Olympus UIS2 User manual

MICROSCOPE
COMPONENTS GUIDE
Choosing The Ideal UIS2 Optics Components For Your Equipment
2008-10
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.
quite simply, the right choice for your equipment.
1
CONTENTS
2
EYEPIECES/FILAR MICROMETER EYEPIECE --------------------------------- 33
Widefield eyepieces WHN10x, WHN10x-H,
CROSSWHN10x, WH15x --------------------- 33
Super widefield eyepieces SWH10x-H, MICROSWH10x,
CROSSSWH10x ------------------------------ 33
Filar micrometer eyepiece U-OSM --------------------------------------- 33
REVOLVING NOSEPIECES ---------------------------------------------------- 34 — 35
Quintuple revolving nosepiece U-5RE-2-------------------------------------- 34 Sextuple revolving nosepiece with slider slot for DIC
U-D6RE--------------------------------------- 34
Sextuple revolving nosepiece with slider slot for DIC with ESD treatment
U-D6RE-ESD --------------------------------- 34
Septuple revolving nosepiece with slider slot for DIC
U-D7RE -------------------------------------- 34
Centerable quadruple revolving nosepiece with slider slot for DIC
U-P4RE -------------------------------------- 34
Centerable sextuple revolving nosepiece with slider slot for DIC
U-P6RE -------------------------------------- 34
Quintuple revolving nosepiece for BF/DF
U-5BDRE ------------------------------------ 35
Quintuple revolving nosepiece for BF/DF with slider slot for DIC
U-D5BDRE ----------------------------------- 35
Sextuple revolving nosepiece for BF/DF with slider slot for DIC/
U-D6BDRE ----------------------------------- 35
Centerable quintuple revolving nosepiece
U-P5BDRE ----------------------------------- 35
Adapter to mount BF objectives
BD-M-AD ------------------------------------ 35
VIDEO CAMERA ADAPTERS ------------------------------------------------- 36 — 37
C-mount video camera ports U-TV0.25xC, U-TV0.35xC-2,
U-TV0.5xC-3, U-TV0.63xC ------------------- 36
Video camera mount adapters U-CMAD3, U-BMAD, U-SMAD,
U-TMAD, U-FMT ----------------------------- 37
Video camera port U-TV1x-2 ------------------------------------ 37
MOTORIZED UNITS------------------------------------------------------------- 38 — 41
Motorized BF/DF reflected light illuminator+motorized Nomarski DIC sextuple revolving nosepiece+100W halogen lamp housing
BX-RLAA+U-D6REMC+U-LH100-3 ---------- 38
Motorized universal reflected light illuminator
BX-RFAA ------------------------------------- 38
Motorized sextuple BD revolving nosepiece with slider slot for DIC
U-D6BDREMC ------------------------------- 39
Motorized centerable quintuple revolving nosepiece with slider slot for DIC
U-P5BDREMC -------------------------------- 39
Motorized quintuple BD revolving nosepiece with slider slot for DIC
U-D5BDREMC ------------------------------- 39
Motorized sextuple revolving nosepiece with slider slot for DIC
U-D6REMC ---------------------------------- 39
Motorized centerable quintuple revolving nosepiece with slider slot for DIC
U-P5REMC ----------------------------------- 39 Control unit BX-UCB -------------------------------------- 39 Hand switch U-HSTR2 ------------------------------------ 39 Control box for motorized nosepiece and BF/DF illuminator
BX-REMCB ---------------------------------- 39 AC adapter for BX-REMCB U-ACAD4515 -------------------------------- 39 Active auto focus unit U-AFA2M-VIS -------------------------------- 40 Motorized reflected filter wheel U-FWR --------------------------------------- 40 Motorized illumination with power focus
BXFMA-F ------------------------------------ 41
DEEP ULTRAVIOLET OBSERVATION SYSTEM -------------------------------- 42
UV248 compatible intermediate tube
U-UVF248IM --------------------------------- 42 UV quartz light guide U-UVF2FV/5FB ------------------------------- 42 UV248 compatible light source box + Mercury Xenon lamp housing
U-UVF248LB+U-LH80HBXE ----------------- 42
OPTICAL TERMINOLOGY ---------------------------------------------------- 43 — 47
WELCOME TO UIS2/UIS OPTICS ---------------------------------------------- 3 — 4
SYSTEM DIAGRAM --------------------------------------------------------------- 5 — 6
UIS2/UIS OBJECTIVE LENSES ----------------------------------------------- 7 — 18
M Plan Apochromat MPLAPON series -------------------------------8 M Plan SemiApochromat MPLFLN series -------------------------------- 9 Long WD M Plan SemiApochromat LMPLFLN series ---------------------------- 10 M Plan Achromat MPLN series --------------------------------- 11 LCD Long WD M Plan SemiApochromat
LCPLFLN-LCD series -------------------------12 Super Long WD M Plan Achromat SLMPLN series -------------------------------13 IR Long WD M Plan Achromat LMPlan-IR series -----------------------------14 IR M Plan Achromat MPlan-IR -------------------------------------14 M Plan SemiApochromat BD MPLFLN-BD series ---------------------------15 M Plan SemiApochromat BDP MPLFLN-BDP series --------------------------16 Long WD M Plan SemiApochromat BD
LMPLFLN-BD series --------------------------17 M Plan Achromat BD MPLN-BD series ------------------------------18
MICROSCOPE SYSTEM BXFM ---------------------------------------------- 19 — 22
BXFM frame BXFM-F -------------------------------------- 19 BXFM BXFM-F+BXFM-ILH+BXFM-ILHSPU---------- 20 BXFM-S BXFM-F+BXFM-ILHS ------------------------ 21 Universal stand type 2 SZ2-STU2 ----------------------------------- 22 Compact stand U-ST ----------------------------------------- 22 Large stand SZ-STL -------------------------------------- 22
ILLUMINATION UNITS --------------------------------------------------------- 23 — 25
Reflected light illuminator for BF/DF
BX-RLA2 ------------------------------------- 23 Universal reflected light illuminator BX-URA2 ------------------------------------ 23 Reflected light illuminators for BF BX-KMA/BX-KMA-ESD ----------------------- 24 Reflected light illuminator for BF U-KMAS ------------------------------------- 25
LAMP HOUSING & ACCESSORIES ----------------------------------------- 26 — 28
75W xenon apo lamp housing U-LH75XEAPO------------------------------- 26 100W mercury apo lamp housing U-LH100HGAPO ----------------------------- 26 100W mercury lamp housing U-LH100HG ---------------------------------- 26 100W halogen lamp housings U-LH100-3/U-LH100IR/U-LH100L-3 -------- 26 External power supply TH4-100/200 -------------------------------- 27 Hand switch TH4-HS -------------------------------------- 27 Extension cord U-RMT --------------------------------------- 27 DF converter for BX-URA2 U-RCV --------------------------------------- 27 Fiber adapter for reflected light observation
U-LGAD -------------------------------------- 27 Transmitted light guide adapter SZX-TLGAD ---------------------------------- 27 Light source LG-PS2 -------------------------------------- 28 Light guide LG-SF ---------------------------------------- 28 Double lamp house adapter U-DULHA ------------------------------------ 28
OBSERVATION TUBES -------------------------------------------------------- 29 — 30
Widefield trinocular tube U-TR30-2 ------------------------------------ 29 Widefield trinocular tube for IR U-TR30IR ------------------------------------ 29 Widefield erect image trinocular tube
U-ETR-4 ------------------------------------- 29 Single port tube with lens U-TLU ---------------------------------------- 29 Single port tube with lens for IR U-TLUIR ------------------------------------- 29 Super widefield trinocular tube U-SWTR-3 ----------------------------------- 30 Super widefield erect image trinocular tube
U-SWETR ------------------------------------ 30 Super widefield erect image tilting trinocular tube
MX-SWETTR --------------------------------- 30
INTERMEDIATE TUBES & ACCESSORIES ------------------------------- 31 — 32
Magnification changer U-CA ----------------------------------------- 31 Magnification changer 2x U-ECA --------------------------------------- 31 Trinocular intermediate attachment
U-TRU --------------------------------------- 31 Dual port U-DP ----------------------------------------- 32 Dual port 1x U-DP1xC ------------------------------------- 32 Eyepoint adjuster U-EPA2 -------------------------------------- 32 Arrow pointer U-APT --------------------------------------- 32
NEW
NEW
NEW
NEW
NEW
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.
*In UIS2/UIS objective lenses, the parfocal distance is designed
at 45mm and the focal length of the tube lens is 180mm.
Basic dimensions of UIS2/UIS optical system
The UIS2/UIS optical system optimally corrects aberration with a dedicated telan lens and an eyepiece so that the coma aberration and flatness are not degraded even when the telan lens exit pupil position is changed by changing the objective lens and telan distance. This makes it possible to use a distance of 50mm to 170mm from objective lens mounting position to the single port tube with lens.
*Coma aberration: refer to the optical terminology at the end of
this document.
What's infinity-corrected optics?
UIS2/UIS optics is an infinity-corrected optical system — in other words, a system in which light passes from the specimen through the objective lens without forming an image along the way. Instead, it travels in the form of infinity parallel rays to the tube lens. The tube lens is where the intermediate image is formed, whereas in finite­corrected optics, this is done by the objective lens.
Advantages of infinity-corrected optics
This system, known as "infinity-corrected optics", offers a number of advantages:
There is no change in magnification even when
the distance between the objective lens and tube lens is altered.
With the total magnification remaining constant,
there is no image aberration — even when prisms or sliders are interposed between the objective lens and the tube lens.
As thousands of users have found by experience, these advantages are crucial to composing the ideal microscope optical system. What's more, it is even possible to freely insert or remove intermediate attachments in the parallel rays of
Figure 1 Infinity-corrected and finite-corrected optical system principles
Infinity-corrected optical system
Finite-corrected optical system
Parallel light beam
Eyepiece
Eyepiece
UIS/UIS2 objective lens
Objective lens
Tube lens Intermediate
image
Intermediate
image
3
WELCOME TO UIS2/UIS OPTICS
UIS2/UIS:
The System That Maximizes The Advantage Of Infinity-Corrected Optics
Figure 3 Basic dimensions of UIS2/UIS2 optical system
Objective lens
U-TLU (Single port tube with lens)
Image
Recommended distance
50-170mm
* 40mm
45mm
* 84mm
57.6mm 102mm
*Basic dimensions when our revolving nosepiece and illuminator are combined. When the position of the illuminator above is changed, illumination performance cannot be maintained.
Figure 2 Advantages of Infinity-corrected optical system
Infinity-corrected optical system Finite-corrected optical system
Objective lens
Tube lens
Objective lens
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. (MPLFLN series, LMPLFLN series)
5. Adoption of eco-lens
The glass materials of UIS2 objective lenses are all lead- and cadmium-free eco-glass.
Features of UIS2 objective lenses
UIS2 objective lenses ensure compatibility (screw diameter, optical performance) with the UIS optical system and have the following features compared to conventional objective lenses.
1. Wavefront aberration control
The Olympus UIS2 objective lenses set a new standard, with wavefront aberration control in addition to common performance standards of N.A. and W.D. Olympus challenges farther highest order optics which has not been fulfilled by the conventional standards. We offer excellent performance objective lenses by minimizing the aberrations that lower resolution.
*Wave front aberration: refer to the optical terminology at the
end of this document.
2. Objective lenses with excellent image parcentricity
High power SemiApochromatic UIS2 objective lenses make the centration tolerance between objective lenses on the microscope nosepiece keep the image within the enter of the field of view even with digital cameras. (50x or higher power in both MPLFLN and LMPLFLN series)
3. Improvement of color reproducibility
UIS2 objective lenses realize natural color reproduction without any chromatic shifts using stringently selected high transmittance glass and advanced coating technology that provides high transmittance which is flat over an ultra­wide band wavelength. In addition, since the total optical system, including the tube lens is designed to reproduce a natural color, clear images faithful to the specimen are obtained even with digital imaging.
WELCOME TO UIS2/UIS OPTICS
4
Based on our conviction that the UIS2/UIS system is the best way to maximize the advantages of infinity-corrected optical systems, we confidently recommend the UIS2/UIS-featured Olympus microscope units for all your high-precision needs in research, inspection and production equipment.
* Refer to the Olympus home page for detailed
objective lenses specifications.
5
SYSTEM DIAGRAM
5
6
SHUTTERSHUTTER
5
6
SHUTTER
U-AN
U-AN360-3 U-AN360IR
LG-SF
LG-PS2
U-LH100HGAPO U-LH100HG
U-LH75XEAPO
U-LH100-3 U-LH100L-3 U-LH100IR
Super widefield trinocular observation tubes
Widefield trinocular observation tubes
U-TLU U-TLUIR
U-25ND6, U-25ND25, U-25LBD, U-25IF550, U-25L42, U-25FR, U-BP1100IR, U-BP1200IR
U-PO3 U-POIR
SZ2-STU2
U-LGAD
TH4-100 TH4-HS
U-STSZ-STL
BXFM-ILH
BXFM-ILHS
BXFM-F
BXFM-ILHSPU
WHN Eyepieces
SWH Eyepieces
BX-RLA2
ND
FS
AS
BX-URA2
U-RCV
U-KMAS
SZX-TLGAD
U-DULHA
BX-KMA/ BX-KMA-ESD
U-POTP3
FS
AS
U-TV0.25xC U-TV0.35xC-2 U-TV0.5xC-3 U-TV0.63xC
U-TMAD
U-BMAD U-SMAD
U-FMT
U-CMAD3
Video camera
C-mount
Video camera S mount 2/3"
Video camera
F mount
Video camera
B mount 2/3"
U-TV1x-2
Revolving nosepiece
(Refer to pages 34-35)
Refer to pages 19-21
Refer to page 22
Refer to pages 23-28
Refer to pages 29-30
Illumination systems and power supply
Focusing units
Stands
Refer to pages 36-37
Video system
Observation/single tubes and eyepieces
BXFM SYSTEM DIAGRAM
*Different types may be offered in each area.
6
SYSTEM DIAGRAM
MOTORIZED UNIT SYSTEM DIAGRAM
BXFM-A SYSTEM DIAGRAM
See manual
U-D5BDREMC U-D6BDREMC
U-D6REMC
U-FWO
BX-RFAA
U-AFA2M-VIS
BX-RLAA
U-LH100-3 U-LH100L-3
U-FWR
Intermediate tubes
(Refer to pages 31-32)
Observation tubes
(Refer to pages 29-30)
U-DICRHC
U-DICR
U-DICRH
U-AN360-3
U-25ND6, U-25ND25 U-25LBD U-25IF550 U-25L42 U-25FR
U-PO3
U-AN
U-HSTR2
BX-UCB*
U-ZPCB
Z board
U-POTP3
PC
analySIS FIVE
Control software
Mirror units
U-LH75XEAPO U-LH100HGAPO U-LH100HG
BF/DF objective lenses
BF objective lenses
BD-M-AD
Refer to pages 38-40
Refer to page 26
Refer to pages 7-18Refer to
page 35
* BX-REMCB is also available for BX-RLAA + motorized revolving nosepiece control (refer to page 39)
MX-AFDIC
U-AN
Video system
(Refer to pages 37-38)
Observation tubes
(Refer to pages 29-30)
MX-AFDIC U-AN
U-AFA2M-VIS
BXFMA-F
U-D6REMC U-P5REMC U-D5BDREMC U-D6BDREMC U-P6BDREMC
Objective lenses
U-FWR
ø32filter
Auxiliary lens (provided with the BXFMA-F)
U-LGAD
U-LH100-3 U-LH100L-3
U-IFFH
U-FH
LG-SF
Refer to pages 26-27
U-RMT
Refer to page 26
U-LH100HG U-LH75XEAPO
U-ZPCB
Z board
Refer to pages 27-28
BX-UCB
See manual
U-HSTR2
analySIS FIVE
Control software
Refer to page 41
Power source
LG-PS2
PC
7
UIS2/UIS OBJECTIVE LENSES
MPL(Plan)
FLN-100 BD
Objective lens series list
Meaning of abbreviations shown on objective lens
Objective lens notation
Features of objective lens series
None: Brightfield BD: Brightfield/darkfield BDP: Brightfield/darkfield/
polarizing
IR: IR LCD: LCD
None:
UIS
N: UIS2
Number:
Objective lens magnification
Series Magnification BF DF DIC*1POL FL F.N. (Field Number) Remarks
UIS2 MPLAPON 50/100 \\U \ 26.5
MPLFLN
1.25/2.5 \ 1.25x: 22 /2.5x: 26.5
Use together with polarizer and analyzer recommended
5/10/20/50/100 \\U \\
*2
26.5 LMPLFLN 5/10/20/50/100 \\L \\ 26.5 MPLN 5/10/20/50/100 \ 22 LCPLFLN-LCD 20/50/100 \\L 26.5 For LCD SLMPLN 20/50/100 \ 26.5
UIS LMPlanIR/MPlanIR 5/10/20/50/100 *
4
\ 22 For near-IR observation
UIS2 MPLFLN-BD 5/10/20/50/100/150 \\\U \\
*2
26.5 MPLFLN-BDP 5/10/20/50/100 \\aU a\
*2
26.5 LMPLFLN-BD 5/10/20/50/100 \\\L \\ 26.5 MPLN-BD 5/10/20/50/100 \\ 22
*
1
DIC prism U-DICR: UM/LM position, U-DICRHC: LM position fixed, U-DICRH: UM position fixed. *25~20x: U excitation also possible
*
3
50x: DIC observation not applicable *4MPlanIR: available 100x only \: Responds a: Optimally responds BF: Brightfield DF: Darkfield
DIC: Differential Interference Contrast POL: Polarized light FL: Fluorescence
M: Metallurgical (no cover) LM: Long working distance
metallurgical use
SLM: Super long working
distance metallurgical use
LC: Observation through
substrate
None: Achromat/
Corrects aberration at 2 wavelengths of blue and red
FL: SemiApochromat/
Corrects chromatic aberration in the visible range (violet~red)
APO: Apochromat/
Optimally corrects chromatic aberration in the entire visible band (violet~red)
PL: Plan/
Corrects field curvature of the periphery of the image plane
Magnification
Objective lenses series abbreviation (PL: Plan)
N.A. (Numerical Aperture)
Field Number
For brightfield observation
Infinity-corrected optical system
Cover glass thickness (no cover)
a MPLAPON: Plan Apochromat — P 8
Plan Apochromat objective lenses that correct chromatic aberrations at the highest level. Olympus guarantees*
1
optical performance (wavefront aberration) with a Strehl ratio*
2
of 95% or better. They are also designed for use with Olympus' U-AFA2M active AF unit.
*1Definition of guaranteed values: Measurements assessed with Olympus’ Interferometer for
Transmitted Wavefront Measurement under specified conditions (measurement: temp. 23°C±1°C; assessment: measurement within the 97% range of the pupil dia.).
*
2
Strehl ratio: Indicates in percent (%) the ratio of the proportion of light that an actual optical system can concentrate with respect to the proportion of light concentrated in the image plane (central intensity) by an ideal, aberration-free optical system, with the latter serving as 100%. A higher percentage indicates a higher quality optical system.
a MPLFLN series: M Plan SemiApochromat — P 9
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, 2.5x), use together with analyzer and polarizer of the reflected light illuminator.
a LMPLFLN series: Long WD M Plan SemiApochromat — P 10
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.
a MPLN series: M Plan Achromat — P 11
Plan Achromat objective lenses providing excellent image flatness up to F.N. 22.
a LCPLFLN-LCD series: LCD Long WD M Plan SemiApochromat — P 12
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.
a SLMPLN series: Super Long WD M Plan Achromat — P 13
Plan Achromat objective lenses with high magnification and super long working distance. Three magnifications, 20x, 50x and 100x are available. For 5x or 10x objective lenses, select from the LMPLFLN Series.
a LMPlan-IR series: IR Long WD M Plan Achromat — P 14
MPlan-IR: IR M Plan Achromat — P 14
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.
a MPLFLN-BD series: M Plan SemiApochromat BD — P 15
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.
a MPLFLN-BDP series: M Plan SemiApochromat BDP — P 16
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. The BDP series optimizing brightfield/darkfield and polarized light characteristics is perfect for Nomarski DIC and polarized light observations.
a LMPLFLN-BD series: Long WD M Plan SemiApochromat BD — P 17
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.
a MPLN-BD series: M Plan Achromat BD — P 18
Plan Achromat objective lenses providing excellent image flatness up to F.N. 22.
UIS2 OBJECTIVE LENSES
8
Plan Apochromat
MPLAPON series
Plan Apochromat objective lenses that correct chromatic aberrations at the highest level. Olympus guarantees*
1
optical performance (wavefront aberration) with a Strehl ratio*2of 95% or better.
They are also designed for use with Olympus' U-AFA2M active AF unit.
Unit: mm
MPLAPON100xMPLAPON50x
MPLAPON 50x 0.95 0.35 3.6 139 500 0.44 1.0 500 0.53 1.0
MPLAPON 100x 0.95 0.35 1.8 125 1000 0.22 0.67 1000 0.27 0.7
Numerical
Aperture
Working distance
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Super widefield eyepiece SWH10x
Field Number 26.5
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
ø20.32
ø28.5
ø20.3
ø18.9
ø8.8
4.545
(44.65)
41.62
41
37.98
WD=0.35
ø5.5
ø16
ø20.2
ø28
4.5
ø20.32
45
(44.65)
42.78
42.4
38.43
WD=0.35
*1Definition of guaranteed values: Measurements
assessed with Olympus’ Interferometer for Transmitted Wavefront Measurement under specified conditions (measurement: temp. 23°C±1°C; assessment: measurement within the 97% range of the pupil dia.).
*
2
Strehl ratio: Indicates in percent (%) the ratio of the proportion of light that an actual optical system can concentrate with respect to the proportion of light concentrated in the image plane (central intensity) by an ideal, aberration-free optical system, with the latter serving as 100%. A higher percentage indicates a higher quality optical system.
UIS2 OBJECTIVE LENSES
9
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, 2.5x), use together with analyzer and polarizer of the reflected light illuminator.
ø28
ø20.32
ø28
ø20.32
ø20.32
ø20.32
ø30
ø29
ø28.6
ø30
ø29
ø24.5
ø26
ø20.9
ø26
ø14.5
4.9
WD=3.5
45
(41.5)
41.2
45
4.9
(34.3)
WD=10.7
31.6
45
4.5
WD=20
WD=11
(25)
22.55
(34)
4.5
45
28.41
ø20.32
ø20.32 ø20.32
ø10.7
ø15.2
ø17.8
ø26
ø7.8
ø15.2
ø17.8
ø26
ø26
ø12.1
WD=3.1
4.5
(41.9)
45
35.1
WD=1
45
4.8
(44)
38.4
42.4
42.61
4.8
45
WD=1
(44)
41.78
40.8
36.8
MPLFLN1.25x* MPLFLN2.5x* MPLFLN5x MPLFLN10x
MPLFLN20x MPLFLN50x MPLFLN100x
MPLFLN 1.25x* 0.04 3.5 145 122 12.5 17.6 870
MPLFLN 2.5x* 0.08 10.7 72 106 25 8.8 220 25 10.6 220
MPLFLN 5x 0.15 20.0 36 51.5 50 4.4 59 50 5.3 59
MPLFLN 10x 0.30 11.0 18 68.1 100 2.2 15 100 2.7 15
MPLFLN 20x 0.45 3.1 9 70.4 200 1.1 5.2 200 1.3 5.1
MPLFLN 50x 0.80 1.0 3.6 89.9 500 0.44 1.3 500 0.53 1.3
MPLFLN 100x 0.90 1.0 1.8 90.9 1000 0.22 0.73 1000 0.27 0.73
Numerical
Aperture
Working distance
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
Total
magnifications
Practical field
of view (mm)
Depth of
focus (µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Super widefield eyepiece SWH10x
Field Number 26.5
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
Unit: mm
10
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.
LMPLFLN 5x 0.13 22.5 36 50 50 4.4 70 50 5.3 70
LMPLFLN 10x 0.25 21.0 18 54 100 2.2 18 100 2.7 18
LMPLFLN 20x 0.40 12.0 9 73 200 1.1 6.1 200 1.3 6.1
LMPLFLN 50x 0.50 10.6 3.6 77 500 0.44 2.5 500 0.53 2.5
LMPLFLN 100x 0.80 3.4 1.8 94 1000 0.22 0.87 1000 0.27 0.87
Numerical
Aperture
Working distance
(mm)
Weight
(g)
Focal distance
f (mm)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Super widefield eyepiece SWH10x
Field Number 26.5
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
Unit: mm
45
4.5
WD=21
(24)
ø22.4
ø26
ø26
ø17
ø26
22.1
ø15.2
45
WD=22.5
4.9
(22.5)
ø25.4
22.2
4.8
(33)WD=12
45
29.31
ø20.32ø20.32ø20.32
ø26
ø18.2
WD=3.4 (41.6)
45
4.7
ø20.32ø20.32
ø12.5
ø15
ø18.1
41.1
37.26
ø26
45
WD=10.6
(34.4)
4.9
30.4
LMPLFLN5x LMPLFLN10x LMPLFLN20x
LMPLFLN50x LMPLFLN100x
UIS2 OBJECTIVE LENSES
11
Unit: mm
M Plan Achromat
MPLN series
Plan Achromat objective lenses providing excellent image flatness up to F.N. 22.
MPLN 5x 0.10 20.0 36 64 50 4.4 98
MPLN 10x 0.25 10.6 18 80 100 2.2 18
MPLN 20x 0.40 1.3 9 111 200 1.1 6.1
MPLN 50x 0.75 0.38 3.6 113 500 0.44 1.4
MPLN 100x 0.90 0.21 1.8 116 1000 0.22 0.73
Numerical
Aperture
Working distance
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field of
view (mm)
Depth of focus
(µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
ø20.32
ø20.32
ø20.32
ø6
ø11.9
ø15.8
ø24
ø21
ø24
ø24
ø16
ø12
ø10.5
45 4.5
23.4
(25)
WD=20
WD=10.6 (34.4)
4.545
32.71
28.8
33.6
4.5
(43.7)
45
WD=1.3
37.2
41.3
42.4
ø20.32
ø20.32
ø6
ø11.9
ø15.8
ø24
ø4.4
ø11.6
ø15.6
ø24
(44.62)WD=0.38
4.5
45
37.2
41.3
42.62
WD=0.21 (44.79)
45
4.5
38.7
42.8
43.16
MPLN5x MPLN10x MPLN20x
MPLN50x MPLN100x
UIS2 OBJECTIVE LENSES
12
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.
Objective lens LCPLFLN20xLCD LCPLFLN50xLCD LCPLFLN100xLCD
Corresponding glass thickness (mm) 0-1.2 0-1.2 0-0.7
Correction ring indication 0 0.7 1.2 0 0.7 1.2 0 0.5 0.7
Working distance (mm) 8.3 7.8 7.4 3.0 2.5 2.2 1.2 0.98 0.9
Correction system Correction ring Correction ring Correction ring
LCPLFLN 20xLCD*** 0.45 7.8 9 146 200 1.1 5.2 200 1.3 5.2
LCPLFLN 50xLCD*** 0.70 2.5 3.6 170 500 0.44 1.6 500 0.53 1.6
LCPLFLN 100xLCD*** 0.85 0.9 1.8 185 1000 0.22 0.79 1000 0.27 0.79
Numerical
Aperture
Working distance**
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
Total
magnifications
Practical field of view (mm)
Depth of
focus (µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Super widefield eyepiece SWH10x
Field Number 26.5
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36") **The figure shown here is the value when the correction ring indication is 0.7. *** To be available in the beginning of 2007
Unit: mm
WD=0.9 (43.638)
45.238 *
43.4
41.6
27.5
20
ø25
ø20.32
ø15.2
ø29.5
4.5
(36.738)
45.238 *
WD=7.8
t=0.7
t=0.7
t=0.7
WD=2.5
4.5
ø20.32
ø15
ø25
ø29.5
ø31
36.55
34.75
24.5
20
45.238 *
4.8
(42.038)
ø20.32
ø12.77
ø17.84
ø25
ø29.5
ø31
ø31
40.45
38.65
25
20
LCPLFLN20xLCD*** LCPLFLN50xLCD*** LCPLFLN100xLCD***
* Value at glass thickness 0.7mm observation
13
UIS2 OBJECTIVE LENSES
Unit: mm
Super Long WD M Plan Achromat
SLMPLN series
Plan Achromat objective lenses with high magnification and super long working distance. Three magnifications, 20x, 50x and 100x are available. For 5x or 10x objective lenses, select from the LMPLFLN series.
19.3
19.8
(20)
45
ø20.32
ø16.1
ø25
ø26
WD=25
4.9
24.1
26.3
(27)
45
ø20.32
ø16.9
ø17.3
ø21.4
ø26
4.9
WD=18
36.2
37.2
(37.4)
45
ø20.32
ø14.7
ø26
ø23.8
4.9
WD=7.6
SLMPLN20x SLMPLN50x SLMPLN100x
SLMPLN 20x 0.25 25 9 56 200 1.1 11.4 200 1.3 11.4
SLMPLN 50x 0.35 18 3.6 74 500 0.44 4.2 500 0.53 4.2
SLMPLN 100x 0.6 7.6 1.8 100 1000 0.22 1.3 1000 0.27 1.3
Numerical
Aperture
Working distance
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field
of view (mm)
Depth of
focus (µm)
Total
magnifications
Practical field
of view (mm)
Depth of
focus (µm)
UIS2 objective lenses
Widefield eyepiece WHN10x
Field Number 22
Super widefield eyepiece SWH10x
Field Number 26.5
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
UIS OBJECTIVE LENSES
14
IR Long WD M Plan Achromat/IR M Plan Achromat
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.
34.3
30.3
22.5
ø
21
ø
26
(26.5)
WD=18.5
25
23
ø12.4
ø
15
ø
22
45
4.5
(36.9)
ø
20.32
ø
20.32
ø10.4
ø
18
ø
26
45
4.5
45
WD=20
(25)
ø
20.32
WD=8.1
ø
26
4.5
ø14.8
ø
18.12
(44.7)
ø12.5
4.5
45
WD=0.3
43.4
42.6
36.8
ø
20.32
ø
15
37
45
4.5
ø
20.32
ø4.95 ø12.2
45
ø
26
ø
26
(39)
WD=6
37.5
36.9
32.9
ø12.5
ø15.6
ø
18
4.7
ø
20.32
(41.6)
WD=3.4
40.8
ø
26
LMPlan5xIR LMPlan10xIR LMPlan20xIR
LMPlan50xIR LMPlan100xIR
Unit: mm
MPlan100xIR
LMPlan 5xIR 0.10 20.0 36 73 50 4.4 98
LMPlan 10xIR 0.25 18.5 18 73 100 2.2 18
LMPlan 20xIR 0.40 8.1 9 110 200 1.1 6.1
LMPlan 50xIR 0.55 6.0 3.6 115 500 0.44 2.2
LMPlan 100xIR 0.80 3.4 1.8 122 1000 0.22 0.87
MPlan 100xIR 0.95 0.3 1.8 130 1000 0.22 0.67
Numerical
Aperture
Working distance
(mm)
Focal distance
f (mm)
Weight
(g)
Total
magnifications
Practical field of
view (mm)
Depth of focus
(µm)
UIS objective lenses
Widefield eyepiece WHN10x
Field Number 22
Objective lens
(magnification)
Screw: W20.32x0.706 (0.8"x1/36")
UNIVERSAL
INFINITY SYSTEM
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