thales optem optem zoom 160
Transcription
thales optem optem zoom 160
THALES OPTEM ISO 9000:2001 OPTEM ZOOM 160 16:1 OPTICAL SYSTEM SUPERIOR OPTICAL PERFORMANCE The Ultimate in Resolution and Magnification www.thales-optem.com Table of Contents Introduction..........................2 Modular Components ..........3 TV Tubes Options ................3 Mounting Options ................3 Illumination Options ............4 Motorization Options ..........5 Magnification Options..........5 System Diagram ..................6 Optical Performance ..........8 THE OPTICAL MUSCLE OF A RESEARCH MICROSCOPE… AND THE VERSATILITY OF AN OPTEM™ ZOOM accessories. Imaging through these elevated optical standards, the When resolving the finest details of your subject is mission Zoom 160 System offers a maximum resolution of 0.30 NA and 900 lp/mm. A robust 16:1 zoom ratio covers magnifications from 0.5X to 8.0X at 89mm working distance in nominal configuration. The innovative optical design incorporates the highest-grade glass and is reinforced with equally refined components and critical to your application, but the operation of a conventional research microscope is too cumbersome, the Optem™ Zoom 160 Optical System is the perfect solution. Designed for Your Flexibility The Zoom 160 features the signature Optem™ modular design, affording application-specific configuration flexi- With it’s unprecedented zoom range and resolution, the Zoom 160 bility by simply interchanging Upper Zoom Modules and can be easily configured to deliver optical performance rivaling that Lower Function Modules with a wide variety of automation, of benchtop research microscopes. Combine this optical performance magnification and illumination accessories. This interchangeability requires with the added versatility of continuous 16:1 field-of-view and no special tooling and occurs with no adverse affect on the optical magnification flexibility, automatable zoom and focus functions, performance and integrity of your system. and crisp video output... and you have a powerful research instrument worthy of today’s rapidly advancing high-definition Certified under the latest and more rigorous ISO 9001:2000 standard, video technologies. Optem™ Zooms reflect steadfast quality and reliability. These values are firmly engrained in all aspects of our design, engineering and 02 www.thales-optem.com manufacturing processes. Every operational Zoom 160 Optical System requires the following base components: C-Mount or Bayonet Coupler Attaches the camera to the dovetail tube Dovetail TV Tube Positions the camera at the proper distance from the zoom (rear conjugate) Upper Zoom Module Contains the core zoom mechanics Lower Function Module Houses internal focus and coaxial illumination options Objective Lens Transmits image to the zoom at “infinity” Motorized Zoom Modules – Provides remote automated operation of your zoom system. There are two motorized options available. DC motorized versions provide smooth continuous zooming throughout the entire zoom range. Stepper motorized versions provide zoom homing positions for applications requiring repeatable magnification settings. The Stepper Motor modules have a companion RS232 controller which may be purchased as a self-contained unit or as a PC Board for easier OEM integration. OEM Zoom Module – To afford OEMs with maximum design flexibility, the Zoom 160 OEM Module comes as a core optical unit without the exterior sleeve for easier systems integration. CONNECTING TO YOUR CAMERA Customize your Zoom 160 by selecting from a wide array of Dovetail TV Tube configuration options, mount types and magnifications. Zoom 160 Dovetail TV Tubes require the centerable 1.00x32 C-Mount Coupler to connect your camera and establish the correct focal plane. Optional Bayonet Adapters can be integrated to afford greater camera mount versatility. Tele Dovetail TV Tubes offer 1.0X – 2.0X magnification adjustment from the same TV Tube to provide greater system flexibility. Zoom 160 Dovetail TV Tube features include… • Internal focus for easier parfocality establishment (except 1.0X Tubes where focus is unaffected). • Magnifications from 0.38X – 2.0X. High-power Tubes increase onmonitor magnification while reducing Tubes provide broader fields-ofview. • Configuration options allow you to vary the orientation and optical path of your Zoom 160 System. Choose from: • Straight Standard • Straight Mini • Bayonet Mount • Right-Angle • Non-Inverting Right-Angle • 180° U-Bend ZOOM 160 LOWER MODULES Select from 12 Lower Modules to provide a variety of illumination and focusing options to your Zoom 160. Lower Modules can be attached below a Zoom 160 Upper Module by simply tightening three set screws with the provided allen wrench. Standard Modules – The fundamental lower function module provides the capability of attaching Objective Lenses to a Zoom 160 without adding internal fine focus or coaxial illumination functions. Internal 15mm Fine Focus Modules Ideal for applications without separate focusing support systems. Provides the ability to focus over a 15mm axial distance at the object. Available in manual and motorized options. Coaxial Illumination Modules – This Module provides a port for the injection of incident light. Available with Internal 5mm Focus in manual or motorized options. All Coaxial Lower Modules are available with an optional, built-in Analyzer for polarized light applications. A Polarizer (30-36-03-000), and a 1/4 Wave Plate (30-36-04-000) are recommended for optimal performance when using the Analyzer (see System Diagram p. 6-7). UPPER ZOOM MODULE OPTIONS The upper Zoom Module determines the mechanical nature of your zoom function… manual or motorized… detented or DC motorized. All Zoom 160 Upper Zoom Modules come standard with an iris diaphragm for better light level control and increased depth-of-field. OBJECTIVE LENSES Manual Zoom Modules – Provides an economical hand-driven 16:1 zoom function. Detented Manual Zoom Modules – Obtain specific magnification stops throughout your manual zoom range without motorization. Detents are typically used in measuring applications where each position calls for calibration. The factory pre-set stops for the Zoom 160 are located at 0.5X, 1.0X, 2.0X, 3.0X, 4.0X, 5.0X, 6.0X, 7.0X and 8.0X. Mandatory for operation of your Zoom 160 System, Objective Lenses attach to the Lower Modules and are available in a variety of magnifications to further expand Zoom 160’s imaging capabilities. For all part numbers, ordering information and configuration options, refer to the System Diagram (p 6-7), or visit the Zoom 160 section of our web site. ZOOM 160 UPPER AND LOWER MODULES REQUIRED COMPONENTS THALES OPTEM Coaxial Illuminators project cool, white light perpendicularly onto the specimen. Coaxial illumination is most useful on highly reflective subjects, as it provides maximum intensity control. Apodization Filters – For your machine vision and automated inspection applications, improve the algorithmic efficiency and accuracy of your Zoom 160 with an Optem™ Apodization Filter. These Filters integrate directly into the illumination arm of coaxial lower function modules for the Optem™ Zoom 70XL, Zoom 125C, and Zoom 160 Optical Systems. Optem™ VSI Fiber Optic Illuminators – NEW for 2004, available in 110V or 220V, these compact, lightweight lamphouses yield remote illumination via a 40” or 60” fiber optic cable. Halogen Illuminators – An economical light source alternative to brighter fiber optic illumination for coaxial-equipped Zoom 160 Lower Function Modules. ZOOM 160 OBLIQUE ILLUMINATION Oblique (or ring) Illumination is generally used on 3-D objects to cast light rays at an angle onto the object, thus better defining its dimension. Polarized Light – Coaxial Modules with built-in Analyzers are available to introduce polarized light to your Zoom 160. Horizontal & Vertical Ring Lights – Ideal for general purpose lighting applications, the fiber optic cable either exits the ring light horizontally at 90° off vertical, or vertically at 30° off vertical valuable space savings. A specific Objective Ring Light is required when incorporating oblique illumination with Infinity-Corrected Objectives. Optem™ LF Coax Accessory – Specifically designed to evenly illuminate a broader 50mm field, the LF (Large-Field) Coax Accessory is intended for use with a 0.5X or 0.25X Auxiliary Lens where the added working distance will accommodate the reduced space requirements. 0.38X 0.50X 0.67X 1.0X 1.5X 2.0X DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE camera format MAG. 1/4" 1/3" 1/2" 2/3" Low 0.19 14.5 x 19.4 9.6 x 12.8 2.8 x 3.8 2.7 x 3.6 High 3.0 0.91 x 1.2 1.2 x 1.6 1.6 x 2.1 2.2 x 2.9 Low 0.25 10.9 x 14.6 12.0 x 16.0 3.8 x 5.1 2.2 x 2.9 High 4.0 0.68 x 0.91 0.90 x 1.2 1.2 x 1.6 1.6 x 2.2 Low 0.33 8.1 x 10.9 10.8 x 14.4 7.2 x 9.6 3.5 x 4.7 High 5.3 0.51 x 0.68 0.67 x 0.90 0.90 x 1.2 1.2 x 1.6 Low 0.50 5.4 x 7.3 7.2 x 9.6 9.6 x 12.8 8.8 x 11.7 High 8.0 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 0.82 x 1.1 Low 0.75 3.6 x 4.8 4.8 x 6.4 6.4 x 8.5 8.8 x 11.7 High 12.0 0.22 x 0.30 0.30 x 0.40 0.40 x 0.53 0.55 x 0.73 Low 1.0 2.7 x 3.6 3.6 x 4.8 4.8 x 6.4 6.6 x 8.8 High 16.0 0.17 x 0.22 0.22 x 0.30 0.30 x 0.40 0.41 x 0.55 camera format Useable Fields-of-View with Coaxial Illumination MAG. 1/4" 1/3" 1/2" 2/3" 0.28 9.7 x 12.9 6.4 x 8.5 1.7 x 2.3 1.7 x 2.2 4.5 0.60 x 0.81 0.80 x 1.0 1.0 x 1.4 1.4 x 1.9 0.38 7.2 x 9.7 9.6 x 12.8 4.0 x 5.3 1.5 x 2.0 6.0 0.45 x 0.60 0.60 x 0.80 0.80 x 1.0 1.1 x 1.4 0.50 5.4 x 7.3 7.2 x 9.6 6.0 x 8.0 4.4 x 5.9 8.0 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 0.82 x 1.1 0.75 3.6 x 4.8 4.8 x 6.4 6.4 x 8.5 7.3 x 9.8 12.0 0.22 x 0.30 0.30 x 0.40 0.40 x 0.53 0.55 x 0.73 1.1 2.4 x 3.2 3.2 x 4.2 4.2 x 5.6 5.8 x 7.8 18.0 0.15 x 0.20 0.20 x 0.26 0.26 x 0.35 0.36 x 0.48 1.5 1.8 x 2.4 2.4 x 3.2 3.2 x 4.2 4.4 x 5.8 24.0 0.11 x 0.15 0.15 x 0.20 0.20 x 0.26 0.27 x 0.36 camera format MAG. 1/4" 1/3" 1/2" 2/3" 0.38 7.2 x 9.7 4.0 x 5.3 1.3 x 1.8 1.2 x 1.7 6.0 0.45 x 0.60 0.60 x 0.80 0.80 x 1.0 1.1 x 1.4 0.50 5.4 x 7.3 5.1 x 6.9 1.5 x 2.0 1.1 x 1.4 8.0 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 0.82 x 1.1 0.67 4.0 x 5.4 5.4 x 7.2 2.9 x 3.8 1.7 x 2.2 10.7 0.25 x 0.34 0.33 x 0.45 0.44 x 0.59 0.61 x 0.82 1.0 2.7 x 3.6 3.6 x 4.8 4.8 x 6.4 4.4 x 5.9 16.0 0.17 x 0.22 0.22 x 0.30 0.30 x 0.40 0.41 x 0.55 1.5 1.8 x 2.4 2.4 x 3.2 3.2 x 4.2 4.4 x 5.8 24.0 0.11 x 0.15 0.15 x 0.20 0.20 x 0.26 0.27 x 0.36 2.0 1.3 x 1.8 1.8 x 2.4 2.4 x 3.2 3.3 x 4.4 32.0 0.085 x 0.11 0.11 x 0.15 0.15 x 0.20 0.20 x 0.27 89mm WORKING DISTANCE 1.5X 56mm WORKING DISTANCE 2.0X 37mm WORKING DISTANCE F.O.V. (mm) 1.0X F.O.V. (mm) OBJECTIVE LENS F.O.V. (mm) ZOOM 160 ILLUMINATION AND MAGNIFICATION ZOOM 160 COAXIAL ILLUMINATION { { { N.A. = Numerical Aperture MAG. = Magnification D.O.F. = Depth-of-Field F.O.V. = Field-of-View NOTE: Fields-of-View indicated in red represent conditions where zoom range is limited due to 50% vignetting. INFINITY-CORRECTED OBJECTIVES With the AB Lens removed and equipped with an Optem™ Infinity- In place of the required Objective Lenses, the Zoom 160 can also Corrected Objective, your Zoom 160 will effectively duplicate the be equipped with a variety of major brand infinity-corrected performance of higher priced microscopes, with the added benefit of a objectives to enhance magnification and extend continuous 16:1 zoom range. the optical performance of your system. OPTEM™ OBJECTIVE DESCRIPTION NUMERICAL APERTURE WORKING DISTANCE Both Optem and Mitutoyo brand Infinity-Corrected CAT. NO. Objectives can be threaded directly into one of 28-20-44-000 ........High-Res 5X ..........0.225..........34mm 28-20-45-000 ......High-Res 10X ..........0.45 ..........19mm 28-20-46-000 ......High-Res 20X ..........0.60 ..........13mm 28-21-10-000 ..........LWD 10X ..............0.30 ..........34mm two Objective Adapters. Nikon and Olympus Infinity-Corrected Objectives can be integrated similarly, but require an RMS Adapter (see System Diagram, p. 6-7). Performance may vary from one brand objective to another. 04 www.thales-optem.com NOTE: Varying levels of vignetting may occur with infinity-corrected objectives, dependent upon system configuration. Refer to the “Useable Fields-of-View with Infinity Corrected Objectives” Chart, available as a download from www.thales-optem.com. LabVIEW™ VI’s For system integrators working from the LabVIEW platform, Optem Zooms now offer a VI library permitting seamless assimilation of our Stepper Motorized options. DC Motor Models DC Motors allow continuous movement throughout either the zoom or focus range. Two MOTORIZING YOUR ZOOM 160 ports in the back of the Motor Driver accept both The Zoom 160 Optical System can be specified with built-in motorized zoom and focus motorized functions. zoom, and/or focus functions. Choose from a variety of motorization and control options to best suit your specific application. Stepper Motor Models – NEW for 2004, all Stepper Motor equipped Zoom 160s feature Hall-Effect Sensors. This engineering improvement ensures pinpoint mechanical accuracy and repetition for automated applications, and presents a smaller zoom barrel clearance diameter for improved space efficiency in OEM integrations. ZOOM 160 MOUNTING OPTIONS Whether your application calls for using the Zoom 160 as a stand-alone benchtop research instrument, or as an integrated component in your ensure streamlined integration and maximum image stability. Zoom 160 can be specified in motorized configurations that facilitate computerized control of the Zoom and Focus functions. Stepper Motors Stand-Mounting Zoom 160 permit discrete movement (steps) in fine increments. Homing Sensors are Manual Zoom 160s can be mounted on standard on Zoom 160 Stepper Motor models and provide a “zero” a microscope stand by means of a position for repeating locations. This permits pre-programming of setups Flange Mount that locks onto the for multiple work pieces. Stand Mounts Zoom 160 external flange of the Zoom 160 Upper Stepper Motor Controller A Stepper Motor Controller is designed to operate the Zoom Module itself. The external flange Flange Mount or Tube Clamp provides a means of securely holding a Zoom 160 in a ring-style mount. Stepper Motors. Manual operation is available through the use of individual “rocker” switches. Each axis has Motorized Zoom 160s cannot be its own speed control. RS232 operation is implemented mounted by the external flange due to through a serial port and a Windows GUI. Software is provided for use interference of the motors. Instead, with Windows 9X, 2000, XP or NT. Microscope Stand they may be clamped on the Dovetail Tubes with a Tube Clamp or Flat Mount. OEM Stepper Motor Board The use of an OEM Board replaces the Stepper Flat Mounting Zoom 160 Motor Controller box. The OEM Board has all connec- The Zoom 160 can be securely mounted to a flat surface by utilizing tions on-board and is available with a code library for the Zoom Flat Mount (as shown below). Simply locate the pre-tapped modification of functions. Zoom 160 OEM Controller Board connections holes on the Zoom 160 outer housing and match them to the holes on are detailed in the diagram below. the Zoom Flat Mount. Flat Flat Mount 2.437 Mounting the Zoom 160 OEM Controller Board Connections maximizes improves stability image and in applications that are 301730-802 2.323 quality (DB-25) 303534 3.097 1.406 1.75 susceptible to vibration. 301730-803 (DB-9) (5) 1/4-20T 30-17-74-000 30-17-31-000 Junction Box (110V 60Hz) 30-17-75-000 ZOOM OEM Controller Board top view 30-17-36-000 (EURO) 30-17-32-000 30-17-33-000 (230V 50Hz) (U.K.) To Computer Com Port For all part numbers, ordering information and configuration options, refer to the System Diagram (p. 6-7), or visit the Zoom 160 section of our web site. ZOOM 160 MOTORIZATION AND MOUNTING OEM vision system, Thales Optem offers several mounting options to THALES OPTEM FROM ZOOM 160 SYSTEM DIAGRAM Motorized Mounting Accessories 30-45-06-000 29-30-42-000 29-30-43-000 29-30-44-000 2.0X AMPLIFIER 3.0X AMPLIFIER 4.0X AMPLIFIER 76mm O.D. TUBE CLAMP Non-Inverting Right-Angle (NIRA) Dovetail Tubes Right Angle Dovetail Tubes 30-45-02-000 82mm O.D. TUBE CLAMP 33-32-20-000 33-22-20-000 DOVETAIL 2.0X NIRA TUBE 33-22-11-000 33-22-10-000 DOVETAIL 1.0X TELE NIRA TUBE DOVETAIL 1.0X NIRA TUBE 30-45-03-000 DOVETAIL 2.0X RA TUBE 33-32-10-000 DOVETAIL 1.0X RA TUBE 33-22-30-000 DOVETAIL 0.67X NIRA TUBE 83mm O.D. TUBE CLAMP 33-12-20-000 DOVETAIL 2.0X TUBE 33-32-00-000 DOVETAIL 0.71X RA TUBE 33-12-80-000 33-12-10-000 DOVETAIL 1.5X TUBE DOVETAIL 1.0X TUBE 30-45-04-000 84mm O.D. TUBE CLAMP 33-32-01-000 RA BLOCK 33-22-01-000 NIRA BLOCK 30-35-34-000 MOTOR FLAT MOUNT 30-30-01-000 30-31-11-000 OEM ZOOM CELL CORE UPPER ZOOM MANUAL (Motorized Zooms ONLY) 2 2.5 Motor Drivers 28-80-18-000 (110V) Lower Function Modules 30-17-20-000 DC MOTOR DRIVER 28-80-19-000 (220V) 30-34-00-000 30-34-03-000 30-34-10-000 30-34-13-000 30-34-20-000 30-34-23-000 COAX ILLUMINATOR NO FOCUS COAX W/ANALYZER NO FOCUS COAX ILLUMINATOR 5mm FOCUS COAX W/ANALYZER 5mm FOCUS COAX ILLUMINATOR DC MOTORIZED FOCUS COAX W/ANALYZER DC MOTORIZED FOCUS 30-17-31-000 (110V 60Hz) 30-17-70-000 STEPPING MOTOR DRIVER 30-17-32-000 (230V 50Hz) 30-36-03-000 30-36-01-000 POLARIZER FIBER OPTIC LAMPHOUSE 30-17-74-000 30-17-36-000 Coaxial Illuminators HALL EFFECT SENSOR JUNCTION BOX 30-16-01-000 (EURO) 30-16-60-000 60" FLEXIBLE BUNDLE 10 0 10mm FIBER OPTIC ADAPTER 29-60-83-000 VSI 110 ILLUMINATOR 110 VOLT / 150 WATT 0 30-17-33-000 (U.K.) 30-17-75-000 STEPPING MOTOR O.E.M. BOARD 29-60-84-000 LF COAX FIBER OPTIC 06 www.thales-optem.com 40" FLEXIBLE BUNDLE 0 10 30-36-05-000 0 30-16-40-000 VSI 220 ILLUMINATOR 220VOLT / 150 WATT Zoom 160 System Diagram CAMERA 33-02-04-000 33-02-02-000 1/2" STANDARD 1/2" SONY BAYONET 30-35-76-000 33-02-02-000 76mm O.D. FLANGE MOUNT (OLYMPUS, NIKON & LEICA) 2/3" ENG BAYONET 33-02-00-000 "C" MOUNT COUPLER 33-02-01-000 "C" MOUNT SPACER 30-35-82-000 82mm O.D. FLANGE MOUNT (UNITRON) Short and Mini Dovetail Tubes Standard Dovetail Tubes 33-02-00-000 "C" MOUNT COUPLER 33-12-11-000 DOVETAIL 1.0X TELE TUBE 30-35-83-000 33-12-30-000 33-42-20-000 33-42-10-000 DOVETAIL 0.67X TUBE DOVETAIL 2.0X SHORT TUBE 33-12-40-000 DOVETAIL 0.5X TUBE 83mm O.D. FLANGE MOUNT 33-22-11-000 DOVETAIL 1.0X SHORT TUBE 33-12-50-000 33-42-11-000 DOVETAIL 0.38X TUBE DOVETAIL 1.0X MINI TUBE DOVETAIL 1.0X TELE NIRA TUBE 30-35-84-000 84mm O.D. FLANGE MOUNT (MEIJI) Upper Zoom Modules 30-31-37-000 30-31-41-000 30-31-21-000 UPPER ZOOM DETENT UPPER ZOOM DC MOTOR UPPER ZOOM STEPPING MOTOR HALL EFFECT SENSOR 30-35-00-000 FLANGE FLAT MOUNT top view 2 2.5 profile ABOVE MOUNTS FOR MANUAL MODELS ONLY 30-34-37-000 30-34-38-000 COAX ILLUMINATOR STEPPING MOTORIZED FOCUS HALL EFFECT SENSOR COAX W/ANALYZER STEPPING MOTORIZED FOCUS HALL EFFECT SENSOR 30-33-10-000 30-33-20-000 30-33-37-000 30-32-00-000 15mm FINE FOCUS MANUAL 15mm FINE FOCUS DC MOTOR 15mm FINE FOCUS STEPPING MOTOR HALL EFFECT SENSOR PLAIN 30-37-01-000 30-37-02-000 2.000x32T - M26x36T ADAPTER M43x.75 - M26x36T ADAPTER Infinity-Corrected Objectives Objective Lenses 29-20-32-000 30-37-34-000 30-37-32-000 30-37-31-000 30-37-30-000 30-37-29-000 30-37-28-000 2.0X LENS 1.5X LENS 1.0X LENS 0.75X LENS 0.5X LENS 0.25X LENS MITUTOYO RMS ADAPTER 28-21-10-000 28-20-44-000 10X M PLAN LWD OPTEM OBJECTIVE 5X HIGH-RES OPTEM OBJECTIVE 28-20-45-000 10X HIGH-RES OPTEM OBJECTIVE 28-20-46-000 20X HIGH-RES OPTEM OBJECTIVE 8 8 NIKON/OLYMPUS 30-36-02-000 RING LIGHT ADAPTER 30-36-04-000 1/4 WAVE PLATE 30-16-50-000 29-60-81-000 30-16-70-000 HORIZONTAL RING LIGHT VERTICAL RING LIGHT OBJECTIVE RING LIGHT Ring Illuminators For an online archive of nominal component dimensions, downloadable schematics, and optical performance specifications, visit the Zoom 160 Section of our web site. ZOOM 160 SYSTEM DIAGRAM Manual Mounting Accessories Bayonet Adapters 0.38X 0.5X 0.67X 1.0X 1.5X 2.0X DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE DOVETAIL TUBE camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" Low 0.0022 0.047 108.8 58.2 x 77.8 76.8 x 102.4 — — High 0.038 0.75 0.38 3.6 x 4.8 4.8 x 6.4 — — Low 0.0022 0.063 108.8 43.6 x 58.4 57.6 x 76.8 — — High 0.038 1.0 0.38 2.7 x 3.6 3.6 x 4.8 — — Low 0.0022 0.083 108.8 32.7 x 43.8 43.2 x 57.6 57.6 x 76.8 — High 0.038 1.3 0.38 2.0 x 2.7 2.7 x 3.6 3.6 x 4.8 — Low 0.0022 0.13 108.8 21.8 x 29.2 28.8 x 38.4 38.4 x 51.2 52.8 x 70.4 High 0.038 2.0 0.38 1.3 x 1.8 1.8 x 2.4 2.4 x 3.2 3.3 x 4.4 Low 0.0022 0.19 108.8 14.5 x 19.4 19.2 x 25.6 25.6 x 34.1 35.2 x 46.9 High 0.038 3.0 0.38 0.91 x 1.22 1.2 x 1.6 1.6 x 2.1 2.2 x 2.9 Low 0.0020 0.25 108.8 10.9 x 14.6 14.4 x 19.2 19.2 x 25.6 26.4 x 35.2 High 0.038 4.0 0.38 0.68 x 0.91 0.90 x 1.2 1.2 x 1.6 1.6 x 2.2 camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" 0.0045 0.094 27.2 29.1 x 38.9 38.4 x 51.2 — — 0.076 1.5 0.10 1.8 x 2.4 2.4 x 3.2 — — 0.0045 0.13 27.2 21.8 x 29.2 28.8 x 38.4 — — 0.076 2.0 0.10 1.3 x 1.8 1.8 x 2.4 — — 0.0045 0.17 27.2 16.3 x 21.9 21.6 x 28.8 28.8 x 38.4 — 0.076 2.7 0.10 1.0 x 1.3 1.3 x 1.8 1.8 x 2.4 — 0.0045 0.25 27.2 10.9 x 14.6 14.4 x 19.2 19.2 x 25.6 26.4 x 35.2 0.076 4.0 0.10 0.68 x 0.91 0.90 x 1.2 1.2 x 1.6 1.6 x 2.2 0.0045 0.38 27.2 7.2 x 9.7 9.6 x 12.8 12.8 x 17.0 17.6 x 23.4 0.076 6.0 0.10 0.45 x 0.60 0.60 x 0.80 0.80 x 1.0 1.1 x 1.4 0.0045 0.50 27.2 5.4 x 7.3 7.2 x 9.6 9.6 x 12.8 13.2 x 17.6 0.076 8.0 0.10 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 0.82 x 1.1 camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" 0.0068 0.14 5.9 12.1 x 25.9 — — — 0.11 2.3 0.043 1.2 x 1.6 — — — 0.0068 0.19 12.1 14.5 x 19.4 19.2 x 25.6 — — 0.11 3.0 0.043 0.91 x 1.2 1.2 x 1.6 — — 0.0068 0.25 12.1 10.9 x 14.6 14.4 x 19.2 19.2 x 25.6 — 0.11 4.0 0.043 0.68 x 0.91 0.90 x 1.2 1.2 x 1.6 — 0.0068 0.38 12.1 7.2 x 9.7 9.6 x 12.8 12.8 x 17.0 17.6 x 23.4 0.11 6.0 0.043 0.45 x 0.60 0.60 x 0.80 0.80 x 1.0 1.1 x 1.4 0.0068 0.56 12.1 4.8 x 6.4 6.4 x 8.5 8.5 x 11.3 11.7 x 15.6 0.11 9.0 0.043 0.30 x 0.40 0.40 x 0.53 0.53 x 0.71 0.73 x 0.97 0.0068 0.75 12.1 3.6 x 4.8 4.8 x 6.4 6.4 x 8.5 8.8 x 11.7 0.11 12.0 0.043 0.22 x 0.30 0.30 x 0.40 0.40 x 0.53 0.55 x 0.73 camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" 0.0090 0.19 6.8 14.5 x 19.4 — — — 0.15 3.0 0.024 0.91 x 1.2 — — — 0.0090 0.25 6.8 10.9 x 14.6 14.4 x 19.2 — — 0.15 4.0 0.024 0.68 x 0.91 0.90 x 1.2 — — 0.0090 0.33 6.8 8.1 x 10.9 10.8 x 14.4 14.4 x 19.2 — 0.15 5.3 0.024 0.51 x 0.68 0.67 x 0.90 0.90 x 1.2 — 0.0090 0.50 6.8 5.4 x 7.3 7.2 x 9.6 9.6 x 12.8 13.2. x 17.6 0.15 8.0 0.024 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 0.82 x 1.1 0.0090 0.75 6.8 3.6 x 4.8 4.8 x 6.4 6.4 x 8.5 8.8 x 11.7 0.15 12.0 0.024 0.22 x 0.30 0.30 x 0.40 0.40 x 0.53 0.55 x 0.73 0.0090 1.0 6.8 2.7 x 3.6 3.6 x 4.8 4.8 x 6.4 6.6 x 8.8 0.15 16.0 0.024 0.17 x 0.22 0.22 x 0.30 0.30 x 0.40 0.41 x 0.55 camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" 0.014 0.28 3.0 9.7 x 12.9 — — — 0.23 4.5 0.011 0.60 x 0.81 — — — 0.014 0.38 3.0 7.2 x 9.7 9.6 x 12.8 — — 0.23 6.0 0.011 0.45 x 0.60 0.60 x 0.80 — — 0.014 0.50 3.0 5.4 x 7.3 7.2 x 9.6 9.6 x 12.8 — 0.23 8.0 0.011 0.34 x 0.45 0.45 x 0.60 0.60 x 0.80 — 0.014 0.75 3.0 3.6 x 4.8 4.8 x 6.4 6.4 x 8.5 8.8 x 11.7 0.23 12.0 0.011 0.22 x 0.30 0.30 x 0.40 0.40 x 0.53 0.55 x 0.73 0.014 1.1 3.0 2.4 x 3.2 3.2 x 4.2 4.2 x 5.6 5.8 x 7.8 0.23 18.0 0.011 0.15 x 0.20 0.20 x 0.26 0.26 x 0.35 0.36 x 0.48 0.014 1.5 3.0 1.8 x 2.4 2.4 x 3.2 3.2 x 4.2 4.4 x 5.8 0.23 24.0 0.011 0.11 x 0.15 0.15 x 0.20 0.20 x 0.26 0.27 x 0.36 camera format N.A. MAG. D.O.F. 1/4" 1/3" 1/2" 2/3" 0.018 0.38 1.7 7.2 x 9.7 — — — 0.30 6.0 0.0060 0.45 x 0.60 — — — 0.018 0.50 1.7 5.4 x 7.3 7.2 x 9.6 — — 0.30 8.0 0.0060 0.34 x 0.45 0.45 x 0.60 — — 0.018 0.67 1.7 4.0 x 5.4 5.4 x 7.2 7.2 x 9.6 — 0.30 10.7 0.0060 0.25 x 0.34 0.33 x 0.45 0.45 x 0.60 — 0.018 1.0 1.7 2.7 x 3.6 3.6 x 4.8 4.8 x 6.4 6.6 x 8.8 0.30 16.0 0.0060 0.17 x 0.22 0.22 x 0.30 0.30 x 0.40 0.41 x 0.55 0.018 1.5 1.7 1.8 x 2.4 2.4 x 3.2 3.2 x 4.2 4.4 x 5.8 0.30 24.0 0.0060 0.11 x 0.15 0.15 x 0.20 0.20 x 0.26 0.27 x 0.36 0.018 2.0 1.7 1.3 x 1.8 1.8 x 2.4 2.4 x 3.2 3.3 x 4.4 0.30 32.0 0.0060 0.085 x 0.11 0.11 x 0.15 .015 x 0.20 0.20 x 0.27 OBJECTIVE LENS 370mm WORKING DISTANCE F.O.V. (mm) 0.25X 30-37-28-000 { 0.5X 181mm WORKING DISTANCE F.O.V. (mm) 30-37-29-000 { 116mm WORKING DISTANCE F.O.V. (mm) 0.75X 30-37-30-000 { 1.0X 30-37-31-000 89mm WORKING DISTANCE F.O.V. (mm) ZOOM 160 SPECIFICATIONS Zoom 160 Optical Performance { 1.5X 56mm WORKING DISTANCE F.O.V. (mm) 30-37-32-000 { 2.0X 37mm WORKING DISTANCE F.O.V. (mm) 30-37-34-000 { N.A. = Numerical Aperture MAG. = Magnification D.O.F. = Depth-of-Field F.O.V. = Field-of-View — = zoom range is limited due to vignetting NOT RECOMMENDED: “—” represents configurations where zoom range is limited due to vignetting. THALES OPTEM INC. ISO 9000:2001 78 Schuyler Baldwin Drive • Fairport, NY USA 14450-9196 Tel: (585) 223-2370 • Fax: (585) 223-3413 • www.thales-optem.com 30-31-11-450 • 04/04 7.5 ed2 Copyright ©2004, Thales Optem Inc. All rights reserved Printed in the USA