MICROSCOPE COMPONENTS GUIDE Choosing The Ideal UIS2 Optics Components For Your Equipment 2006-11
The wide range of Olympus components introduced here allows users in such diverse fields as research, inspection and production to take advantage of the quality, flexibility and outstanding optical performance of the UIS2 Optical System. That's why installing Olympus microscope components is, quite simply, the right choice for your equipment.
CONTENTS WELCOME TO UIS2/UIS OPTICS ---------------------------------------------- 3 — 4 EYEPIECES/FILAR MICROMETER EYEPIECE --------------------------------- 33 Widefield eyepieces SYSTEM DIAGRAM --------------------------------------------------------------- 5 — 6 Super widefield eyepieces Filar micrometer eyepiece UIS2/UIS OBJECTIVE LENSES ----------------------------------------------- 7 — 18 M Plan SemiApochromat MPLFLN series -------------------------------- 8 Long WD M Plan SemiApochromat LMPLFL
WELCOME TO UIS2/UIS OPTICS UIS2/UIS: The System That Maximizes The Advantage Of Infinity-Corrected Optics What's infinity-corrected optics? light between the objective lens and tube lens, allowing the creation of user-specific or taskspecific optical systems. To establish real flexibility with such a system, it is necessary to eliminate the occurrence of coma aberration.
WELCOME TO UIS2/UIS OPTICS Features of UIS2 objective lenses 4. Lightening Weight has been reduced to approximately 2/3 that of conventional products by using an aluminum objective lens barrel cover. This has the effect of lightening the load on the devices at objective lens up/down, suppressing vibrations by lowering the inertial force at objective lens switching, etc.
SYSTEM DIAGRAM BXFM SYSTEM DIAGRAM Video system Refer to pages 36-37 Video camera Video camera C-mount B mount 2/3" Video camera S mount 2/3" Video camera F mount U-FMT U-CMAD3 U-BMAD U-SMAD U-TMAD U-TV0.25xC U-TV0.35xC-2 U-TV0.5xC-3 U-TV0.
SYSTEM DIAGRAM MOTORIZED UNIT SYSTEM DIAGRAM Refer to pages 38-40 Observation tubes (Refer to pages 29-30) U-AN U-AFA1M Intermediate tubes (Refer to pages 31-32) U-AN360-3 U-FWO U-AN360RAF Refer to page 26 U-PO3 U-LH75XEAPO U-LH100HGAPO U-LH100HG U-POTP3 U-25ND6, U-25ND25 U-25LBD U-25IF550 U-25L42 U-25FR Mirror units U-LH100-3 U-LH100L-3 U-FWR BX-RLAA BX-RFAA BX-UCB* U-DICR U-D6REMC Refer to page 35 Refer to pages 7-18 See manual U-HSTR2 BF objective lenses U-DICRH BD-M-AD U-ZPCB Z board
UIS2/UIS OBJECTIVE LENSES ■ Meaning of abbreviations shown on objective lens M P L (Plan) F L N - 1 0 0 M: LM: Metallurgical (no cover) Long working distance metallurgical use SLM: Super long working distance metallurgical use LC: Observation through substrate PL: Plan/ Corrects field curvature of the periphery of the image plane ■ Objective lens notation None: Achromat/ Corrects aberration at 2 wavelengths of blue and red FL: SemiApochromat/ Corrects chromatic aberration in the visible range (violet~
UIS2 OBJECTIVE LENSES M Plan SemiApochromat MPLFLN series Plan SemiApochromat objective lenses, giving high-level correction for chromatic aberration. The lineup consists of 7 objective lenses ranging from 1.25x to 100x, and secures a W.D. of 1mm or longer. Since the exit pupil position of the 5x-100x objective lenses is standardized, the position of the DIC prism does not have to be switched when changing the magnification. For ultra low magnifications (1.25x, 2.
UIS2 OBJECTIVE LENSES Long WD M Plan SemiApochromat (WD: Working Distance) LMPLFLN series Long working distance Plan SemiApochromat objective lenses, giving high-level correction for chromatic aberration. Suitable with samples having a height difference and in preventing collision, as the working distance is long. Also, since the exit pupil position of the 5x-100x objective lenses is standardized, the position of the DIC prism does not have to be switched when changing the magnification.
UIS2 OBJECTIVE LENSES M Plan Achromat MPLN series Plan Achromat objective lenses providing excellent image flatness up to F.N. 22. MPLN10x MPLN20x ø20.32 ø20.32 ø20.32 41.3 37.2 ø6 ø11.9 ø16 ø15.8 ø24 ø24 MPLN50x MPLN100x ø20.32 ø20.32 38.7 42.8 43.16 45 ø15.8 WD=0.21 ø6 ø11.9 (44.79) 37.2 41.3 42.62 (44.62) 4.5 4.5 42.4 45 ø12 WD=1.3 ø24 (43.7) 28.8 33.6 32.71 4.5 WD=10.6 WD=20 (34.4) 45 23.4 4.5 (25) 45 ø10.5 ø21 WD=0.38 45 4.5 MPLN5x ø4.4 ø11.6 ø15.
UIS2 OBJECTIVE LENSES LCD Long WD M Plan SemiApochromat LCPLFLN-LCD series Perfect objective lens series for observation of LCD panels and other samples through a glass substrate. Aberration correction matched to the glass thickness is accomplished using a correction ring. LCPLFLN50xLCD*** LCPLFLN100xLCD*** ø20.32 ø20.32 ø20.32 20 27.5 ø17.84 ø25 ø31 ø15.2 WD=0.9 ø29.5 t=0.7 WD=2.5 t=0.7 ø25 ø25 t=0.7 41.6 43.4 45.238 * (43.638) 25 38.65 40.45 (42.038) 45.238 * ø12.77 ø15 WD=7.
UIS OBJECTIVE LENSES M Plan Apochromat MPlanApo series Highest class Plan Apochromat objective lens that maximize performance in brightfield observation. All aberrations are corrected at the highest level, while providing high N.A. MPlanApo50x MPlanApo100x ø20.32 ø20.32 ø20.32 ø20 ø20.2 ø28 ø28 0.9 0.3 0.35 36.8 ø20.2 Widefield eyepiece WHN10x Field Number 22 Working distance Focal distance f (mm) (mm) 0.60 0.95 0.95 ø16.
UIS OBJECTIVE LENSES IR Long WD M Plan SemiApochromat/IR M Plan SemiApochromat LMPlan-IR series/MPlan-IR IR objective lenses which compensate for aberrations from visible to near infrared light. Ideal for the observations of semiconductor interiors and the back surface of a chip package as well as CSP bump inspection. LMPlan5xIR LMPlan10xIR LMPlan20xIR ø20.32 30.3 34.3 4.5 45 45 (36.9) 4.5 ø20.32 (26.5) 25 23 22.5 45 (25) 4.5 ø20.32 WD=8.1 ø26 ø10.4 ø12.4 WD=18.
UIS2 OBJECTIVE LENSES M Plan SemiApochromat BD (BD:Brightfield/Darkfield) MPLFLN-BD series Plan SemiApochromat objective lenses, giving high-level correction for chromatic aberration. The series secures a W.D. of 1mm or longer. Since the exit pupil position of the 5x-150x objective lenses is standardized, the position of the DIC prism does not have to be switched when changing the magnification. MPLFLN10xBD MPLFLN20xBD ø26 ø26 ø26 ø22 ø26.2 ø32 35.97 39 39.5 ø22 ø27.5 ø27 ø28.
UIS2 OBJECTIVE LENSES M Plan SemiApochromat BDP (BDP:Brightfield/Darkfield/Polarizing) MPLFLN-BDP series Plan SemiApochromat objective lenses, giving high-level correction for chromatic aberration. The series secures a W.D. of 1mm or longer. Since the exit pupil position of the 5x-100x objective lenses is standardized, the position of the DIC prism does not have to be switched when changing the magnification.
UIS2 OBJECTIVE LENSES Long WD M Plan SemiApochromat BD LMPLFLN-BD series Long working distance Plan SemiApochromat objective lenses, giving high-level correction for chromatic aberration. Suitable with samples having a height difference and in preventing collision, as the working distance is long. Also, since the exit pupil position of the 5x-100x objective lenses is standardized, the position of the DIC prism does not have to be switched when changing the magnification.
UIS2 OBJECTIVE LENSES M Plan Achromat BD MPLN-BD series Plan Achromat objective lenses providing excellent image flatness up to F.N. 22. MPLN10xBD ø26 ø26 MPLN20xBD ø26 ø30.5 41 ø17 WD=1.3 WD=6.5 ø16.8 ø29.3 WD=12 42.5 45 ø16 (43.7) 34.01 37 36.5 45 (38.5) 31 30.25 31.5 45 (33) 4.5 4.5 (4.5) MPLN5xBD ø22 ø26 ø32 ø23.6 ø29 ø27 ø32 ø32 MPLN100xBD ø26 ø26 41 42.5 43.33 43.71 45 (44.79) 41 42.5 43.68 45 (44.62) 4.5 4.5 MPLN50xBD ø10 ø23.1 WD=0.21 WD=0.
UIS OBJECTIVE LENSES M Plan Apochromat BD MPlanApo-BD Highest class Plan Apochromat objective lens that maximize performance in brightfield and darkfield observations. All aberrations are corrected at the highest level, while providing high N.A. MPlanApo100xBD 41 42.5 43.2 45 (44.69) 4.5 ø26 ø10 ø23 WD=0.31 ø27 ø29 ø32 Unit: mm Widefield eyepiece WHN10x Field Number 22 UIS objective lenses Objective lens (magnification) MPlanApo100xBD Numerical Aperture 0.
MICROSCOPE SYSTEM BXFM BXFM frame BXFM-F Widely used system that allows use in combination with fiber illumination, motorized revolving nosepiece and telan lens unit. Can easily be integrated into other equipment. Attach to the equipment by rear bolt mounting screw or pillar mounting hole. 84 36 82 4–M4 depth9 (13) Stroke 35 0.5 0.5 4–M4 depth7 66.2 16 17 Pillar mount hole center (13) 17 80 55 124 100 17 34 23 4-M8 depth8 (Bolt mount screw) 7 58.
MICROSCOPE SYSTEM BXFM BXFM BXFM-F+BXFM-ILH+BXFM-ILHSPU 180 Accommodates the reflected light brightfield/darkfield and fluorescence illuminators. Light axis 165 Pillar axis 130 Holder mounting position Revolving nosepiece mounting position Objective lens mounting position 11 45 72 23 40 Stroke 7 3.5 Light axis 83 Specimen position Weight: 3.2kg Unit: mm BXFM combination sample BXFM-F+BXFM-ILH+BXFM-ILHSPU+TR30-2+BX-RLA2+U-LH100L-3 165 130 87.5 83 17-47(stroke) 124 45 11 40 3.
MICROSCOPE SYSTEM BXFM BXFM-S BXFM-F+BXFM-ILHS 84 Compact focusing unit suitable for building into existing equipment. 141 106 Pillar axis Holder mounting position Light axis Stroke Revolving nosepiece mounting position 45 Objective lens mounting position 23 40 20 7 59 Weight: 2.4kg Unit: mm Specimen position BXFM-S combination sample BXFM-F+BXFM-ILHS+TR30-2+U-KMAS+U-LH100L-3 290 187 92.
MICROSCOPE SYSTEM BXFM Stands A wide variety of stands are available to suit different applications and purposes. SZ2-STU2 Universal stand type 2 250 300 Major specifications Item 1 Diameter of focusing arm or fixing section of tube 2 Vertical pole diameter 3 Horizontal poles diameters 4 Stroke 5 Movement range 300 350 6 Maximum specimen weight 622 º 7 Weight ø40mm ø25mm (both upper and lower poles) Horizontal: 234mm, Vertical: 205mm Horizontal: 541 (435+106) mm max.
ILLUMINATION UNITS Reflected light illuminator for BF/DF BX-RLA2 ND filters are linked when exchanging between brightfield and darkfield. Accessories 35 16.2 12 29.4 Revolving nosepiece mounting position Illuminator mounting position 13 11.8 17 26 79 50 130 130 130 17.5 ø75 88 107.5 46 108 7.5 38.7 56.
ILLUMINATION UNITS Reflected light illuminators for BF BX-KMA/BX-KMA-ESD Enables brightfield, Nomarski DIC and simple polarizing observations. ESD model is also available.
LAMP HOUSING & ACCESSORIES Reflected light illuminator for BF U-KMAS Very compact reflected light illuminator with reduced depth.
LAMP HOUSING & ACCESSORIES Lamp housings Various different lamp housings are available, for use with different light sources: choose to suit the intended purpose. U-LH75XEAPO 75W xenon apo lamp housing (148.5) 30.2 (148.5) 83.5 65 65 U-LH100HGAPO 100W mercury apo lamp housing U-LH100HG 100W mercury lamp housing (30.2) 83.5 65 93 65 93 8 8 130 60 75 75 55 20 6 20 40.8 40.8 115 30° 25° 115 30° 25° 169 (depth dimension for installation) 130 180.5 18.
LAMP HOUSING & ACCESSORIES Lamp housing accessories For the 100W halogen lamp, the external power supply TH4-100/200 with an intensity adjustment switch and an ON/OFF switch, both are located close to the operator's hand, are provided. All Olympus reflected light illuminators can be used with fiber illumination. TH4-100/200 External power supply TH4-HS Hand switch Cable length: 2,000mm 77 120 125 18.5 Weight: 2.2kg Weight: 140g 42 75 14.5 38 200 U-RMT Extension cord 1,700 37.
LAMP HOUSING & ACCESSORIES LG-PS2* Light source ø15 (Light guide mounting position) 8 235 10 86 130 76 10 126 251 *The types of model varies by country in use. Weight: 1.6kg LG-SF Light guide Groove: Width3, Depth1 61 ø13 ø25 30 31 ø10.1 ø12 ø15 10 25 20 1,000 Weight: 210g U-DULHA Double lamp house adapter 82 88 202 ø14 171 0 Weight: 1.
OBSERVATION TUBES Widefield trinocular observation tubes Trinocular observation tubes with widefield of view. Compatible with F.N. 22. U-ETR-4 Widefield erect image trinocular tube 60.6 62.5 103.9 104.9 92 47.9 62.5 (IR: 64.5) 150.5 186.6 (IR: 188.9) 95.8 18 92.5* (IR: 93.9) 59.65 33.5 16 120 175 U-TR30-2/ Widefield binocular tube U-TR30IR Widefield binocular tube for IR 43.5 163.1 199.9 51.6 Unit: mm Name U-TR30-2 U-TR30IR U-ETR-4 Field Number (F.N.
OBSERVATION TUBES Super widefield trinocular observation tubes Trinocular observation tubes with super widefield of view. Compatible with F.N. 26.5. U-SWETR Super widefield erect image trinocular tube 224 76.4* 55.6 79.6 98.8 68.6 173.8 220.8 73 83.4 92.9 36.5 19 14 82.3* 63.1 180.8 U-SWTR-3 Super widefield trinocular tube 49.9 98.6 62 201.9 248.9 139.400 61.981 117.223 MX-SWETTR Super widefield erect image tilting trinocular tube 88.000 95.929 101.929 149.081 2.837 70.
INTERMEDIATE TUBES & ACCESSORIES Intermediate tubes Various accessories for various observation need. U-ECA Magnification changer 2x Provides 1x and 2x intermediate magnifications. ø138 U-CA Magnification changer Provides 1x, 1.2x, 1.6x and 2x intermediate magnifications. 150 ø140 88 96 42 42 45 37 ø75 Weight: 1.3kg 52 ø70 Weight: 1.3kg U-TRU Trinocular intermediate attachment Intermediate attachment which divides the light path, allowing attachment of both digital and video cameras.
INTERMEDIATE TUBES & ACCESSORIES U-DP Dual port Use this intermediate tube to divide the light path. U-DP1xC Dual port 1x Combine with U-DP to obtain a 1x image. ø140 88 ø44 ø30 151 ø44 ø25 17.53 1-32UN 4.5 170.5(mount face) 182 Weight: 500g 57 38 51(mount face) Weight: 1kg Light path selector by mirror unit Transmitted side port: side port = 70:30 (with use of U-MBF3) 21.2 89 (8°) U-EPA2 Eyepoint adjuster Raises eyepoint by 30mm.
EYEPIECES/FILAR MICROMETER EYEPIECE Eyepieces Eyepieces for UIS2 optical system. WHN10x Widefield eyepiece WHN10x-H CROSSWHN10x Widefield eyepieces WH15x Widefield eyepiece SWH10x-H MICROSWH10x CROSSSWH10x Super widefield eyepieces ø46.2 ø43.2 ø39 ø41 ø36.5 EP 36.8 53.2 18.7 29.6 48.6 27.8 (28.5) ø30 ø30 ø30 Name Field Number WHN10x WHN10x-H CROSSWHN10x WH15x SWH10x-H MICROSWH10x CROSSSWH10x *EP=eyepoint 22 22 22 14 26.5 26.5 26.
REVOLVING NOSEPIECES Revolving nosepieces for BF objective lenses Choose from following 6 types. For motorized nosepieces, refer to motorized unit page. U-D7RE Septuple revolving nosepiece with slider slot for DIC 104 116.5 U-D6RE Sextuple revolving nosepiece with slider slot for DIC U-D6RE-ESD Sextuple revolving nosepiece with slider slot for DIC with ESD treatment 83 U-5RE-2 Quintuple revolving nosepiece (87.4) (125.6) 60.9 87.6 76.4 47.2 40 48.2 40 38 40.8 38 (114.4) 40 26.5 .
REVOLVING NOSEPIECES Revolving nosepieces for BF/DF objective lenses Choose from following 3 types. Use of adapter to mount BF objectives (BD-M-AD) enables attachment of brightfield objective lenses. For motorized nosepieces, refer to motorized unit page. U-D6BDRE Sextuple revolving nosepiece for BF/DF with slider slot for DIC/ U-P5BDRE Centerable quintuple revolving nosepiece 2A00002 JAPAN 104 U-D6BDRE U-D6BDRE 116.
VIDEO CAMERA ADAPTERS C-mount video camera ports Allows direct attachment of a C mount video camera. Four types are provided: 0.63x, 0.5x, 0.35x and 0.25x. All models feature a focus adjustment function U-TV0.25xC C-mount video port with 0.25x lens 17.53 ø36 1-32UN 3.5 Image plane U-TV0.35xC-2 C-mount video port with 0.35x lens 1-32UN 4 12.4 22.4 147.3 156.84 17.53 Image plane ø60 ø60 ø64 Weight: 1.2kg Weight: 100g U-TV0.5xC-3 C-mount video port with 0.5x lens U-TV0.
VIDEO CAMERA ADAPTERS Video camera mount adapters Allows attachment to video cameras with C, Bayonet, Sony and F mounts. Use with the U-TV1x-2. Focus by amount of screwing into U-TV1x-2. U-CMAD3 C-mount adapter U-BMAD Bayonet mount adapter U-SMAD Sony mount adapter ø44.5 ø30 1-32UN Image plane Image plane M56X2 ø48 40 60 3 30 M56X2 49 60.5 80.5 20 48.7 ø42 4 48 38 4 17.53 Image plane M56X2 ø64.
MOTORIZED UNITS Motorized units Various motorized units, perfect for automation of equipment, are available. 11.8 12 115 108 107 80 BX-RLAA+U-D6REMC+U-LH100-3 Motorized BF/DF reflected light illuminator+motorized Nomarski DIC sextuple revolving nosepiece+100W halogen lamp housing Enables motorized exchange of objective lenses, selection between brightfield and darkfield observations as well as aperture diaphragm closing/opening.
MOTORIZED UNITS 115 U-D5BDREMC Motorized quintuple BD revolving nosepiece with slider slot for DIC U-D6REMC Motorized sextuple revolving nosepiece with slider slot for DIC U-P5REMC Motorized centerable quintuple revolving nosepiece with slider slot for DIC 68.3 190.5 Weight: 1.
MOTORIZED UNITS U-AFA1M Active auto focus unit 312.5 147.5 135 R88 148 58.2 Cable length: 2000mm Weight: 3.3kg 62.5 58.4 14.8 * Consult your Olympus dealer about the motorized focus. U-FWR Motorized reflected filter wheel Accomplish maximum 6 filter position exchange 180.5 Weight: 1.0kg 24.5 58.5 42 130 147.9 30.5 71 56 9 170.
MOTORIZED UNITS 169 133 56 56 310.5 206 77 BXFMA-F Motorized illumination with power focus A motorized microscope unit for integration with your equipment. Motorized operations such as revolving nosepiece up/down, objective lens switching, aperture diaphragm open/close, and brightfield/darkfield switching are accomplished with this component. Several microscopic operations are totally controlled from an external unit by combining this component with an auto focus unit. 77 51 92 334 341.
DEEP ULTRAVIOLET OBSERVATION SYSTEM Deep ultraviolet observation system This module adds a deep ultraviolet (248nm) optical system to a general microscope. An ultra-high resolution observation is executed by using an extremely short wavelength ray. U-UVF2FB/5FB UV quartz light guide 2000 +200 0 or 5000 +200 0 79 69 30.4 108 34 ø8 (light guide) U-UVF248IM UV248 compatible intermediate tube Weight: U-UVF2FB 50g U-UVF5FB 80g 105.8 258.5 ø39.4 196.8 20 (39.5) 5.5 ø70 6 196 Weight: 1.
OPTICAL TERMINOLOGY 1. Field Number (F.N.) and Practical Field of View 5. Total Magnification The field number (F.N.) is referred to as the diaphragm size of eyepiece in mm unit which defines the image area of specimen. The diaphragm diameter actually seen through eyepiece is known as the practical field of view (F.O.V.) which is determined by the formula: 5.1 Observation through eyepiece (binocular observation) F.O.V.
OPTICAL TERMINOLOGY •Total magnification on the video monitor: m(ob)=50×, M(video camera adapter) is 0.5× from Figure 1 and monitor magnification is 46.2× from Figure 3. M(monitor observation)=M(ob)×M(video camera adapter)×monitor magnification =50×0.5×46.2=1155× ● Resolving power formula The following formula is generally used for determing resolution. λ (Reyleigh formula) ε = 0.61 × N.A. λ: Wavelength or radiation in use (λ=0.55µm is used for visible light) N.A.: Objective lens N.A.
OPTICAL TERMINOLOGY characteristics of glass materials used for the optical system. “Expansion of a point image” can also be expressed by “wavefront aberration” that regards the light as “waves” and takes account of the phase to include the influence of diffraction. 9. Aberrations A difference between an ideal image and an actual image that passes through an optical system is called an “aberration.
OPTICAL TERMINOLOGY Figure 9-5 aberration of magnitude.” Many special glass materials are used, e.g., for apochromats (MPlanApo in Olympus), to eliminate chromatic aberration in a wide range from violet light (g-rays with wavelength of 435 nm) to red light (c-rays with wavelength of 656 nm). Astigmatism and Change in Spot Shape in Different Focus Positions 9.3 Wavefront Aberration Since a long time ago, aberrations have been used in “geometric optics,” which considers light as “light rays.
•OLYMPUS CORPORATION has obtained ISO9001/14001. Specifications are subject to change without any obligation on the part of the manufacturer.