Fully motorized system
With the BX63, diverse lineups of motorized units are available. Observations are made so much faster and simpler, thanks to the interlocked motorized units working together to satisfy even the most demanding applications.
(1) Motorized Fluorescence Illuminator/BX3-RFAA
The flexibility of the motorized fluorescence illuminator accommodates multi-color stained specimens.
The 8-position mirror units permit quick changeover of fluorescence colors.
(2) Scanning Stage with Ultrasonic/BX3-SSU
The ultrasonic stage delivers high-precision XY control. The XY-controller can be mounted on the controller/U-MCZ for the BX63 and worked like conventional stage
(3) Motorized Attenuator Wheel/U-AW
The Olympus BX63 has a motorized ND filter wheel for fluorescence and transmitted light intensity adjustments.
* Special adapters are required for mounting (U-LHEAD for fluorescence, and U-LH100ADP for transmitted light)
(4) Motorized Seven Position Nosepiece/U-D7REA
Equipped with a DIC slider slot, this revolving nosepiece allows simultaneous attachment of seven objectives. Especially suitable for continuous observations from low to high magnifications and combining specific objectives, such as polarised light observations.
(5) Microscope Frame Equipped with Motorized Focus and Field Diaphragm
This unit incorporates a high-speed, high precision motorized focusing nosepiece with 0.01 µm resolution and 20 mm vertical strokes. The field diaphragm adjustment of transmitted light is also motorized.
(6) Motorized Universal Condenser/BX3-UCD8A
By integrating with designated optical components, the motorized universal condenser accommodates various kinds of transmitted light observation including brightfield, differential interference contrast and phase contrast.
Supports a full range of observation methods
Breast tissue (FISH)
The 8 position fluorescenceIlluminator allows flexible responses to various fluorescence specimens. Olympus applies an outstanding filter coating technology to all fluorescence mirror units in order to produces high transmissions, sharp cut-offs and efficient detections of fluorescence.
There are two kinds of illumination method - LED and halogen lamp.
BX63 is equipped with a gradation filter improving uniform light in the transmitted halogen illumination system. With the LED illumination, the microscope enables to keep a constant color shade regardless of a level of the light intensity.
NRK-52E cell Image is courtesy
of Shigenobu Yonemura, Ph.D.
Electron Microscope Laboratory
RIKEN Center for
High contrast phase imaging allows close observation of the cell interior and of live bacteria.
Universal phase-contrast objectives with high transmission, produce well-balanced images with high contrast.
Brain section of mouse at embryonic
day 15 Image is courtesy of
Fumio Matsuzaki, Ph.D.,
Daijiro Konno, Ph.D.
Laboratory for Cell Asymmetry
RIKEN Center for
High contrast can be obtained even in high magnification observations of thin specimens, such as culture cells. The method enables observations with high resolution but less glare even for thick specimens used in developmental and genetic research, such as finely-structured diatoms.
Simple Polarized Light
UIS optics and the built-in condensers support simple polarized-light images at all magnifications.
Two darkfield condensers are provided: dry condenser with magnification range from 10× to 100× and oil immersion condenser with magnification range from 20× to 100× for darkfield contrast. Universal condensers also allow darkfield contrast.
The Olympus BX63 features a new, highly accurate, ultrasonic stage. Driven by advanced Piezo technology, the stage has a small form factor with silent and extremely smooth operation. It can also be physically positioned by hand enabling rapid gross sample alignment. Via the high precision built-in encoders, the stage provides true X,Y coordination, enabling the user to set exact coordinates and navigate directly to them at high speed, even if the stage has been manually positioned. This new ultrasonic stage is also the basis for the automation of complex imaging procedures, such as MIA and multi-dimensional experiments, using the cellSens software packages.
Design your personal workspace – Unique control concept
Every person has a different way of organising their things – be it their work desk or their wardrobe, and their way will not necessarily suit anyone else. Olympus has enabled this complete user-defined control concept with its BX63 microscope, which combines detachable manual controllers, touch panel and software control and allows unmatched workspace personalisation.
Control at your fingertips – The BX63 touch panel
The BX63 is supplied with a unique, programmable touch-screen control that greatly simplifies observation and imaging tasks and offers full control of all microscope functions including focus and motorised stage. The interface can be set to a ‘navigation mode’ that is context-sensitive, displaying only the functions that are relevant to observation method in use. The alternative ‘full operation’ mode allows researchers access to the full range of functions and customisation options available. The user account system provides more than 30 individual accounts, which can be used for personal settings and can all be protected by password.
The manual touch – detachable control units
For users that prefer hands-on control, the BX63 has an optional remote control unit that can be placed wherever the user requires it. For more traditional working the controls can be affixed to the front of the frame. This unit provides coarse and fine focus knobs, X,Y stage controller and push button controls for efficiently changing between observation methods, objectives and mirror units, as well as for adjusting light intensity and controlling camera and fluorescence shutter.
Total system control – cellSens software for life science applications
Consisting of three different packages: cellSens Entry, cellSens Standard and cellSens Dimension, all user requirements can be met with ease. Incorporating a unique user-definable interface, the imaging process can be personalised from start to finish, for complete control over the entire experiment. Furthermore, each package integrates seamlessly with Microsoft Windows and Office programmes, making the advanced functionality of the Olympus cellSens family extremely user-friendly.
Optically ahead of the curve – the UIS2 optical system
At the heart of any light microscope is the optical system; a series of lenses, prisms and filters designed to magnify the target area of a sample whilst resolving more detail from it. This is far more complex than this basic overview portrays: Since as well as enabling samples to be imaged they allow the introduction and control of light and the projection of images to the eyes (or to a camera). On top of all of this are a range of optical aberrations that can affect microscopy if not properly corrected for. The Olympus UIS2 optical components have been developed to provide the perfect optical system; setting a new standard in precision and clarity.
Dedicated to Fluorescence
As well as the objectives, the new UIS2 fluorescent mirror cube range and 8 position mirror turret have been optimised for flexible and high quality imaging. An ultra high quality coating process provides excellent transmission and exceptionally steep cut-off slopes and the low reflection interior surfaces eliminate over 99% of stray light. As a result, these filter cubes ensure the highest sensitivity and best colour separation, which coupled with the low auto-fluorescent glass materials, further improves the S:N ratio. In addition the mirror cubes can be exchanged without the need for any tools, making updates very quick and easy.
A novel fluorescence illumination concept
Fluorescence illumination has been at the forefront of life science microscopy for many years. With the BX3 systems, Olympus has incorporated a number of design features and components that will enable fluorescence to maintain this leading position. Of these advances the most important is the introduction of a novel fly-eye lens system which ensures that the field of view is illuminated homogeneously. As well as providing such flawless illumination, the fly-eye system also provides simpler burner alignment.
Digital imaging ready – uncompromising ergonomics
A range of tubes are available for the BX3 range to suit every requirement. For the greatest system flexibility and user comfort, the tilting, trinocular U-TTR2 tube provides excellent eye piece height adjustment as well as interpupillary distance control, and the optical path slider can be attached to either side of the tube, once again this puts the user in full control of the microscope and ensures that the microscope adjusts to their posture and not vice versa.
Capturing everything correctly – Olympus digital camera range
It is always preferable to have a choice, and this is definitely true when it comes to matching your digital imaging requirements with your project work. For bright-field applications you’ll want dazzling colour fidelity and for fluorescence you’ll need the perfect monochrome capture. There are also those occasions where you would like a microscope camera that can do both. Add to this selection the ability to pick from a range of image sizes and resolutions, and the Olympus digital microscope camera range really does offer you the flexibility of choice.
|Optical system||UIS2 optical system|
|Focus||Motorised focus with objective up and down mechanism|
|Stroke: 20 mm, minimum increment: 0.01 μm|
|Maximum nosepiece movement speed: 5 mm/s|
|Illuminator||Built-in Koehler illumination for transmitted light|
|High color reproductivity LED light source|
|Optional: 6 V, 30 W halogen bulb (pre-centered)|
|Revolving nosepiece||Interchangeable reversed quintuple/sextuple/septuple nosepiece|
|Motorised septuple revolving nosepiece|
|Encoding optional with septuble nosepiece|
|Observation tube||Widefield tilting, telescopic and lifting binocular, inclined -3°-27°|
|Widefield tilting trinocular, inclined 5°–35°|
|Widefield trinocular, inclined 30°|
|Widefield erect image trinocular, inclined 30°|
|Widefield tilting binocular, inclined 5°–35°|
|Widefield ergo binocular, inclined 0°–25°|
|Widefield binocular, inclined 30°|
|Stage||Ultrasonic stage (Stage stroke: X:76 mm x Y: 52 mm), maximum stage movement speed: 30 mm/s|
|Ceramic-coated coaxial stage with left or right hand low drive control, with rotating mechanism and torque adjustment mechanism, optional ergo grips available (Non stick coated grooved coaxial, plain, rotatable stages are also available)|
|Cross stage with short left handle|
|Condenser||Motorised universal condenser (N.A. 0.9, motorised 8-position turret, aperture stop, polarizing filter in/out mechanism and top lens swing out mechanism), for 1.25x–100x [swing-out 1.25x-4x, with oil top lens: (N.A. 1.4)]|
|Swing out achromatic condenser (N.A. 0.9), for 1.25x–100x (swing-out: 1.25x–4x)|
|Achromatic aplanatic (N.A. 1.4), for 10x–100x|
|Universal condenser (N.A. 0.9), for 1.25x–100x [swing-out: 1.25x–4x, with oil top lens: (N.A. 1.4)]|
|Ultra low condenser (N.A. 0.16), for 1.25x–4x|
|Darkfield dry condenser (N.A. 0.8–0.92), for 10x–100x|
|Darkfield oil condenser(N.A. 1.20–1.40), for 10x–100x|
|Fluorescence illuminator||Motorized reflected fluorescence, 8-position mirror turret unit, encoded with tool-free exchange of filter cubes|
|Manual reflected fluorescence, 8-position mirror turret unit, encoded with tool-free exchange of filter cubes|
|Fluorescence light source||100 W Hg apo lamp housing and transformer|
|100 W Hg lamp housing and transformer|
|75 W Xe lamp housing and transformer|
|Fibre coupled metal-halide lightsources|
|Fibre coupled LED lightsource|
|Controller||High-performance control box|
|Operating environment||Indoor use|
|Ambient temperature: 5 ºC to 40 ºC (41 ºF to 104 ºF)|
|Maximum relative humidity: 80% for temperatures up to 31 ºC (88 ºF), decreasing linearly through 70% at 34 ºC (93 ºF), 60 % at 37 ºC (99 ºF), to 50% relative humidity at 40 ºC (104 ºF)|
|Supply voltage fluctuations: Not to exceed ±10% of the normal voltage|