Research Inverted Microscope
IX83/IX73/IX53
IX3 Series
Built for Live Cell Imaging
1
Advance to a Higher Level of Live Cell Research
with the IX3
The new IX3 is a highly expandable platform for live cell imaging
designed with the scientist’s workflow in mind.
Built on a robust foundation and able to grow as future needs evolve, the IX3 features
modular yet stable construction with an easy access light path. Capture cellular
processes with high definition, widefield imaging and intuitive control.
Equipped with a camera, the IX3 provides fast user-friendly,
high-resolution digital imaging with high reproducibility.
2
Expandable to Grow with Your Research
The fully-motorized IX83 and semi-motorized IX73 are designed to satisfy a vast array of research needs. With
additional modules providing expanded functionality, both microscopes enable a multitude of imaging techniques,
ranging from casual documentation to long-term time-lapse imaging and other demanding techniques.
The unique open frame of the IX3 design provides ready access to the light path making it easy to manipulate the light
or bring in additional inputs. Deck modules can easily be exchanged on-the-fly, enabling the user to add or remove
functions as their experiments change. The IX3-ZDC2 module, with its own specialized deck, is available for IX83
systems to maintain continuous focus throughout extended time-lapse use.
Regardless of whether the user is interested in acquiring large, 3D fluorescent images, or in capturing ultrafast
dynamic processes in live cell samples, the improved efficiency and reproducibility of the IX3 system makes it the
ideal solution for a wide range of research applications.
3
IX83: Two-Deck System
IX83: One-Deck System
Enables high-speed, fully automated device selection during live
cell research including time-lapse imaging. Two decks offer
excellent expandability.
An intelligent, motorized microscope that can be equipped with
the IX3-ZDC2 to create a new standard for live cell imaging.
IX73: Two-Deck System
IX73: One-Deck System
IX53: One-Deck System
The IX73 two-deck system can be combined
with coded and motorized units* to produce
a semi-motorized system with exceptional
expandability.
A microscope designed with emphasis on
working efficiency for documentation, routine
testing and other tasks.
An outstanding microscope delivering cost
efficiency for brightfield and fluorescence
applications.
*Except IX3-ZDC2
4
Reliable, High-Resolution Images that are Clear and Bright
Fly-eye Lens
Fast Filter Wheel
Fast Filter
Wheel
Maximum Field Number: 22 (IX83P1ZF, IX73P1F), 20 (IX73P2F), 18 (IX83P2ZF)
*Field of view is limited when filter wheel inserted.
Olympus UIS2 infinity-corrected optics ensure high optical transmittance with a broad range of objectives
providing wide chromatic correction and high resolution, as well as high S/N primary images regardless of the
observation method. The wide field of view and fly-eye lens system provide uniform fluorescence images and
enable the use of sCMOS cameras with large sensors.
5
Excellent Image Quality
Apochromatic Objectives Enable High Resolution
Observation of Phase Contrast and Fluorescence
Phase contrast apochromatic objectives (UPLSAPO100XOPH,
PLAPON60XOPH) enable high-precision observation free from
optical axis displacement—even during simultaneous observation
of phase contrast and fluorescence, negating the need to change
the objective when switching methods.
NA 1.7 TIRF Objective
The NA 1.7 APON100XHOTIRF** objective expands
pands
the adjustable range for production of evanescent
cent
fields, enabling the user to form thin evanescent
ent
fields by simply adjusting the angle of incidence.
e.
High NA objectives for TIRF from 60x to 150xx
are also available.
**Use dedicated immersion oil and cover glass
Hela Cell Expressing mCherry Actin
Image data courtesy of:
Tomonobu Watanabe, Ph.D.
Laboratory for Comprehensive Bioimaging,
RIKEN Quantitative Biology Center
Silicone Objectives* Provide Unparalleled Visibility Deep into
Live Cells
Olympus offers three high-NA silicone immersion objectives:
UPLSAPO30XS, UPLSAPO40XS, UPLSAPO60XS2 and
UPLSAPO100XS. The refractive index of silicone oil (ne≈1.40)
is close to that of living tissue (ne≈1.38), enabling high-resolution
observations deep inside living tissue with minimal spherical
aberration caused by refractive index mismatch. silicone oil does not
dry out or harden, so there is never a need to refill oil, making it ideal
for extended time-lapse observations.
High S/N Fluorescent Mirror Units for Efficient Detection of
Fluorescent Signals
All fluorescence mirror units feature filters treated with a coating
specially developed to minimize noise by absorbing more than 99%
of stray light, while the sharp performance and high transmittance
of the mirror units ensure efficient fluorescence signal detection.
Image Captured with a
Conventional FL Mirror Unit
Images Captured with New FL Mirror Units
*Use dedicated silicone oil.
Bright, Uniform Fluorescent Illumination
The fluorescence illuminator (IX3-RFALFE) incorporates a flyeye lens system to provide an even distribution of fluorescence
illumination, providing bright and even illumination to the entire field,
including the periphery the periphery of the visual field.
3D reconstruction images of a live sphere made of NMuMG/Fucci2 cells.
Confocal images were acquired by a confocal microscope (FV1000).
(Red: cell cycle G1 phase, Green: cell cycle S/G2/M phase)
Image data courtesy of:
Asako Sakaue-Sawano, Ph.D. Atsushi Miyawaki, M.D., Ph.D.
Laboratory for Cell Function Dynamics, Advanced Technology Development Core,
RIKEN Brain Science Institute
With Fly-eye Lens
System
Without Fly-eye Lens
System
6
Intuitive and Ergonomic Microscope Control
The IX3 imaging system incorporates a range of advanced technologies to enable fine control of your imaging.
As a result, it allows researchers to refine complex sequences of operations into workflows with speed and comfort,
eliminating burden on the observer and minimizing cell damage.
A repositionable controller can be located comfortably close to hand, while Olympus cellSens* imaging software
enables advanced control of functions. There is also an innovative, user-friendly touch panel that makes digital
control simple and accurate, even when working under darkroom conditions. The Z-drift compensation system
employs a near-infrared light to minimize cell damage while enabling constant focus.
The IX83 can be equipped with a microplate compatible ultrasonic stage and the Z-drift compensation system for
efficient observation and the ability to record multiple sample locations.
*cellSens software is not for clinical diagnostic use.
7
Smart Control
Switch Observation Methods with a Single Touch
Olympus offers a touch panel controller for the IX83, to configure all
motorized and automated functions on the microscope, including
advanced functions such as automatically adjusting lamp intensity
according to magnification. The touch panel controller used in
c o m b i n a t i o n w i t h c e l l S e n s s o f t w a re e n a b l e s a d v a n c e d
customization, with the ability to program observation procedures
and a range of other functions as touch panel soft keys. A hand
switch is available for the IX73.
ZDC One-Shot Function Quickly Detects Focus,
Even at High Magnifications
IX3-ZDC2 focus detection and tracking can be performed via the
innovative touch panel independent of software. There's also a
focus search function supported by a cell-safe, near-infrared laser
enabling instant focusing on samples—even at high magnification.
Just Touch the Panel
IX83 Touch Panel Controller
IX73 Hand Switch
Intuitive Microscope and Stage Control
The combination of the U-MCZ
and XY-controller make it possible
to provide the familiarity of
conventional handle operation
for confident working even in a
darkroom.
For Instant Focus
Store and Recall Microscope Configurations with cellSens
The system saves microscope configurations alongside image data
through incorporation of a readout function that utilizes motorized
units and coded units. With this advanced system, a wide range
of settings can be recalled to recreate the desired imaging
conditions, thus creating an
easy-to-use reproducible
high-end imaging system.
Operator-friendly Design
Smooth Tracking at High Magnification
The IX3-SVR/IX3-SVL manual stages feature a smooth positioning
system which enables the easy tracking of cells even in high
magnifications. The user settable position limits immobilizes the
stage, ensuring that the observation position is maintained during
operations such as reagent application, even if the stage is
inadvertently touched. It is also possible to remove 35mm dishes
from the stage, place them in an incubator for culturing and return
them to the stage—repositioning the exact location of the cells
within the field of view.*
Easy Koehler Illumination via the Front Condenser Knob
Using a condenser lock and the front-located control knobs, the
condenser can be moved and easily reset to Koehler Illumination.
Frame Construction Prevents Optical System Contamination
A catch tray under the nosepiece prevents damage to the
microscope caused by contamination through spilled liquids and
simplifies maintenance.
*This equipment was based on the technical development at RIKEN BSI-Olympus
Collaboration Center.
8
A Live Cell Imaging Platform
Rapid and Accurate Acquisition of Multipoint, Time-Lapse Images for Live Cell Experimentation
The IX3 system is optimized for a wide range of live cell observations. It can be equipped with the real-time z-drift
compensation (ZDC) system to keep cells precisely in focus during long-term time-lapse imaging. The IX3-SSU
motorized stage enables the user to produce highly accurate, multipoint images through excellent reproducibility and
intuitive control. When used in combination with a microplate holder, the IX3-SSU allows the user to image 96 well
microplate with impressive speed and repeatability during long-term time-lapse experiments.
9
Imaging Accuracy and Efficiency
Maintain Focus with Z-Drift Compensation (ZDC) System
The IX3-ZDC2 uses minimally-phototoxic IR light (laser class 1) to
identify the location of the sample plane. One-shot autofocus (AF)
mode allows several focus positions to be set as desired for deeper
samples, enabling efficient Z-stack acquisitions in multi position
experiments. The IX3-ZDC2 is also compatible with silicone objectives
(in AF mode) and a broad range of dyes such as Fura-2 (excitation
maximum at 340nm/380nm, emission maximum at 510nm) and
Cy7 (excitation maximum at 743nm, emission maximum at 767nm)
due to motorization of DM. Continuous AF mode keeps the desired
plane of observation precisely in focus, avoiding focus drift due
to temperature changes or the addition of reagents, making it
ideal for measurements that
requires more stringent focusing.
Furthermore, increased optical
offset enables continuous AF
over plastic vessels or with dry
objectives.
High-Precision, Multi-Area Imaging with cellSens Software
The Olympus cellSens software improves the efficiency of multi-area
time lapse imaging. When used with the continuous autofocus
mode of the IX3-ZDC2, 96 well microplate can quickly be imaged
with ease (duration of image acquisition for 96 well microplate is
~2min*), improving sample throughput.
* In case of acquiring
images continuously
with 30 ms exposure
time on a single point
of each well on 96 well
microplate.
IX3-ZDC2 Z drift compensator
Multi-Area Observation
IX3-ZDC2 Optical Path Diagram
cell
t
Offset
Offset lens
Y
Cover glass
Objective
AF sensor
Objectives for Plastic Bottom Dishes and
Floating Cell Observation
This high NA phase contrast objective (UCPLFLN20XPH) is well suited
for the observation of cellular adhesion and other processes that utilize
plastic wells. Users do not have to worry about the issues associated
with transferring cells from plastic wells to glass bottom dishes.
X
Easy Analysis of Captured Images
The Olympus cellSens software allows users to easily view and
analyze microplate images. Image parameters (ex. date, file name,
microplate number, etc.) can easily be stored and retrieved with the
click of a button. IX3 users can more efficiently process large amounts
of data with cellSens software.
iPS-cell expressing Nanog reporter (GFP)
Image data courtesy of:
Tomonobu Watanabe, Ph.D.
Laboratory for Comprehensive Bioimaging,
RIKEN Quantitative Biology Center
10
Interchangeable Optical Modules Provide Flexible Imaging Options
A diverse range of units is available for the Olympus IX3 microscope system, bringing greater efficiency to everything
from casual observation to serious imaging. Simple cassette-like insertion into the deck makes it easy to mount
fluorescence mirror turrets, a right side port with C-mount, an encoded magnification changer, reflected light
fluorescence illuminators and other desired units. The large open frame allows fitting a motorized emission filter wheel
with the infinity space of the microscope. This eliminates image shift between channels and allows the eyepieces to see
what the camera sees. An automated or manual Right Side Port deck module provides camera mounting flexibility.
Left Side Port
11
Visual
Observation
Deck Units/High Speed Units
Fluorescence System
Motorized Fluorescence Mirror Turret (IX3-RFACA)
An automated vibration-free
turret fitted with 8 mirror units
delivers smooth, fast switching.
Mirror units can be used with
25mm diameter filters or 32mm
diameter filters. No tool use is
required to change mirror units,
which are easily installed or IX3-RFACA
removed in seconds.
Reflected Light Fluorescence Illuminators
An L-shaped fluorescence illuminator with a fly-eye lens system
provides bright, consistent illumination without adjustment, an
L-shape-fluorescence illuminator is equipped with a field iris
diaphragm and aperture iris diaphragm, and a straight-through
fluorescence illuminator is available for applications demanding
intense excitation light. A wide range of light sources are available,
including light guide light sources and lamp houses compatible
with both 100W mercury and 75W xenon illumination.
2
3
1 U-LH100HG
4
2 U-LH75XEAPO
1
3 U-LH100HGAPO
4 U-HGLGPS
Motorized Right Side Port with C-mount (IX3-RSPCA)/
Manual Right Side Port with C-mount (IX3-RSPC)
Right side ports with a C-mount
allow the light-path switching
component to be fitted with up
to two mirror units, enabling
the construction of customized
systems for applications such
as split imaging.
IX3-RSPCA
Coded Intermediate Magnification Changer (IX3-CAS)
Magnification can be changed
between 1x, 1.6x and 2x by
smooth lever operation. Since
the system incorporates coded
functionality, information on
intermediate magnifications is
saved with image data.
5 IX3-RFA
6
5
6 U-LLGAD
7 IX3-RFAL
7
8
8 IX3-RFALFE
130W Mercury Lamp Housing with Fiber (U-HGLGPS)
Fluorescent light source offering long life and maintenance-free
operation. Delivers bright, even illumination and requires
no centering adjustment. A
liquid light guide ensures that
extended observations can
be carried out without concern
regarding heat transfer to
samples.
IX3-CAS
Motorized Units/Coded Units
Motorized Fast Filter Wheels and Shutters
Filter wheels can switch between filters in just 60 milliseconds,
while shutters can open and close in just 26 milliseconds. The IX83
is capable of controlling up to
six filter wheels and four shutters
to satisfy complex multi-modal
imaging.
A Cost-Effective Way to Upgrade to a Motorized Microscope
A wide range of motorized and encoded units are available,
including an 8-position motorized fluorescent mirror turret, an
encoded fluorescence mirror turret, a motorized 6-position
nosepiece, an encoded 6-position nosepiece, a motorized long
working distance universal condenser, filter wheels and shutters.
1 IX3-LWUCDA
3
2
1
5
4
2 IX3-MLWCDA
3 U-FFWEM
U-FFWEM
4 U-FFW
6
5 U-FSHU
6 IX3-RFACA
8
7
7 IX3-RFCS
9
U-FFW
U-FSHU
8 IX3-RSPCA
10
11
9 IX3-D6RES
10 IX3-D6REA
11 IX3-DICTA
12
Delivering a Range of Imaging Options
Olympus cellSens* imaging software streamlines the process from observation to image analysis and data
management, in complex imaging systems that combine multiple methods of observation.
The software offers advanced compatibility with the IX3 system to easily control the positions of the ultrasonic
stage and Z-drift compensation system, and perform other operations such as time-lapse control, DSU disk IN/
OUT function to switch between confocal and regular observations.
When the software is started, the observation method set by the software can be controlled by touch panel, manual
controller, or hand switch in addition to control from the computer screen.
The software can record microscope conditions when performing an experiment, so that users can easily reproduce
the same experiment at a later point in time.
*cellSens software is not for clinical diagnostic use.
13
Olympus cellSens Imaging Software
Olympus cellSens imaging software is available in three packages to meet individual workflow needs. “Entry” is used for simple image
acquisition. “Standard” provides simple operation for imaging documentation and “Dimension” allows control of the complete workflow from
image capture to analysis.
Imaging
Processing
Analyzing
Reporting
Capture multi-color, time lapse, and
z-stack images with ease. Just select
the appropriate capture button, add
relevant parameters, and click "Start".
The Process Manager makes it easy
for experts and beginners to capture
multidimensional image.
Automatically view your data in the
colors and layout you choose. Take
advantage of an array of professional
image processing functions, such
as stitching, extended focus,
deconvolution, and unmixing.
Make measurements using an intuitive
interface. cellSens offers region of
interest, phase analysis, and cell count
capability. Export raw measurement
data to an MS Excel or cellSens
workbook format with a single click.
Actively collaborate with colleagues and
coworkers with special tools including
Database, and Reporting functions. These
functions make it simple to manage, share,
and distribute your own image and data
reports.
Dark Interface Skin
The Dark interface skin lets cellSens adapt to sensitive environments:
icons are however still colored for easy recognition and quick selection.
Graphical Experiment Manager (GEM)
Tailor unique experiments and achieve greater flexibility with the
Graphical Experiment Manager. This high-end device solution
provides compatibility with image splitting and piezo devices, helping
simultaneous two-color imaging and high-speed z-stack image
acquisition.
Capture command
Dark Interface Skin
Loop command
Deconvolution
This useful feature eliminates blur from single plane images.
Processing can be carried out multiple times and the results can
be adjusted while viewing them on the screen. A 3D deconvolution
module is also available for use on multi-plane images.
Original Image
Image Stitching
The manual multiple image alignment composes a single montage
image as you traverse the specimen. Multiple saved images with
adjoining components can also be combined into a single freeshape image. Panoramic imaging can be completely automated
when Dimension and its
optional multiposition
function integrated into a
motorized microscope.
Deconvolved Image
14
System Description
FLUOVIEW System
Biological Confocal Laser Scanning Microscope/FV1200
The FLUOVIEW FV1200 imaging scanner can be configured with a
dedicated SIM scanner and GaAsP ultra-high-sensitivity detector,
along with cell dispersion package and time-lapse imaging unit
to construct an ideal confocal laser scanning microscope system
achieving multi-dimensional observation, stimulation, and measurement.
Image data “Drosophila, Stage 14” courtesy of:
Dr. Tetsuya Kojima, Laboratory of Innovational Biology, Department of Integrated
Biosciences Graduate School of Frontier Sciences, University of Tokyo
SIM Scanner Unit
Cooled GaAsP Photodetector
Dedicated Scanner for Photostimulation
Combination of the main scanner with a photostimulation scanner
provide essential fl exibility for tracking the diffusion or transport of fl
uorescence-labeled molecules or for marking specifi c live cells. The
dual-fi ber laser combiner makes it possible to use imaging lasers for
photostimulation.
Ultra-High Sensitivity Detector with GaAsP PMT Enhances
Quantum Efficiency
The ultra-high sensitivity detector makes it possible to view samples
that were simply too dim to view with conventional equipment. The
GaAsP PMT incorporates 2 channels and combines the images
with a further 3 built-in channels as well as the channel transmitted
from the detector. Maximum quantum effi ciency is 45%, Peltier
cooling holds noise down by 20%, and high S/N ratio images can
be obtained under exceptionally low excitation light.
Simultaneous Photostimulation and Imaging
Performs simultaneous photostimulation and imaging to acquire images
of immediate cell responses to stimulation in photobleaching experiments.
Spinning Disk Confocal System (IX3-DSU)
Real-time Cell Imaging with Excellent Optical Sectioning
Disk Scanning Unit (DSU) for IX83
Enables real-time confocal observation of images with excellent
sectioning. Fits to the left side camera port instead of the light source
illumination port, allowing for simultaneous attachment with other units.
Widefield Fluorescence Image
DSU Image
DSU Specifications
Optical System
Shutter
Confocal Disk
Mirror Unit Cassette
ND Filter Wheel
Attaching Camera
Software
Attachable microscope
15
•FN: 11 (only for camera observation) •FS (PUSH / PULL system, equipped with centering mechanism) •Projection Magnification of Field Stop : 1
•Imaging Magnification : 1 •Supported Observation Methods 1) Confocal Oservation 2) Widefield Oservation 3) Transmitted Oservation (BF, PH, DIC)
•Manual shutter : 1 (PUSH / PULL system) •Motorized shutter : 1 [Use No.6 (light shielding) position of ND filter wheel)]
•Slit type confocal disk •Selectable disk (Provided with standard DSU-D2) •Motorized light path IN / OUT.
•Mirror units can be selected by the motorized turret. •Number of attachable mirror units : 6 pieces (Provided with standard DSU-MGFP and U-MRFPHQ)
•ND filters are selected by the motorized turret.
•ND filter assignment No.1 : Idle hole No.2 : ND50 No.3 : ND25 No.4 : ND6 No.5 : ND1.5 No.6 : Light shielding plate (shutter position)
C mount (1-32UNF)
cellSens (Operates and controls IX3-DSU, IX83F and motorized parts of other motorized units)
Left side port of IX83P1ZF and IX83P2ZF
cellTIRF 1Line and cellTIRF 4Line System
TIRF Microscope Illuminator with Motorized Penetration Depth,
and Simultaneous 4-channel Image Capture
The cellTIRF family takes TIRF technique to the next level with a
series of peerless features such as advanced optics, independent
laser control and exceptional accuracy. The cellTIRF family can be
equipped with the Olympus IX3-ZDC2 for live cell TIRF imaging
with lasers spanning from 405nm to 640nm.
The cellTIRF 1Line system features a single beam path that can be
used with a single laser or a laser combiner.
The cellTIRF 4Line system enables ultra-sensitive, simultaneous
multicolor TIRF using four laser channels with independent beam
paths. Individual motorized angle control for each laser ensures
equal evanescent (±1 nm), which enables you to produce highcontrast images with minimal background noise for cell surface and
single molecule studies. The cellTIRF 4Line system has integrated
point FRAP optics for the first laser line.
Image data courtesy of:
Akiko Hashimoto-Tane, Ph.D.
Takashi Saito, Ph.D.
Laboratory for Cell Signaling,
RIKEN Research Center for Allergy
and Immunology
Colocalization of the Dynein Complex with T Cell Receptor Microclusters
Reference material : Akiko Hashimoto-Tane, Takashi Saito, et al. (2011). DyneinDriven Transport of T Cell Receptor Microclusters Regulates Immune Synapse
Formation and T Cell Activation. Immunity 34, 919-931.
•Upper images acquired by IX81.
cellTIRF 1L
Real-Time Controller (U-RTC, U-RTCE)
Ultrafast Image Capture, Illumination and Experimental Control
Complex 3D time-lapse observation and live cell imaging
benefit from precise temporal control. The Olympus Real-Time
Controllers, U-RTC and U-RTCE (enhanced), expedite multi-image
acquisition while minimizing phototoxicity to live samples and
photobleaching to fixed samples. Both controllers optimize overall
system performance by synchronizing accessory devices through
parallelized control, leading to rapid execution of experimental
protocols. The U-RTC and U-RTCE feature an independent CPU
board that eliminates delays even in complex experimental set-ups.
The precision and speed (i.e. images taken per time) of experiment set-ups is more
accurate and faster when the experiment is controlled via the RTC (blue) compared to
PC control only (orange). Measurements were performed by using Lumen Dynamics
XLED1 light source, Andor iXON 897 EMCCD camera and a light meter at the objective
lens. Data were acquired with 5ms exposure running the camera as fast as possible.
U-RTC
U-RTCE
Take advantage of the fast, real-time controller with the easy-to-use
Olympus cellSens software and GEM interface.
16
System Description
Additional Expandability Options
Motorized Middle Long Working Distance
Condenser/IX3-MLWCDA
The IX3-MLWCDA supports brightfield, DIC, relief-contrast and
polarized light observations. The condenser can handle up to four
optical elements in the turret and features a motorized polarizer.
The condenser is ideal for sperm selection and observation of nonhuman oocytes spindles. Motorized adjustment helps produce
optimum contrast, and a long
working distance and slim
design make injections easy.
IX3-MLWCDA
Rat Oocyte
High-precision Multi-area Imaging Ultrasonic stage for
IX3/IX3-SSU
With low thermal drift and accuracy, the ultrasonic stage delivers
excellent reliability for multi-area imaging. Sample holders are
firmly anchored to ensure accurate positioning while the stage
is in motion, so the observation position stays fixed even during
high-magnification multi-point observations using slides or dishes.
IX3-SSU
17
IX3-HOW-2, IX3-HO35DF,
IX3-HO35D, IX3-HOS
Accurately Measure Light Intensity at the Sample
Adapter for Excitation Irradiance Meter/IX3-EXMAD*
Olympus now offers an adapter for a power meter that can directly
measure the excitation light intensity per unit surface area of the
sample, as well as offering irradiance display software. Displays the
measurement results on a monitor and records the data, eliminating
the need for laborious calculations. This makes it possible to check
the excitation light intensity before starting an experiment, enhancing
the reliability of experiments. Data can also be easily shared.
*This equipment was based
on the technical development
at RIKEN BSI-Olympus
Collaboration Center.
Objective specifications
UIS2 objective
NA
UPLSAPO 4X
0.16
UPLSAPO 10X2
0.40
UPLSAPO 20X
0.75
UPLSAPO 20XO
0.85
UPLSAPO 30XS
1.05
UPLSAPO 40X2
0.95
UPLSAPO 40XS
1.25
UPLSAPO
UPLSAPO 60XW
1.20
UPLSAPO 60XO
1.35
UPLSAPO 60XS2
1.30
UPLSAPO 100XO
1.40
UPLSAPO 100XS
1.35
UPLSAPO 100XOPH
1.40
PLAPON 60XO
1.42
PLAPON
PLAPON 60XOSC2
1.40
PLAPON 60XOPH
1.42
UPLFLN 4X
0.13
UPLFLN 10X2
0.30
UPLFLN 20X
0.50
UPLFLN 40X
0.75
UPLFLN 40XO
1.30
UPLFLN
UPLFLN 60X
0.90
UPLFLN 60XOI
1.25–0.65
UPLFLN 100XO2
1.30
UPLFLN 100XOI2
1.3-0.6
PLFLN
PLFLN 100X
0.95
UCPLFLN 20X
0.7
UCPLFLN
UCPLFLN 20XPH
0.7
LUCPLFLN 20X
0.45
LUCPLFLN 40X
0.60
LUCPLFLN 60X
0.70
LUCPLFLN 20XPH
0.45
LUCPLFLN
LUCPLFLN 20XRC
0.45
LUCPLFLN 40XPH
0.60
LUCPLFLN 40XRC
0.60
LUCPLFLN 60XPH
0.70
UPLFLN 4XPH
0.13
UPLFLN 10X2PH
0.30
UPLFLN 20XPH
0.50
UPLFLN-PH
UPLFLN 40XPH
0.75
UPLFLN 60XOIPH
1.25-0.65
UPLFLN 100XO2PH
1.30
UPLFLN-PHP
UPLFLN 4XPHP
0.13
CPLFLN 10XPH
0.30
CPLFLN
CPLFLN 10XRC
0.30
LCACHN 20XPH
0.40
LCACHN 20XPHP
0.40
LCACHN 20XRC
0.40
LCACHN
LCACHN 40XPH
0.55
LCACHN 40XPHP
0.55
LCACHN 40XRC
0.55
CACHN 10XPHP
0.25
CACHN & CPLN CPLN 10XPH
0.25
CPLN 10XRC
0.25
UAPON 20XW340
0.70
UAPON 340
UAPON 40X0340-2
1.35
UAPON 40XW340
1.15
APON 60XOTIRF
1.49
APON 100XHOTIRF*
1.70
TIRF
UAPON 100XOTIRF
1.49
UAPON 150XOTIRF
1.45
W.D.
(mm)
FN
Cover glass
thickness (mm)
13
3.1
0.6
0.17
0.8
0.18
0.3
0.28
0.15
0.3
0.13
0.2
0.13
0.15
0.12
0.15
17
10
2.1
0.51
0.2
0.2
0.12
0.2
0.2
0.2
0.8–1.8
0.8–1.8
6.6–7.8
2.7–4
1.5–2.2
6.6–7.8
6.6–7.8
3.0–4.2
3.0–4.2
1.5–2.2
17
10
2.1
0.51
0.12
0.2
16.4
9.5
9
3.2
3.2
2.8
2.2
2.2
1.9
8.8
10
9.7
0.35
0.1
0.25
0.1
0.08
0.1
0.08
26.5
26.5
26.5
26.5
22
26.5
22
26.5
26.5
22
26.5
22
26.5
26.5
22
26.5
26.5
26.5
26.5
26.5
26.5
26.5
26.5
26.5
26.5
26.5
22
22
22
22
22
22
22
22
22
22
26.5
26.5
26.5
26.5
26.5
26.5
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
—
0.17
0.17
—
0.13–0.19
0.11–0.23
0.13-0.19
0.13–0.21
0.17
0.15–0.19
0.17
0.13-0.19
0.17
0.17
0.17
0.17
—
—
0.17
0.17
0.17
0.11–0.23
0.17
0.17
0.17
0.14–0.2
0–1.6
0–1.6
0–2
0–2
0.1–1.3
0–2
0–2
0–2
0–2
0.1–1.3
—
—
0.17
0.17
0.17
0.17
—
1
1.5
1
1
1.5
1
1
1.5
—
1
1.5
0.17
0.17
0.13–0.25
0.13–0.19
0.15
0.13–0.19
0.13–0.19
Immersion
Oil
Silicone
Silicone
Water
Oil
Silicone
Oil
Silicone
Oil
Oil
Oil
Oil
Oil
Oil
Oil
Oil
Oil
Oil
Spring
Correction
Iris
IX3-ZDC2
ring
diaphragm
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Water
Oil
Water
Oil
Oil
Oil
Oil
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
*HIGHINDEX-CG cover glass and dedicated immersion oil required.
18
IX83/IX73 system diagram
Observation tubes, eyepieces
WHN10X
WHN10X-H
Eyepieces
U-CT30-2
Centering
telescope
U-BI90
Binocular
tube
Transmitted illumination
B
A
U-TBI90
Tilting binocular
tube
U-TR30-2,
U-TR30NIR
Trinocular
tubes
45FR
45-LBD-IF
45-ND25
45-ND6
43IF550W45
Filters
IX-ADUCD
Condenser adapter
U-UCD8-2
Universal condenser
U-TR30H-2
Trinocular
tube
Optical
elements
U-TLO
Oil top lens
U-TLD
Dry top lens
IX-ATU
Intermediate tube
C
GX-SPU
Side port
intermediate
tube
U-EPA2
Eyepoint
adjuster
U-CA
Magnification changer
1x, 1.25x, 1.6x, 2x
IX2-MLWPO
Polarizer
attachment
U-ECA
Magnification
changer 2x
II
1
Stages
IX-HOP
Petri dish holder
IX-HOS
Slide glass holder
IX-HOT
Terasaki plate holder IX-CLM96
Well positioners
U-IFCBL200
Interface cable, 200cm
3
IX3-MLWCDA
Motorized middle
long working
distance condenser
Optical
elements
Incubator
IX-LWPO
Polarizer
attachment
8
IX2-LWUCD
Long working
distance universal
condenser
Optical
elements
U-FMP
Mechanical stage
IX-MVR
Mechanical stage
IX2-MLWCD
Mid long working
distance condenser
II
U-IFCBL100
Interface cable, 100cm
VII
IX3-LWUCDA
Motorized LWD
condenser
U-IFCBL200
Interface cable, 200cm
IX3-HO35DF
Dish fixing unit
for IX3-HO35D
10
Optical
elements
IX3-HOS
Slide holder
IX3-HO35D
Dish holder
IX3-EXMAD
Adapter for
excitation
irradiance meter
IX-CP50
Insert plate
IX-SCL
Slide clip
IX3-HOW-2
Microplate
holder
IX-ULWCD
Ultra long working
distance condenser
IX2-GCP
Glass stage insert plate
Table top incubator
IX3-FDICT
Transmitted
DIC filter unit
Thermoplate
IX-SCL
Slide clip
IX-SCL
Slide clip
IX-SCL
Slide clip
CK2-SS
Side stage
IX2-SP
Plain stage
XY-controller
(attached to
IX3-SSU)
IX-SCL
Slide clip
IX3-SVR
Mechanical stage
with right handle
IX2-GS
Gliding stage
IX3-SVL
Mechanical stage
with short left handle
GX-SVR
Right handle
stage for GX
(Insert plate
separately
required.)
IX3-SSU
Ultrasonic
stage for IX3
GX-SFR
Flexible right
handle stage
(Insert plate
separately
required.)
IX3-FFXL
IX3-FCFPXL
IX3-FGFPXL
IX3-FYFPXL
IX3-FMCHEXL
IX3-FUWXL
IX3-FGWXL
IX3-FBVWXL
XL mirror units
(ø32)
Mirror units
Control box
(attached to
IX3-SSU)
2
V
Camera adapters, camera ports
U-BMAD
Bayonet-Mount
Adapter
U-CMAD3
C-Mount
Adapter
U-SMAD
Sony-Mount
Adapter
U-HSTR2
Hand set
U-TMAD
T-Mount
Adapter
U-CMT
C-Mount
Adapter
D
RS232C
Interface cable
U-FMT
F-Mount
Adapter
IX-TVAD
TV Adapter
D
U-TV1X-2
TV Adapter
U-TVZ
Zoom
Adapter
IX3-TV1XTL
T-mount
camera
adapter 1X
XIV
Cube cassette
for full image/
split images
(Not available
in some areas.)
U-TV1XC
C-Mount
Adapter 1X
(XY adjustment)
A
B
U-SIP
Split primary
image camera port
(Not available
in some areas.)
VI
IX2-IFSHA
Shutter interface
9
IX2-UCB-2
System
controller
IX2-SHA
Motorized
shutter
U-MCFPHQ
U-MYFPHQ
Mirror units
C
U-TV0.63XB
0.63X
B4-Mount
Adapter
C
U-TV0.63XC
0.63X
C-Mount
Adapter
C
U-TV0.5XC-3
0.5X
C-Mount
Adapter
A
19
IX3-ILL
Transmitted
illuminator
U-IFCBL100
Interface cable, 100cm
VII
Incubator
Optical
elements
6
C
U-TV0.35XC-2
0.35X
C-Mount
Adapter
U-TV0.25XC
0.25X
C-Mount
Adapter
U-FFWEM
Motorized fast
filter wheel
for emission
U-DPCAD
Dual port
tube with
C-mounts
6
DSU-CAD
C-mount
adapter
for DSU
DSU-D1
DSU-D3
DSU-D4
DSU-D5
Disks
6
IX3-DSU
Disk scanning unit for IX3
(DSU-D2, U-MRFPHQ,
DSU-MGFPHQ included)
Controllers
I
U-LH100L-3
100 W halogen
lamp housing
III
IX3-CBH
Control box
XIII
U-RMT
Extension cord
U-LH100-3
100 W halogen
lamp housing
U-LHEAD
Extension adapter
for lamp housing
TH4-100
Power
supply unit
TH4-HS
Hand switch
7
VI
U-IFCBL15
Interface cable,15cm
U-FSHU
Motorized fast shutter
U-NPCBL100
Interface cable, 100cm
II
U-IFCBL100
Interface cable, 100 cm
VII
U-HSCBM
Hand switch
IX3-CBM
Control box M
(For motorized function)
VIII
IX
X
X
VI
IX3-RFA
Fluorescence
illuminator
VI
25ND1.5
25ND6
25ND25
25ND50
Filters
U-LHEAD
Extension adapter
for lamp housing
U-RFSS
Rectangular
field stop
VI
U-FFW
Motorized fast
filter wheel
U-FSHU
Motorized fast shutter
U-IFCBL100
Interface cable, 100 cm
U-AW
Motorized attenuator wheel
U-IFCBL200
Interface cable, 200 cm
10
9
U-RFL-T
U-IFCBL15
Interface cable,15cm
IX3-RFALFE
L-shapefluorescence
illuminator with
fly-eye lens
II
U-LH100HG
100 W mercury
lamp housing
U-LH100HGAPO
100 W mercury apo
lamp housing
U-DULHA
Double lamp
housing
adapter
U-CLA
Collector lens
adjustment
U-RFL-T
U-LH75XEAPO
75 W xenon apo lamp housing
Revolving
nosepiece
U-ANT
Analyzer for
transmitted
light
IX3-D6RES
Coded 6-position
nosepiece
U-NPCBL100
Interface cable,
100cm
IX3-D6REA
Motorized
6-position nosepiece
II
U-DICT
DIC slider for
transmitted light
5
2
5 3
IX3-DICTCA
Motorized
DIC slider
4
VI
U-FSHU
Motorized fast
shutter
VI
VI
IX83-AN
Analyzer for IX-83
3
II
1
4
U-MCZ
Controller
U-IFCBL200
Interface cable, 200cm
III
7
IX83P2ZF
IX83 2port frame
IX83P1ZF
IX83 1port frame
IV
Touch panel controller
(attached to IX83P2ZF/IX83P1ZF)
IX3-AN
Analyzer slider
6 8 XIII
U-FFW
Motorized fast
filter wheel
IX3-ZDC2
Z drift
compensator
II
1
U-HGLGPS
Light source
U-FFW
Motorized fast
filter wheel
2
XII
IX73P2F
IX73 2port frame
IX73P1F
IX73 1port frame
VII
U-DICTS
Shift DIC slider for
transmitted light
U-DICTHC
High contrast DIC slider
for transmitted light
U-DICTHR
High resolution DIC slider
for transmitted light
U-RX-T
Power supply
unit for
xenon lamp
U-FFWADP
Adapter for light guide
illumination system
U-LLGAD
U-LLG150
Liquid light
Liquid light
guide adapter guide (1.5 m)
U-LLG300
Liquid light
guide (3 m)
4
U-RFL-T
Power supply
unit for
mercury lamp
LIFE TIME
BURNER ON
VII
U-COCBL100
CODE cable
VII
LIFE TIME
BURNER ON
U-COCBL100
CODE cable
III
External light source
IX3-RFACS
Coded fluorescence mirror turret
VII
VI
U-FFW
Motorized fast
filter wheel
IX3-RFAL
L-shapefluorescence
illuminator
U-FFWEM
Motorized
fast filter wheel
for emission
U-IFCBL100
Interface cable,100cm
XI
cellSens
Imaging software
U-CB5S
Control box for coded function
Fluorescence illuminators
IX3-CAS
Coded intermediate
magnification changer
IX3-RFACA
Motorized
fluorescence
mirror turret
IX
XIV
RS232C
Interface cable
U-RTC/U-RTCE
Real-Time Controller
IX3-RSPC
Right side port with C-mount
VIII
U-CBF
Control box for
fast filter wheel
and shutter
XIII
IX3-RSPCA
Motorized right side port with C-mount
XIII
VI
U-IFCBL200
Interface cable, 200cm
II
VIII
U-CBF
Control box for
fast filter wheel
and shutter
VII
VII
V
VI
XII
U-LEDPS
LED power supply
IX3-EMDECK
Deck adapter for U-FFWEM
C1394A
Interface cable
U-CBFCBL
CBF cable
U-IFCBL200
Interface cable,
200cm
XI
IX3-LHLEDC
LED lamp house
U-AW
Motorized
attenuator wheel
U-IFCBL100
Interface cable,
100cm
IV
6 8
I
II XIII
IX3-FP
Frame fix plate
Exclusive units for IX83
Exclusive units for IX73
20
IX53 system diagram
Stages
Transmitted illumination
IX-HOP
Petri dish
holder
IX-HOS
Slide glass
holder
IX-HOT
Terasaki
plate holder
IX-CLM96
Well positioner
U-LH100L-3
100 W halogen lamp
housing with long cable
IX3-HO35DF
Dish fixing unit for
IX3-IX35D
IX3-HO35D
Dish holder
IX-MVR
Mechanical
stage
IX3-HOS
Slide holder
U-FMP
Mechanical
stage
IX-CP50
Insert plate
IX3-HOW-2
Microplate holder
IX-SCL
Slide clip
TH4-100/200
Power supply
unit
IX2-GCP
Glass stage
insert plate
TH4-HS
Hand switch
U-RMT
Extension cord
U-LH100-3
100 W halogen lamp housing
CK2-SS
Side stage
IX3-SVL
Mechanical
stage with
short left
handle
IX3-SVR
Mechanical
stage with
right handle
IX2-SP
Plain stage
Optical
devices
IX2-GS
Gliding stage
IX2-MLWCD
Mid long working
distance condenser
1
Optical
devices
IX2-SLPHC
IX2-SLPH1
IX2-SLPH2
Phase contrast
ring slit
45-LBD-IF
45-ND25
45-ND6
43IF550W45
Filters
CKX-RCD
Relief Contrast condenser
(slider and ring slits included)
IX-ULWCD
Ultra long
working distance
condenser
IX3-ILL
Transmitted
illuminator
2
2
Mirror unit
Observation tubes, eyepieces
Fluorescence illuminator
IX53-RFAC
Fluorescence
mirror turret
U-BI90
Binocular
tube
U-TBI90
Tilting
binocular
tube
1
Objectives
U-LLGAD
Liquid light guide
adapter
2
25ND1.5
25ND6
25ND25
25ND50
Filters
IX53P1F
IX53 1port frame
Camera adapters
U-CMT
C-Mount
Adapter
U-BMAD
Bayonet-Mount
Adapter
U-TV0.63XB
0.63X B4-Mount
Adapter
21
Optical
devices
TL4
External
light source
IX2-ILL30
Transmitted
illuminator
IX2-SLP
Phase contrast slider
(pre-centered)
45FR
45-LBD-IF
45-ND25
45-ND6
43IF550W45
Filters
U-LS30-3-5
30W halogen
lamp housing
IX2-SL
Phase contrast
slider (centerable)
WHN10X
WHN10X-H
Eyepiece
U-CT30-2
Centering
eyepiece
IX2-LWUCD
Long working distance
universal condenser
U-TV0.25XC
0.25X C-Mount
Adapter
U-TV0.35XC-2
0.35X C-Mount
Adapter
U-CMAD3
C-Mount
Adapter
U-SMAD
Sony-Mount
Adapter
U-TV0.5XC-3
0.5X C-Mount
Adapter
U-TV0.63XC
0.63X C-Mount
Adapter
IX3-RFA
Fluorescence
illuminator
U-LLG150
Liquid light
guide (1.5 m)
U-LLG300
Liquid light
guide (3 m)
U-LH100HG
100W mercury lamp housing
U-LH100HGAPO
100W mercury apo lamp housing
U-FMT
F-Mount
Adapter
U-RFL-T
Power supply unit
for mercury lamp
U-CLA
Collector lens
adjustment
U-TMAD
T-Mount
Adapter
U-TV1X-2
TV Adapter
U-HGLGPS
Light source
U-LH75XEAPO
75W xenon apo lamp housing
U-RX-T
Power supply unit
for xenon lamp
IX3 specifications
IX83
Revolving nosepiece
• Motorized sextuple revolving nosepiece
(DIC slider attachable),
simple waterproof structure
• Motorized sextuple revolving nosepiece
(DIC slider attachable),
simple waterproof structure
• Coded sextuple revolving nosepiece
(DIC slider attachable),
simple waterproof structure
• Sextuple revolving nosepiece,
simple waterproof structure
Focus
Stroke: 10.5mm
Minimum increment: 0.01μm,
Maximum nosepiece movement speed:
3mm/s
Stroke: 10mm
Stroke: 10mm
Light path selection
Motorized 0:100/50:50/100:0
(Left side port: BI port)
0:100/50:50/100:0 (Left side port: BI port)
50:50 (Left side port: BI port)
Pillar tilt mechanism (30° inclination angle, with vibration reducing mechanism),
Condenser holder (with with 88mm stroke, refocusing mechanism),
Field iris diaphragm adjustable,
4 filter holders
Light source: •12V 100W halogen bulb (pre-centered)
• High color reproductive LED light source
•30W halogen illuminator:
Detachable condenser lens system
(NA 0.3, W.D. 72mm), single filter holder
aperture iris diaphragm adjustable
•100W halogen illuminator:
Pillar tilt mechanism (30° inclination angle,
with vibration reducing mechanism),
Condenser holder (with 88mm stroke,
refocusing mechanism)
Field iris diaphragm adjustable,
4 filter holders
Widefield (FN 22)
•Widefield tilting binocular •Widefield binocular •Widefield trinocular
•Widefield tilting binocular
•Widefield binocular
Scanning stage with
ultrasonic
IX3-SSU: Stage stroke: X: 114mm x Y: 75mm, maximum stage movement speed: 20mm/s
Mechanical stage with right
handle
Stage stroke: X: 114mm x Y: 75mm, stage position locking function
Right handle stage
Stage stroke: X: 50mm x Y: 50mm
Transmitted light illuminator
Stage
Flexible right handle stage
Condenser
Fluorescence illuminator
Fluorescence mirror turret
Filter wheel/shutter
Operating environment
—
—
Stage stroke: X: 50mm x Y: 50mm
—
Gliding stage
Upper circular stage 360° rotatable, 20mm (X/Y) travel
Plain stage
232mm (X) x 240mm (Y) stage size, stage insert plate exchangeable (ø110mm)
Motorized long working
distance condenser
W.D. 27mm, NA 0.55, motorized turret with 7 position slots for optical devices
(3 positions for ø30mm and 4 positions for ø38mm),
motorized aperture and polarizer
—
Motorized middle long
working distance condenser
NA 0.5, W.D. 45mm,
4 positions for optical devices (for ø50mm, Relief Contrast optical devices rotatable)
—
Long working distance
universal condenser
NA 0.55, W.D. 27mm 5 positions for optical devices (3 positions for ø30mm and 2 position for ø38mm)
Mid long working distance
relief contrast
NA 0.5, W.D. 45mm, 4 positions for optical devices (for ø50mm, Relief Contrast optical devices rotatable)
Ultra long working distance
NA 0.3, W.D. 73.3mm, 4 positions for optical devices (for ø29mm)
L-shape-fluorescence
illuminator with flyeye lens
L-shaped design with exchangeable FS module
—
L-shape-fluorescence
illuminator
L-shaped design with exchangeable FS and AS modules
—
Fluorescence illuminator
Straight design with field iris diaphragm
Motorized fluorescence
mirror turret
Motorized turret with 8 positions, built-in shutter, simple waterproof structurer
—
Coded fluorescence mirror
turret
—
Coded 8 positions turret,
built-in shutter, simple waterproof structure
—
Fluorescence mirror turret
—
—
Turret with 8 positions,
built-in shutter, simple waterproof structure
•130W Hg light guide illumination •100W Hg apo lamp housing and transformer •100W Hg lamp housing and transformer
•75W Xe lamp housing and transformer
Fluorescence light source
Focus compensator
IX53
UIS2 optical system
Microscope frame
Observation tube
IX73
Optical system
Z drift compensator
Offset method (Focus search, one-shot
focus, continuous focus), Class 1 laser
product
Motorized fast filter wheel
High speed mode 60ms, Low vibration mode 100ms (rotation time until next hole on the wheel)
—
Motorized fast filter wheel
for emission
High speed mode 60ms, Low vibration mode 100ms (rotation time until next hole on the wheel)
C-mount adapter and bayonet mount adapter are enclosed
—
Motorized fast shutter
High speed mode 26.2ms, Low vibration mode 60ms (rotation time on one way)
—
Motorized attenuator wheel
Time to shift another filter 300ms (rotation time until next hole on the wheel)
—
—
• Indoor use
• Ambient temperature: 5 ºto 40ºC (41º to 104ºF)
• Maximum relative humidity: 80% for temperatures up to 31ºC (88ºF), decreasing linearly through 70% at 34ºC (93ºF), 60% at 37ºC (99ºF), to 50% relative humidity at 40ºC (104ºF)
• Supply voltage fluctuations: Not to exceed ±10% of the normal voltage
Motorized or coded units are designed for the IX3 series use in industrial environments for the EMC performance. Using it in a residential environment may effect other equipment in the environment.
22
(Unit : mm)
Dimensions
IX83: Two-Decks
IX83: One-Deck
(IX83P2ZF configuration)
(IX83P1ZF configuration)
363
288
288
430
430
686
751
363
475
145
323
636
769
145
323
Weight: approx. 54kg Power consumption: approx. 530W
475
568
636
Weight: approx. 47kg Power consumption: approx. 370W
IX73: Two-Decks
IX73: One-Deck
(IX73P2F configuration)
(IX73P1F configuration)
365
288
432
432
656
721
365
145
323
475
569
632
145
323
509
Weight: approx. 41kg Power consumption: approx. 310W
475
691
Weight: approx. 35kg Power consumption: approx. 310W
IX53: One-Deck
(IX53P1F configuration)
289
432
657
365
145
323
509
475
691
Weight: approx. 32kg Power consumption: approx. 300W
is ISO14001 certified.
•
•
is FM553994/ISO9001 certified.
•
is MD540624/ISO13485 certified.
• Illumination devices for microscope have suggested lifetimes.
Periodic inspections are required. Please visit our website for details.
www.olympus-lifescience.com
For enquiries - contact
www.olympus-lifescience.com/contact-us
• All company and product names are registered trademarks and/or trademarks of their respective owners.
• Images on the PC monitors are simulated.
• Specifications and appearances are subject to change without any notice or obligation on the part of the manufacturer.
Shinjuku Monolith, 2-3-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo 163-0914, Japan
5301 Blue Lagoon Drive, Suite 290 Miami, FL 33126, U.S.A.
Wendenstrasse 14-18, 20097 Hamburg, Germany
A8F, Ping An International Financial Center, No. 1-3, Xinyuan South Road,
Chaoyang District, Beijing, 100027 P.R.C.
48 Woerd Avenue, Waltham, MA 02453, U.S.A.
8F Olympus Tower, 446 Bongeunsa-ro, Gangnam-gu, Seoul, 135-509 Korea
491B River Valley Road, #12-01/04 Valley Point Office Tower, Singapore 248373
3 Acacia Place, Notting Hill VIC 3168, Australia
102-B, First Floor, Time Tower, M.G. Road, Gurgaon 122001, Haryana, INDIA
Printed in Japan M1756E-102015
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