION
2009 CCTV LENSES MEGAPIXEL 24/7 SECURITY HIGH QUALITY SURVEILLANCE FA/MACHINE VISION MEGAPIXEL Ultra High Resolution Day/Night for 24/7 Security Broad Focal Range for extreme flexibility Compact Size to
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 informationEF 15mm f/2.8 Fisheye. EF 14mm f/2.8l USM. EF 20mm f/2.8 USM
Wide and Fast If you need an ultra-wide angle and a large aperture, one of the following lenses will fit the bill. Ultra-wide-angle lenses can capture scenes beyond your natural field of vision. The EF
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 informationWhere Image Quality Begins
Where Image Quality Begins Filters are a Necessity Not an Accessory Inexpensive Insurance Policy for the System The most cost effective way to improve repeatability and stability in any machine vision
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 informationCh 24. Geometric Optics
text concept Ch 24. Geometric Optics Fig. 24 3 A point source of light P and its image P, in a plane mirror. Angle of incidence =angle of reflection. text. Fig. 24 4 The blue dashed line through object
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 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 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 informationLenses, exposure, and (de)focus
Lenses, exposure, and (de)focus http://graphics.cs.cmu.edu/courses/15-463 15-463, 15-663, 15-862 Computational Photography Fall 2017, Lecture 15 Course announcements Homework 4 is out. - Due October 26
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 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 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 informationSection 8. Objectives
8-1 Section 8 Objectives Objectives Simple and Petval Objectives are lens element combinations used to image (usually) distant objects. To classify the objective, separated groups of lens elements are
More informationIntroduction to Optical Modeling. Friedrich-Schiller-University Jena Institute of Applied Physics. Lecturer: Prof. U.D. Zeitner
Introduction to Optical Modeling Friedrich-Schiller-University Jena Institute of Applied Physics Lecturer: Prof. U.D. Zeitner The Nature of Light Fundamental Question: What is Light? Newton Huygens / Maxwell
More informationVision. The eye. Image formation. Eye defects & corrective lenses. Visual acuity. Colour vision. Lecture 3.5
Lecture 3.5 Vision The eye Image formation Eye defects & corrective lenses Visual acuity Colour vision Vision http://www.wired.com/wiredscience/2009/04/schizoillusion/ Perception of light--- eye-brain
More informationDifrotec Product & Services. Ultra high accuracy interferometry & custom optical solutions
Difrotec Product & Services Ultra high accuracy interferometry & custom optical solutions Content 1. Overview 2. Interferometer D7 3. Benefits 4. Measurements 5. Specifications 6. Applications 7. Cases
More informationUltra-Wide Zoom Standard Zoom Telephoto Zoom Ultra-Wide & Wide Standard Medium Telephoto Telephoto Super Telephoto Macro TS-E Lens Accessories
Ultra-Wide Zoom Standard Zoom Telephoto Zoom Ultra-Wide & Wide Standard Medium Telephoto Telephoto Super Telephoto Macro TS-E Lens Accessories Images From Your Imagination,Delivered by Canon EF Lenses
More informationPHY385H1F Introductory Optics. Practicals Session 7 Studying for Test 2
PHY385H1F Introductory Optics Practicals Session 7 Studying for Test 2 Entrance Pupil & Exit Pupil A Cooke-triplet consists of three thin lenses in succession, and is often used in cameras. It was patented
More informationRefraction of Light. Refraction of Light
1 Refraction of Light Activity: Disappearing coin Place an empty cup on the table and drop a penny in it. Look down into the cup so that you can see the coin. Move back away from the cup slowly until the
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 informationDSLR FOCUS MODES. Single/ One shot Area Continuous/ AI Servo Manual
DSLR FOCUS MODES Single/ One shot Area Continuous/ AI Servo Manual Single Area Focus Mode The Single Area AF, also known as AF-S for Nikon or One shot AF for Canon. A pretty straightforward way to acquire
More informationCH. 23 Mirrors and Lenses HW# 6, 7, 9, 11, 13, 21, 25, 31, 33, 35
CH. 23 Mirrors and Lenses HW# 6, 7, 9, 11, 13, 21, 25, 31, 33, 35 Mirrors Rays of light reflect off of mirrors, and where the reflected rays either intersect or appear to originate from, will be the location
More information2. The radius of curvature of a spherical mirror is 20 cm. What is its focal length?
1. Define the principle focus of a concave mirror? The principle focus of a concave mirror is a point on its principle axis to which all the light rays which are parallel and close to the axis, converge
More informationOptics: Lenses & Mirrors
Warm-Up 1. A light ray is passing through water (n=1.33) towards the boundary with a transparent solid at an angle of 56.4. The light refracts into the solid at an angle of refraction of 42.1. Determine
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 informationChapter 23. Mirrors and Lenses
Chapter 23 Mirrors and Lenses Notation for Mirrors and Lenses The object distance is the distance from the object to the mirror or lens Denoted by p The image distance is the distance from the image to
More informationth e Art o f Ci n e m a to g ra p h y
Tokina_Cinema_ATX-Catalog-2015-01_Layout 1 2015/10/13 午後 9:25 ページ 1 Visionary Technologies for th e Art o f Ci n e m a to g ra p h y Tokina_Cinema_ATX-Catalog-2015-01_Layout 1 2015/10/13 午後 9:25 ページ 2
More informationDSLR Cameras have a wide variety of lenses that can be used.
Chapter 8-Lenses DSLR Cameras have a wide variety of lenses that can be used. The camera lens is very important in making great photographs. It controls what the sensor sees, how much of the scene is included,
More informationLecture PowerPoint. Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli
Lecture PowerPoint Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the
More informationSpherical Mirrors. Concave Mirror, Notation. Spherical Aberration. Image Formed by a Concave Mirror. Image Formed by a Concave Mirror 4/11/2014
Notation for Mirrors and Lenses Chapter 23 Mirrors and Lenses The object distance is the distance from the object to the mirror or lens Denoted by p The image distance is the distance from the image to
More informationOptics: An Introduction
It is easy to overlook the contribution that optics make to a system; beyond basic lens parameters such as focal distance, the details can seem confusing. This Tech Tip presents a basic guide to optics
More informationInstruction Manual T Binocular Acromat Research Scope T Trinocular Acromat Research Scope
Research Scope Instruction Manual T-29031 Binocular Acromat Research Scope T-29041 Trinocular Acromat Research Scope T-29032 Binocular Semi-Plan Research Scope T-29042 Trinocular Semi-Plan Research Scope
More informationChapter 23. Mirrors and Lenses
Chapter 23 Mirrors and Lenses Mirrors and Lenses The development of mirrors and lenses aided the progress of science. It led to the microscopes and telescopes. Allowed the study of objects from microbes
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 informationOptoliner NV. Calibration Standard for Sighting & Imaging Devices West San Bernardino Road West Covina, California 91790
Calibration Standard for Sighting & Imaging Devices 2223 West San Bernardino Road West Covina, California 91790 Phone: (626) 962-5181 Fax: (626) 962-5188 www.davidsonoptronics.com sales@davidsonoptronics.com
More information25 cm. 60 cm. 50 cm. 40 cm.
Geometrical Optics 7. The image formed by a plane mirror is: (a) Real. (b) Virtual. (c) Erect and of equal size. (d) Laterally inverted. (e) B, c, and d. (f) A, b and c. 8. A real image is that: (a) Which
More informationTop-level performance optimized for the era of ultra-high-megapixel cameras
February, 2017 A Art SIGMA 24-70mm F2.8 DG OS HSM Top-level performance optimized for the era of ultra-high-megapixel cameras 1. The large-diameter standard zoom ideal for today s ultra-high-megapixel
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 informationINTRODUCTION THIN LENSES. Introduction. given by the paraxial refraction equation derived last lecture: Thin lenses (19.1) = 1. Double-lens systems
Chapter 9 OPTICAL INSTRUMENTS Introduction Thin lenses Double-lens systems Aberrations Camera Human eye Compound microscope Summary INTRODUCTION Knowledge of geometrical optics, diffraction and interference,
More informationWaves & Oscillations
Physics 42200 Waves & Oscillations Lecture 33 Geometric Optics Spring 2013 Semester Matthew Jones Aberrations We have continued to make approximations: Paraxial rays Spherical lenses Index of refraction
More informationTESTING VISUAL TELESCOPIC DEVICES
TESTING VISUAL TELESCOPIC DEVICES About Wells Research Joined TRIOPTICS mid 2012. Currently 8 employees Product line compliments TRIOPTICS, with little overlap Entry level products, generally less expensive
More informationCCAM Microscope Objectives
CCAM Microscope Objectives Things to consider when selecting an objective Magnification Numerical Aperture (NA) resolving power and light intensity of the objective Working Distance distance between the
More informationChapter 25 Optical Instruments
Chapter 25 Optical Instruments Units of Chapter 25 Cameras, Film, and Digital The Human Eye; Corrective Lenses Magnifying Glass Telescopes Compound Microscope Aberrations of Lenses and Mirrors Limits of
More informationULISSE COMPACT THERMAL
2014/01/20 UNIT WITH INTEGRATED THERMAL AND DAY/NIGHT CAMERAS MAIN FEATURES Variable speed: 0.1-200 /s Pan/Tilt Horizontal continuous rotation, vertical -90 /+90 IP66 Dual independent video output Complete
More information1) An electromagnetic wave is a result of electric and magnetic fields acting together. T 1)
Exam 3 Review Name TRUE/FALSE. Write 'T' if the statement is true and 'F' if the statement is false. 1) An electromagnetic wave is a result of electric and magnetic fields acting together. T 1) 2) Electromagnetic
More informationWith their compact bodies and a diverse range of design, mirrorless interchangeable lens
A Art SIGMA 19 mm F2.8 DN With their compact bodies and a diverse range of design, mirrorless interchangeable lens cameras have been evolving in their own unique way. To achieve a lens system corresponding
More informationLens Design I. Lecture 5: Advanced handling I Herbert Gross. Summer term
Lens Design I Lecture 5: Advanced handling I 2018-05-17 Herbert Gross Summer term 2018 www.iap.uni-jena.de 2 Preliminary Schedule - Lens Design I 2018 1 12.04. Basics 2 19.04. Properties of optical systems
More informationUnderstanding Focal Length
JANUARY 19, 2018 BEGINNER Understanding Focal Length Featuring DIANE BERKENFELD, DAVE BLACK, MIKE CORRADO & LINDSAY SILVERMAN Focal length, usually represented in millimeters (mm), is the basic description
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 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 informationChapter 23. Mirrors and Lenses
Chapter 23 Mirrors and Lenses Notation for Mirrors and Lenses The object distance is the distance from the object to the mirror or lens Denoted by p The image distance is the distance from the image to
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 information9/19/16. A Closer Look. Danae Wolfe. What We ll Cover. Basics of photography & your camera. Technical. Macro & close-up techniques.
A Closer Look Danae Wolfe What We ll Cover Basics of photography & your camera Technical Macro & close-up techniques Creative 1 What is Photography? Photography: the art, science, & practice of creating
More informationFotoman Panoramic Cameras
Fotoman Panoramic Cameras focus mount shim Procedure for Assembly of your Fotoman Camera and Cone Assembly Please take a moment, and study the assembly diagram shown on the previous page prior to actually
More informationLecture 22: Cameras & Lenses III. Computer Graphics and Imaging UC Berkeley CS184/284A, Spring 2017
Lecture 22: Cameras & Lenses III Computer Graphics and Imaging UC Berkeley, Spring 2017 F-Number For Lens vs. Photo A lens s F-Number is the maximum for that lens E.g. 50 mm F/1.4 is a high-quality telephoto
More informationOptical Systems: Pinhole Camera Pinhole camera: simple hole in a box: Called Camera Obscura Aristotle discussed, Al-Hazen analyzed in Book of Optics
Optical Systems: Pinhole Camera Pinhole camera: simple hole in a box: Called Camera Obscura Aristotle discussed, Al-Hazen analyzed in Book of Optics 1011CE Restricts rays: acts as a single lens: inverts
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 informationAverage: Standard Deviation: Max: 99 Min: 40
1 st Midterm Exam Average: 83.1 Standard Deviation: 12.0 Max: 99 Min: 40 Please contact me to fix an appointment, if you took less than 65. Chapter 33 Lenses and Op/cal Instruments Units of Chapter 33
More informationIntro to Digital SLR and ILC Photography Week 1 The Camera Body
Intro to Digital SLR and ILC Photography Week 1 The Camera Body Instructor: Roger Buchanan Class notes are available at www.thenerdworks.com Course Outline: Week 1 Camera Body; Week 2 Lenses; Week 3 Accessories,
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 informationThere is a range of distances over which objects will be in focus; this is called the depth of field of the lens. Objects closer or farther are
Chapter 25 Optical Instruments Some Topics in Chapter 25 Cameras The Human Eye; Corrective Lenses Magnifying Glass Telescopes Compound Microscope Aberrations of Lenses and Mirrors Limits of Resolution
More informationOne Week to Better Photography
One Week to Better Photography Glossary Adobe Bridge Useful application packaged with Adobe Photoshop that previews, organizes and renames digital image files and creates digital contact sheets Adobe Photoshop
More informationChapters 1 & 2. Definitions and applications Conceptual basis of photogrammetric processing
Chapters 1 & 2 Chapter 1: Photogrammetry Definitions and applications Conceptual basis of photogrammetric processing Transition from two-dimensional imagery to three-dimensional information Automation
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 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 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 informationPHYSICS. Chapter 35 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT
PHYSICS FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E Chapter 35 Lecture RANDALL D. KNIGHT Chapter 35 Optical Instruments IN THIS CHAPTER, you will learn about some common optical instruments and
More informationProviding the accessories you need from quality brands you can rely on.
www.gentec-intl.com Providing the accessories you need from quality brands you can rely on. Imaging Accessories Electronic Accessories Mobile Phone Accessories Everything you need is at your fingertips
More informationSpoiled for choice: Sony α E-mount family grows with four brand-new Full-frame lenses plus two Full-frame converters
2 International Business Park #05-10 Tower One The Strategy Singapore 609930 Telephone: (65) 6544 8338 Facsimile: (65) 6544 8330 NEWS RELEASE: Immediate Spoiled for choice: Sony α E-mount family grows
More informationIntroduction. Note. This is about what happens on the streets.
Page : 1 Note If there are people who have any commitment with certain photos, and do not wish the photo s on this book please let it now to XinXii, so they could contact me and I make sure the photos
More informationTokinaLensCatalog :10 PM Page 1 L E N S C A T A L O G
L E N S C A T A L O G www.thkphoto.com Digital Eyes Floating Element Assembly Aluminum Alloy Die-Cast Model VISIONARY TECHNOLOGY MAKES A DIFFERENCE YOU CAN SEE. Tokina s proprietary AT-X technology has
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 informationAstronomy 80 B: Light. Lecture 9: curved mirrors, lenses, aberrations 29 April 2003 Jerry Nelson
Astronomy 80 B: Light Lecture 9: curved mirrors, lenses, aberrations 29 April 2003 Jerry Nelson Sensitive Countries LLNL field trip 2003 April 29 80B-Light 2 Topics for Today Optical illusion Reflections
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 informationLENS 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 informationBasic Principles of the Surgical Microscope. by Charles L. Crain
Basic Principles of the Surgical Microscope by Charles L. Crain 2006 Charles L. Crain; All Rights Reserved Table of Contents 1. Basic Definition...3 2. Magnification...3 2.1. Illumination/Magnification...3
More informationWhy is There a Black Dot when Defocus = 1λ?
Why is There a Black Dot when Defocus = 1λ? W = W 020 = a 020 ρ 2 When a 020 = 1λ Sag of the wavefront at full aperture (ρ = 1) = 1λ Sag of the wavefront at ρ = 0.707 = 0.5λ Area of the pupil from ρ =
More informationProviding the accessories you need from quality brands you can rely on.
Providing the accessories you need from quality brands you can rely on. Imaging Accessories Electronic Accessories Mobile Phone Accessories Everything you need is at your fingertips at Sporting Goods,
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 informationChapter 36. Image Formation
Chapter 36 Image Formation Image of Formation Images can result when light rays encounter flat or curved surfaces between two media. Images can be formed either by reflection or refraction due to these
More informationOpto Engineering S.r.l.
TUTORIAL #1 Telecentric Lenses: basic information and working principles On line dimensional control is one of the most challenging and difficult applications of vision systems. On the other hand, besides
More informationLIGHT REFLECTION AND REFRACTION
LIGHT REFLECTION AND REFRACTION REFLECTION OF LIGHT A highly polished surface, such as a mirror, reflects most of the light falling on it. Laws of Reflection: (i) The angle of incidence is equal to the
More informationWhat Are The Basic Part Of A Film Camera
What Are The Basic Part Of A Film Camera Focuses Incoming Light Rays So let's talk about the moustaches in this movie, they are practically characters of their An instrument that produces images by focusing
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 informationChapter 36. Image Formation
Chapter 36 Image Formation Notation for Mirrors and Lenses The object distance is the distance from the object to the mirror or lens Denoted by p The image distance is the distance from the image to the
More informationPHYS 202 OUTLINE FOR PART III LIGHT & OPTICS
PHYS 202 OUTLINE FOR PART III LIGHT & OPTICS Electromagnetic Waves A. Electromagnetic waves S-23,24 1. speed of waves = 1/( o o ) ½ = 3 x 10 8 m/s = c 2. waves and frequency: the spectrum (a) radio red
More informationPRODUCT OVERVIEW FOR THE. Corona 350 II FLIR SYSTEMS POLYTECH AB
PRODUCT OVERVIEW FOR THE Corona 350 II FLIR SYSTEMS POLYTECH AB Table of Contents Table of Contents... 1 Introduction... 2 Overview... 2 Purpose... 2 Airborne Data Acquisition and Management Software (ADAMS)...
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 informationBROADCAST ENGINEERING 5/05 WHITE PAPER TUTORIAL. HEADLINE: HDTV Lens Design: Management of Light Transmission
BROADCAST ENGINEERING 5/05 WHITE PAPER TUTORIAL HEADLINE: HDTV Lens Design: Management of Light Transmission By Larry Thorpe and Gordon Tubbs Broadcast engineers have a comfortable familiarity with electronic
More informationImage Formation. Light from distant things. Geometrical optics. Pinhole camera. Chapter 36
Light from distant things Chapter 36 We learn about a distant thing from the light it generates or redirects. The lenses in our eyes create images of objects our brains can process. This chapter concerns
More informationmirrors and lenses PHY232 Remco Zegers Room W109 cyclotron building
mirrors and lenses PHY232 Remco Zegers zegers@nscl.msu.edu Room W109 cyclotron building http://www.nscl.msu.edu/~zegers/phy232.html quiz (extra credit) a ray of light moves from air to a material with
More informationLecture Outline Chapter 27. Physics, 4 th Edition James S. Walker. Copyright 2010 Pearson Education, Inc.
Lecture Outline Chapter 27 Physics, 4 th Edition James S. Walker Chapter 27 Optical Instruments Units of Chapter 27 The Human Eye and the Camera Lenses in Combination and Corrective Optics The Magnifying
More informationRefraction by Spherical Lenses by
Page1 Refraction by Spherical Lenses by www.examfear.com To begin with this topic, let s first know, what is a lens? A lens is a transparent material bound by two surfaces, of which one or both the surfaces
More informationPress Release. Sony α E-mount Family Grows with Three Brand-new Full-frame Lenses plus Two Full-frame Converters
Press Release Sony α E-mount Family Grows with Three Brand-new Full-frame Lenses plus Two Full-frame Converters SEL35F14Z SEL24240 FE 24-240mm F3.5-6.3 OSS (SEL24240) Full-frame Zoom 10x Lens Zeiss Distagon
More informationLens Design II. Lecture 2: Structural modifications Herbert Gross. Winter term
Lens Design II Lecture 2: Structural modifications 26--26 Herbert Gross Winter term 26 www.iap.uni-jena.de 2 Preliminary Schedule 9.. Aberrations and optimization Repetition 2 26.. Structural modifications
More informationOPTICAL SYSTEMS OBJECTIVES
101 L7 OPTICAL SYSTEMS OBJECTIVES Aims Your aim here should be to acquire a working knowledge of the basic components of optical systems and understand their purpose, function and limitations in terms
More information