카테고리 보관물: Industrial Microscope

Configuration

Example Configurations for Materials Science and Industry

BX53M Reflected and Reflected/Transmitted Light Combination

There are two types of microscope frames in the BX3M series, one for reflected light only and one for both reflected and transmitted light. Both frames can be configured with manual, coded, or motorized components. The frames are outfitted with ESD capability to protect electronic samples.


BX53M IR Combination

 

IR objectives can be used for semiconductor inspection, measurement, and processing applications where imaging through silicon is required to see the pattern. 5X to 100X infrared (IR) objectives are available with chromatic aberration correction from visible light wavelengths through the near infrared. For highmagnification work, rotating the correction collar of the LCPLNIR series of lenses corrects for aberrations caused by sample thickness. A clear image is obtained with a single objective.


BX53M Polarized Light Combination

The optics of the BX53M polarized light combination provide geologists with the right tools for high-contrast polarized light imaging. Applications such as mineral identification, investigating the optical characteristics of crystals, and observing solid rock sections benefit from system stability and precise optical alignment.


Bertrand Lens for conoscopic and orthoscopic observations

With a U-CPA conoscopic observation attachment, switching between orthoscopic and conoscopic observation is simple and fast. It is focusable for clear back focal plane interference patterns. The Bertrand field stop makes it possible to obtain consistently sharp and clear conoscopic images.


An Extensive Range of Compensator and Wave Plates

Six different compensators are available for measurements of birefringence in rock and mineral thin sections. Measurement retardation level ranges from 0 to 20λ. For easier measurement and high image contrast, the Berek and Senarmont compensators can be used, which change the retardation level in the entire field of view.


Measuring range of compensators

ompensator Measuring Range Major Application
Thick Berek(U-CTB) 0-11,000 nm
(20λ)
Measurement of High Retardation Level (R*>3λ), (crystals, macromolecules, fiber, etc.)
Berek(U-CBE) 0-1,640 nm
(3λ)
Measurement of Retardation Level (crystals, macromolecules, living organisms, etc.)
SenarmontCompensator(U-CSE) 0-546 nm
(1λ)
Measurement of Retardation Level (crystals, living organisms, etc.) Enhancement of Image Contrast (living organisms, etc.)
Brace-Koehler Compensator
1/10λ (U-CBR1)
0-55 nm
(1/10λ)
Measurement of Low Retardation Level (living organisms, etc.)
Enhancement of Image Contrast (living organisms, etc.)
Brace-Koehler Compensator
1/30λ (U-CBE2)
0-20 nm
(1/30λ)
Measurement of image contrast
(living organisms, etc.)
Quartz Wedge(U-CWE2) 500-2,200 nm
(4λ)
Approximate Measurement of Retardation Level (crystal, macromolecules, etc.)

*R = retardation level

For more accurate measurement, it is recommended that compensators (except U-CWE2) be used together with the interference filter 45-IF546.


Strain Free Optics

Thanks to Olympus’ sophisticated design and manufacturing technology, the UPLFLN-P strainfree objectives reduce internal strain to the minimum. This means a higher EF value, resulting in excellent image contrast.


BXFM System

The BXFM can be adapted to special applications or integrated into other instruments. The modular construction provides for straightforward adaptation to unique environments and configurations with a variety of special small illuminators and fixturing mounts.


Modular Design, Build Your System Your Way

Microscope Frames

There are two microscope frames for reflected light, one also has transmitted Light; capability. An adapter is available to raise the illuminator to accommodate taller samples.

 

■: Possible Reflected light Transmitted light Sample height
1 BX53MRF-S 0-65 mm
2 BX53MTRF-S 0-35 mm
3 BX3M-ARMAD +40 mm

Stands

For microscopy applications where the sample will not fit on a stage, the illuminator and optics can be mounted to a larger stand or to another piece of equipment.

 

 

BXFM + BX53M illuminator configuration

1 BXFM-F Frame interface is wall mounting/32 mm pillar
2 BX3M-ILH Illuminator holder
3 BXFM-ILHSPU Counter spring for BXFM
6 SZ-STL Large stand

Unit Combination Required: (1, 2 and 6)
Option: 3

BXFM + U-KMAS illuminator configuration

1 BXFM-F Frame interface is wall mounting/32 mm pillar
4 BXFM-ILHS U-KMAS holder
5 U-ST Stand
6 SZ-STL Large stand

Unit Combination Required: (1, 4 and 5) or (1, 4 and 6)
Option: –


Tubes

For microscope imaging with eyepieces or for camera observation, select tubes by imaging type and operator’s posture during observation.

  FN Type Angle type Image Number of diopter 

adjustment mechanisms

1 U-BI30-2 22 Binocular Fixing Reverse 1
2 U-TBI-3 22 Binocular Tilting Reverse 1
3 U-TR30-2 22 Trinocular Fixing Reverse 1
4 U-TR30IR 22 Trinocular for IR Fixing Reverse 2
5 U-ETR-4 22 Trinocular Fixing Erect 2
6 U-TTR-2 22 Trinocular Tilting Reverse 2
7 U-SWTR-3 26.5 Trinocular Fixing Reverse 2
8 U-SWETTR-5 26.5 Trinocular Tilting Erect 2
9 U-TLU 22 Single port
10 U-TLUIR 22 Single port for IR

Illuminators

The illuminator projects light onto the sample based on the observation method selected. Software interfaces with coded illuminators to read the cube position and automatically recognize the observation method.

 

■: Possible Coded function Light source BF DF DIC POL IR FL MIX AS

/FS

1 BX3M-RLAS-S Fixed 3 cube position LED – Built in
2 BX3M-URAS-S Attachable 4 cube position LED
Halogen
Mercury

/Light guide

3 BX3M-RLA-S   LED
Halogen
4 BX3M-KMA-S   LED – Built in
5 BX3-ARM Mechanical arm

for transmitted light

6 U-KMAS   LED
Halogen

Light Sources

Light sources and power supplies for sample illumination, choose the appropriate light source for the observation method.

 

 

Standard LED light resource configuration

1 BX3M-LEDR LED lamp housing for reflected light
2 U-RCV DF converter for BX3M-URAS-S, required for observation with DF and BF when necessary
3 BX3M-PSLED Power supply for LED lamp housing, requires BXFM system
4 BX3M-LEDT LED lamp housing for transmitted light

Unit Combination Required: (1 and 3) or 4*1
Option: 2
*1:Only using BX53MTRF-frame

Fluorescence standard light resource configuration

5 U-LLGAD Light guide adapter
2 U-RCV DF converter for BX3M-URAS-S, required for observation
with DF and BF when necessary
6, 7 U-LLG150 (300) Light guide, length:1.5 m (3 m)
8 U-HGLGPS Light source for fluorescence

Unit Combination Required: (5, 6 and 8) or (5, 7 and 8)
Option: 2

Fluorescence mercury light resource configuration

9, 10 U-LH100HG(HGAPO) Mercury lamp housing for fluorescence
2 U-RCV DF converter for BX3M-URAS-S, required for observation with DF and BF when necessary
11 U-RFL-T Power supply for 100W mercury lamp

Unit Combination Required: (9 and 11) or (10 and 11)
Option: 2

Halogen and Halogen IR light resource configuration

12 U-LH100L-3 Halogen lamp housing
13 U-LH100IR Halogen lamp housing for IR
14 U-RMT Extender cable for halogen lamp housing, cable length 1.7 m (requires cable extension when necessary)
15, 16 TH4-100 (200) 100V (200V) specification power supply for 100W/50W halogen lamp
17 TH4-HS Hand switch for light intensity of halogen (dimmer TH4-100 (200) without hand switch)

Unit Combination Required: (12 and 15) or (12 and 16) or (13 and 15) or (13 and 16)
Option: 14, 17


Nosepieces

Attachment for objectives and sliders. Select by the number of objectives needed and types; also with/without slider attachment.

 

 

■: Possible Type Holes BF DF EIC MIX ESD Number of centering holes
1 U-P4RE Manual 4         4
2 U-5RE-2 Manual 5          
3 U-5RES-ESD Coded 5        
4 U-D6RE Manual 6        
5 U-D6RE-ESD-2 Manual 6      
6 U-P6RE Manual 6       2
7 U-D7RE Manual 7        
8 U-D6RES Coded 6        
9 U-D7RES Coded 7        
10 U-D5BDREMC Motorized 5    
11 U-5BDRE Manual 5        
12 U-D5BDRE Manual 5    
13 U-P5BDRE Manual 5   2
14 U-D6BDRE Manual 6    
15 U-D5BDRES-ESD Coded 5  
16 U-D6BDRES-S Coded 6  
17 U-D6REMC Motorized 6    
18 U-D6BDREMC Motorized 6    

Sliders

Select the slider to compliment traditional brighfield observation. The DIC slider provides topographic information about the sample with options to maximize contrast or resolution. The MIX slider provides illumination flexibility with a segmented LED source in the darkfield path.

  Type Amount of shear Available objectives
1 U-DICR Standard Medium MPLFLN, MPLAPON, LMPLFLN, and LCPLFLN-LCD
2 U-DICRH Resolution Small MPLFLN, MPLAPON
3 U-DICRHC Contrast Large LMPLFLN and LCPLFLN-LCD

MIX slider for MIX observation.

  Type Available objectives
4 U-MIXR MIX slider MPLFLN-BD, LMPLFLN-BD, MPLN-BD

Controls Box and Hand Switches

Control boxes for interfacing microscope hardware with a PC and hand switches for hardware display and control.

 

 

BX3M-CB (CBFM) configuration

1 BX3M-CB Control box for BX53M system
2 BX3M-CBFM Control box for BXFM system
3 BX3M-HS MIX observation control, indicator of coded hardware, programmable function button of software (Stream)
4 BX3M-HSRE Motorized nosepiece rotation
5 U-HSEXP Shutter operation of camera

Unit Combination Required: 1 or 2
Option: 3, 4, 5

U-CBS configuration

6 U-CBS Control box for coded functions in BXFM configuration
5 U-HSEXP Shutter operation of camera

Unit Combination Required: 6
Option:  5

 Cable

U-MIXRCBL (ECBL) U-MIXR cable, cable length: 0.5 m (2.9 m)
  BX3M-RMCBL (ECBL) Motorized nosepiece cable, cable length: 0.2 m (2.9 m)

Stages

Stages and stage plates for sample placement. Select based on sample shape and size.

 

 

150 mm × 100 mm stage configuration

1 U-SIC64 150 mm × 100 mm flat top handle stage
2 U-SHG (T) Silicone rubber operability handle rubber for improvement (thick type)
3 U-SP64 Stage plate for U-SIC64
4 U-WHP64 Wafer plate for U-SIC64
5 BH2-WHR43 Wafer holder for 4-3 in.
6 BH2-WHR54 Wafer holder for 5-4 in.
7 BH2-WHR65 Wafer holder for 6-5 in.
8 U-SPG64 Glass plate for U-SIC64

Unit Combination
Required: (1 and 3) or (1 and 8) or (1, 4 and 5) or (1, 4, and 6) or (1, 4 and 7*1)
Option: 2
*1:Only using U-WHP64 unit

100 mm × 100 mm stage configuration

9, 10 U-SIC4R (L) 2 105 mm × 100 mm right (left) handle stage
11 U-MSSP4 Stage plate for U-SIC4R (L) 2
12 U-WHP2 Wafer plate for U-SIC4R (L) 2
6 BH2-WHR43 Wafer holder for 4-3 in.
13 U-MSSPG Glass plate for U-SIC4R

Unit Combination
Required: (9 and 11) or (9 and 12) or (9, 11 and 12) or (10 and 11) or (10 and 13) or (10, 11 and 12)
Option: –

76 mm × 52 mm stage configuration

14, 15 U-SVR (L) M 76 mm × 52 mm right (left) handle stage
2 U-SHG (T) Silicone rubber operability handle rubber for improvement (thick type)
16 U-MSSP Stage plate for U-SVR (/L) M
17, 18 U-HR (L) D-4 Thin slide holder for the right (left) opening
19, 20 U-HR (L) DT-4 Thick slide holder for the right (left) opening, for pressing the slide glass
to stage top surface, the specimen is difficult to lift.

Unit Combination
Required: (14, 16, 17 and 19) or (14, 16, 17 and 20) or (14, 16, 18 and 19) or (14, 16, 18 and 20) or (15, 16, 17 and 19) or (15, 16, 17 and 20) or (15, 16, 18 and 19) or (15, 16, 18 and 20)
Option: 2

Rotatable stage configuration

21 U-SRG2 Rotatable stage
22 U-SRP Rotatable stage for POL, from any position can be 45° click stop
23 U-FMP Mechanical stage for U-SRP/U-SRG2

Unit Combination
Required: (21 and 24) or (22 and 24)
Option: 23

Fixed stage configuration

1 U-SP Fixed stage of a single plate

Camera Adapters

Adapter for camera observation. Selectable from required field of view and magnification. Actual observation range can be calculated using this formula:
actual field of view (diagonal mm) = viewing field (viewing number) ÷ objective magnification.

  Magnification Centering adjustment CCD image area (field number)
2/3 inch 1/1.8 inch 1/2 inch
1 U-TV1x-2 with U-CMAD3 1 10.7 8.8 8
2 U-TV1xC 1 ø2 mm 10.7 8.8 8
3 U-TV0.63xC 0.63 17 14 12.7
4 U-TV0.5xC-3 0.5 21.4 17.6 16
5 U-TV0.35xC-2 0.35 22
6 U-TV0.25xC 0.25

Eyepieces

Eyepiece for viewing directly into the microscope. Select based on desired field of view.

 

 

■: Possible FN Diopter adjustment mechanism Built-in cross reticle
1 WHN10x 22    
2 WHN10x-H 22  
3 CROSS WHN10x 22
4 SWH10x-H 26.5  
5 CROSS SWH10x 26.5

Optical Filters

Optics filters convert sample exposure light to various types of illumination. Select the appropriate filter for observation requirements.

 

 

BF, DF, FL       1, 2, 3 U-25ND50, 25,6 Neutral density filter, transmittance 50%, 25%, 6%
4 U-25LBD Daylight color filter
5 U-25LBA Halogen color filter
6 U-25IF550 Green filter
7 U-25L42 UV-cut filter
8 U-25Y48 Yellow filter
9 U-25FR Frost filter (Required for the BX3M-URAS-S)
POL, DIC      10 U-AN-2 Polarization direction is fixed
11 U-AN360-3 Polarization direction is rotatable
12 U-AN360P-2 High quality polarization direction is rotatable
13 U-PO3 Polarization direction is fixed
14 U-POTP3 Polarization direction is fixed, for use with U-DICRH
15 45-IF546 Green ø45mm filter for POL
IR    16 U-AN360IR IR polarization direction is rotatable (reduces halation at IR observation when using combination with U-AN360IR and U-POIR)
17 U-POIR IR polarization direction is fixed
18 U-BP1100IR Band pass filter: 1100 nm
19 U-BP1200IR Band pass filter: 1200 nm
Transmitted light*  20 43IF550-W45 Green ø45 mm filter
21 U-POT Polarizer filter
Other  22 U-25 Empty filter, for use with user’s ø25 mm filters
23 U-FC Transmitted filter cassette; used by combining o45 mm filters

*AN and PO are not necessary when using BX3M-RLAS-S and U-FDICR


Condensers

Condensers collect and focus transmitted light. Use for transmitted light observation.

 

 

1 U-AC2 Abbe condenser (available from 5x objectives)
2 U-SC3 Swing-out condenser (available from 1.25x objectives)
3 U-LWCD Long working distance condenser for glass plate (U-MSSPG, U-SPG64)
4 U-POC-2 Swing-out condenser for POL

Mirror Units

Mirror unit for BX3M-URAS-S. Select the unit for required observation.

 

 

1 U-FBF For BF, detachable ND filter
2 U-FDF For DF
3 U-FDICR For POL, crossed nicol position is fixed
4 U-FBFL For BF, built-in ND filter (It is necessary to use both BF* and FL)
*For coaxial episcopic illumination only
5 U-FWUS For Ultra Violet-FL BP330-385 BA420 DM400
6 U-FWBS For Blue-FL BP460-490 BA520IF DM500
7 U-FWGS For Green FL BP510-550 BA590 DM570
8 U-FF Empty mirror unit, Used user’s optical element

Intermediate Tubes

Various types of accessories for multiple purposes. For use between tube and illuminator.

 

 

1 U-CA Magnification changer (1x, 1.25x, 1.6x, 2x)
2 U-ECA Magnification changer (1x, 2x)
3 U-EPA2 Eye point adjuster: + 30 mm
4 U-DP Dual port for U-DP1xC
5 U-DP1xC C-mount TV camera adapter for U-DP
6 U-TRU Trinocular intermediate unit

UIS2 Objectives

Objectives magnify the sample. Select the objective that matches the working distance, resolving power and observation method for the application.

> Click here for details about UIS2 objective lenses

Image Quality

A History of Leading-edge Optics

Superior Optical Performance: Wave Front Aberration Control

When using a microscope for advanced research or system integration, optical performance must be standardized for all objectives. Olympus’ UIS2 objectives go beyond conventional numerical aperture (NA) and working distance (WD) performance standards by providing wave front aberration control, that minimizes the aberrations that lower resolution.


Stable Color Temperature and High-Intensity White LED Illumination

The BX3M utilizes a high-intensity white LED light sources for both reflected and transmitted light. The LED maintains a consistent color temperature regardless of intensity. LEDs provide efficient, long-life illumination that is ideal for inspecting materials science applications.


Superior Quality for Advanced Performance

Support Precise Measurement: Auto Calibration

Similar to digital microscopes, automatic calibration is available when using OLYMPUS Stream. Auto-calibration eliminates human variability in the calibration process leading to more reliable measurements. Auto calibration uses an algorithm that automatically calculates the correct calibration from an average of multiple measurement points. This minimizes variance introduced by different operators and maintains consistent accuracy, improving reliability for regular verification.


Seamless Stitching : Image Shading Correction

Shading correction is implemented within OLYMPUS Stream software to accommodate for shading around the corners of an image. When used with intensity threshold settings, shading correction provides more precise analysis. Additionally, a more uniform panoramic image is acquired when tiling images with MIA.

  • Left image: Raw image illustrating shading where images were stitched together
  • Right image: Shading correction produces even illumination across the field of view
1 x 3 MIA image (Sample: Residue on membrane filter)

 

Feature

Functionality for a Range of Inspection and Analytical Tasks

The Invisible Becomes Visible: MIX Observation

The BX3M’s MIX observation technology combines traditional illumination methods with darkfield illumination. When the MIX slider is used, its ring of LEDs shine directional darkfield on the sample. This has a similar effect to traditional darkfield, but provides the ability to select a quadrant of the LEDs in order to direct the light from different angles. This combination of directional darkfield and brightfield, fluorescence, or polarization is called MIX illumination, and is especially helpful to highlight defects and differentiate raised surfaces from depressions.

Conventional 

Brightfield shines the light straight down on the sample while traditional darkfield highlights scratches and imperfections of a flat surface by illuminating the sample from the side of the objective.

Advanced

MIX is a combination of either brightfield, fluorescence, or polarized light and directional darkfield from a ring of LEDs. The LEDs can be adjusted to select which direction to illuminate from. This provides unique contrast and highlights features on the surface that cannot seen with conventional methods.


Easily Move the Stage for Panorama: Instant MIA

You can now stitch images easily and quickly just by moving the XY knobs on the manual stage; no motorized stage is necessary. OLYMPUS Stream uses pattern recognition to generate a panoramic image giving users a wider field of view than a single frame.

Instant MIA image of a coin

Create All-in-focus Images: EFI

The Extended Focus Imaging (EFI) function within OLYMPUS Stream captures images of samples whose height extends beyond the depth of focus of the objective and stacks them together to create one image that is all in focus. EFI can be executed with either a manual or motorized Z-axis and creates a height map for easy structure visualization. It is also possible to construct an EFI image while offline within Stream Desktop.


Capture Both Bright and Dark Areas: HDR

Using advanced image processing, high dynamic range (HDR) adjusts for differences in brightness within an image to reduce glare. HDR improves the visual quality of digital images thereby helping to generate professional-looking reports.

Clearly exposed for both of dark and bright parts by HDR
(Sample: fuel injector bulb)
Contrast enhancement by HDR
(Sample: Sliced magnesite)

Adaptable to Suit Observational and Analysis Preferences

Wide Choice of Observation Methods

Reflected light microscopy spans a range of applications and industries.These are just some of the examples of what can be achieved using different observation methods, such as brightfield(BF), darkfield(DF), differential Interference Contrast(DIC), polarized light(PL), fluorescence(FL), infra-red(IR), and transmitted light(TL).

 


Routine or Basic Measurement Functions

Various measurement functions are available through OLYMPUS Stream so that the user can easily obtain useful data from the images. For quality control and inspection, measuring features on images are often required. All levels of OLYMPUS Stream licenses include interactive measurement functions such as distances, angles, rectangles, circles, ellipses, and polygons. All measured results are saved with the image files for further documentation.


Count and Measure

Object detection and size distribution measurement are among the most important applications in digital imaging. OLYMPUS Stream incorporates a detection engine that utilizes threshold methods to reliably separate objects (e.g., particles, scratches) from the background.


Materials Science Solutions

OLYMPUS Stream offers an intuitive, workflow-oriented interface for complex image analysis. At the click of a button, the most complex image analysis tasks can be executed quickly, precisely, and in compliance with most common industrial standards. With a significant reduction in processing time for repeated tasks, materials scientists can concentrate on analysis and research. Modular add-ins for inclusions and intercept charts are easily performed at any time.


3D Sample Measurement

When using an external motorized focus drive, an EFI image can be quickly captured and displayed in 3D. The height data acquired can be used for 3D measurements on the profile or from the single view image.


Accommodates a Wide Range of Samples

View More Sample Types and Sizes

The new 150 × 100 mm stage provides a longer travel in the X direction than previous models. This, together with the flat-top design, enables large samples or multiple samples to be easily placed on the stage. The stage plate has tapped holes to attach a sample holder. The larger stage provides flexibility to users by enabling them to inspect more samples on one microscope, saving valuable lab space. The stage’s adjustable torque facilitates fine positioning under high magnification with a narrow field of view.


Flexibility for Sample Height and Weight

Samples up to 105 mm can be mounted on the stage with the optional modular unit. Due to the improved focusing mechanism, the microscope can accommodate a total weight (sample + stage) of up to 6 kg. This means that larger and heavier samples can be inspected on the BX3M, so fewer microscopes are required in the lab. By strategically positioning a rotatable holder for 6-inch wafers off-center, users can observe the whole wafer surface by just rotating the holder when moving through the 100 mm travel range. The stage’s torque adjustment is optimized for ease of use and the comfortable handle grip makes it easy to find the region of interest of the sample.

BX53MRF-S

Flexibility for Sample Size

When samples are two large to place on a traditional microscope stage, the core optical components for reflected light microscopy can be configured in a modular configuration. This modular system, the BXFM, can be mounted to a larger stand via a pole or mounted to another instrument of choice using a mounting bracket. This enables users to take advantage of Olympus’ renowned optics even when their samples are unique in size or shape.

BXFM

Protect Electronic Devices from Electrostatic Discharge: ESD Compatible

The BX3M has an ESD dissipation capability that protects electronic devices from static electricity caused by human or environmental factors.


 

Ease of Use

Comfortable and Easy to Use

 

Traditional Techniques Made Easy: Simple Illuminator

The illuminator minimizes complicated actions that are usually necessary during microscope operation. A dial at the front of the illuminator enables the user to easily change the observation method. An operator can quickly switch between the most frequently used observation methods in reflected light microscopy, such as from brightfield, to darkfield, to polarized light, in order to readily change between different types of analysis. In addition, simple polarized light observation is adjustable by rotating the analyzer.

An operator can quickly switch between frequently used observation methods.(Polished sample of AlSi)

Intuitive Microscope Controls: Simple FS and AS Settings

Using the proper aperture stop and field stop settings provides good image contrast and makes full use of the numerical aperture of the objective. The legend guides the user to the correct setting based on the observation method and objective in use.


Find the Focus Quickly: Focus Scale Index

The focus scale index on the frame supports quick access to the focal point. Operators can roughly adjust the focal point without viewing the sample through an eyepiece, saving time when inspecting samples that are different heights.


For Consistent Illumination: Light Intensity Manager

During the initial setup, the illumination intensity can be adjusted to match the specific hardware configuration of the coded illuminator and/or coded nosepiece.

Conventional Light Intensity

Similar to conventional microscopes, the image appears darker with increasing magnification and observation methods that consume more light

Light Intensity Manager

The microscope automatically adjusts the light intensity to the correct value when changing magnification or observation method


Easy and Ergonomic Operation

Ergonomics are of the utmost importance for all users. Both standalone microscope users and those integrating with OLYMPUS Stream image analysis software benefit from ergonomic handset controls that clearly display the hardware position. The simple handsets enable the user to focus on their sample and the inspection they need to perform.


A System Designed for Image Analysis

For Restoring Microscope Settings: Coded Hardware

The BX3M employs new coded functions that integrate the microscope’s hardware settings with OLYMPUS Stream image analysis software. The observation method, illumination intensity, and objective position are all recorded within the software and/or the handset. The coded functions enable the microscope settings to be automatically saved with each image, making it easier to reproduce the settings at a later time and provide documentation for reporting purposes. This saves the operator time and minimizes the chance that an incorrect setting will be used. The current observation settings are always clearly displayed both on the hand switch and in the software.

BX53M

BX53M

Ease of use Feature Image quality Configuration

Designed with modularity in mind, the BX3M series provide versatility for a wide variety of materials science and industrial applications. With improved integration with OLYMPUS Stream software, the BX3M provides a seamless workflow for standard microscopy and digital imaging users from observation to report creation.


User-Friendly

  • Traditional Techniques Made Easy: Simple Illuminator
  • Intuitive Microscope Controls: Simple FS and AS Settings
  • Find the Focus Quickly: Focus Scale Index
  • Consistent Illumination: Light Intensity Manager
  • Easy and Ergonomic Operation
  • Easy Restore Microscope Settings: Coded Hardware
  • Basic Measurement Functions

Functional

  • The Invisible Becomes Visible: MIX Observation
  • Create All-in-focus Images: EFI
  • Easily Move the Stage for Panorama: Instant MIA
  • Capture Both Bright and Dark Areas: HDR
  • Adaptable to Suit Observational and Analysis Preferences
  • Accommodates a Wide Range of Samples

Precision Optics

  • Superior Optical Performance: Wave Front Aberration Control
  • Stable Color Temperature and High-Intensity White LED Illumination
  • Support Precise Measurement: Auto Calibration
  • Seamless Stitching : Image Shading Correction

Fully Customizable

  • Various configurations to meet users’ requirements
  • Modular Design, Build Your System Your Way

SZX10

SZX10

OLYMPUS SZX10은 Working Distance와 Field Size가 중요할 때 선택하시는 모델입니다. 렌즈의 디자인에 따라 왜곡현상없이 제품 혹은 샘플의 고유 색감을 그대로 관찰하실 수 있습니다.

  • 안정성 및 반복성
  • 인체공학적이고 빠른 사용
  • 지능적인 디지털 영상

안정성 및 반복성

 빠른 검사가 가능한 조절 손잡이

Zoom knob with click-stop

0.63배 에서 6.3배에 이르는 넓은 범위의 배율은 듀얼 렌즈 홀더를 통해 더 높은 배율도 볼 수 있으며, 별도의 렌즈 교체 없이 다양한 배율에서의 관찰이 가능합니다. 축을 이루는 빛 경로 설정의 장점은 카메라로 찍은 측정값이 현미경에서 샘플의 방향에 상관없이 모든 방향으로 안정적이고 정확하며 많은 영상 및 측정 작업들은 같은 배율에서 일관성있고 비교할 수 있는 정확한 결과값을 보장합니다. 11개의 click-stop 지점들은 중요한 기능들을 빠르고 쉽게 사용할 수 있도록 합니다.


8개의 호환가능한 렌즈로부터의 뛰어난 성능

Lineup of Objective Lenses

DFPL2x/DPFL1.5x /DFPL 0.75x /DFPL 0.5x : DFPL 렌즈 시리즈는 뛰어난 색 재현성과 샘플의 모양을 정확하게 구현합니다.

DFPLAPO 1.25x /DFPLAP01x4 : 색 수차 및 구면 수차를 제거한 가장 높은 성능의 렌즈로 뛰어난 분해능과 contrast, 이미지 평면도와 최소한의 왜곡 등의 특징을 가집니다.

SZX-ACH1.25x /SZX-ACH1x : Long Working Distance와 고분해능을 갖춘 균형잡힌 렌즈입니다.


인체공학적이고 빠른 사용

 

인체공학적으로 편안한 사용 환경

OLYMPUS는 인체공학적인 디자인이 사용자들에게 가장 중요한 요소라고 믿습니다. 따라서, 모든 동작은 사용하기 쉽고 눈이 편안한 접안렌즈, 낮은 위치의 스탠드 등으로 사용하는데 발생할 수 있는 스트레스를 최대한으로 줄였습니다.
SZX2 실체현미경의 고급화된 OLYMPUS Comfort View 접안렌즈는 3D 이미지를 볼 수 있도록 넓은 범위를 한 번에 볼 수 있게하며 장시간 사용시에도 편안함을 가져다 줍니다.
또한 눈의 피로를 줄이며 실체 이미지를 더 쉽게 볼 수 있게 합니다. OLYMPUS는 튜브(헤드) 부분의 각도가 5~45로 조절할 수 있어 다양한 사용자들이 만족하며 사용할 수 있습니다.


자동기능

SZX10 전동 초점 장치는 화장 초점 영상(EFI)와 완벽하게 자동화된 디지털 문서를 만들 수 있습니다. 이러한 기능은 3D 이미지를 만들 수 있으며, 문서상의 이미지와 실제 눈으로 본 이미지의 격차를 줄여줍니다. 자동 검사를 용이하게하기 위해 OLYMPUS STREAM 이미징 소프트웨어 제품군은 간단한 2D 측정부터 복잡한 위상 분석에까지 다양한 환경에 사용하기 쉬운 모든 도구들을 제공합니다.


다양한 종류의 스탠드와 조명 장치

Low-profile LED Illumination Base

OLYMPUS SZX2는 OLYMPUS LED 기반의 특별한 시스템을 갖추고 있어 투과 조명의 미세한 조정으로 밝기와 영상을 컨트롤 하실 수 있습니다. 울트라 슬림의 40mm Base와 함께 SZX2는 가장 인체공학적인 높이의 스테이지를 지원합니다. 게다가 명시야, 암시야,  Oblique 조명의 선택을 회전식 스위치를 통해 쉽게 할 수 있습니다. 긴 수명의 LED는 샘플이나 스테이지에 열을 전달하지 않으며 Material 실체현미경으로써의 유연성을 강화하였습니다.


다양한 종류의 반사형 조명 장치

링 라이트 방식의 조명이나 동축 조명등의 다양한 반사형 조명유닛들의 사용이 가능합니다. 사용자의 어플리케이션에 맞는 최적의 조명 시스템을 선택하실 수 있습니다.


지능적인 디지털 영상

디지털 영상

SZX16과 함께 당신은 샘플의 실시간 디지털 영상을 보여주거나 문서를 제작하고 싶어질 것입니다. OLYMPUS 쿨링 방식의 DP를 같이 사용하여 매우 유용한 이미징 스테이션을 구착할 수 있습니다. 이 것은 빠른 속도의 라이비 영상 관찰 뿐만 아니라 고해상도(1730)만화소까지)의 문서 제작도 가능합니다. 발전된 인터페이스는 샘플이 움직이는 동안에도 색재현성이 뛰어나고 색변화가 자유롭습니다.

OLYMPUS의 정교한 현미경 디지털 카메라 및 이미지 분석 소프트웨어 패키지는 관찰, 리포트 생성, 데이터베이스, 보관 및 SZX16 전동 줌 초점 제어를 포함한 다수를 작업을 지원합니다. OLYMPUS가 디지털 카메라 및 분석 / 측정 소프트웨어의 전체 라인을 제공하며, 고객님의 OLYMPUS 담당자는 사용자의 요구 사항에 맞춰 충족시켜드릴 수 있도록 도와 드릴 것입니다.


Work Comfortably and Productively

Natural Posture, Reduced Stress, and Increased Productivity

The ergonomic long tilting trinocular provides an optimized work position by bringing the microscope closer to the user while the extendable eyepoint adjuster provides flexibility for users of different heights. The SZX series’ ergonomic instruments reduce stress during observation by providing the most comfortable position for each user, increasing work efficiency.


Convergence Angle in Tube Relieves Eyestrain

Olympus research established a correlation between stereo microscope optical systems and eyestrain. Certain convergence angles between the left and right optical paths can cause discomfort. The SZX2 series is designed with a convergence angle that completely compensates for each optical path. This solution effectively eliminates eyestrain, even during prolonged observation.


Ergonomic Zoom and Focus Knobs for Fatigue-free Use

The position of the zoom knob, size and position of the coarse/fine focusing knob, and the fine focus stroke are designed for easy operation. The enhanced fine focus stroke results in easy and precise focusing.


Slim Design Illumination Stand for Easy Access to Samples

Illumination stands are designed to be easy to use and fatigue-free. The slim LED transmitted light illumination stand, at approximately 40 mm in height, features easily adjustable fingertip illumination control and provides easy access to samples.


Specification

Research Stereomicroscope System SZX10 Specifications
Optical System Galilean Optical System
Total Magnification 3.15x-378x*1
Zoom Body Zoom Ratio 10 (0.63x-6.3x)
AS Built-in
Observation Tube Binocular/Trinocular/Tilting Trinocular Observation Tube
Extendable Eyepoint Adjuster SZX2-EEPA
Focus Focusing Unit/Coarse Fine Focusing Unit/Heavy-duty Coarse Fine Focusing Unit/Motorized Focusing Unit
Objective Lens Magnification Type N.A. W.D. (mm) Total Magnification *2 *3 Field Diameter of View (mm)*2 *3
0.5x Plan Achromat 0.05 171 3.2x-31.5x Ø69.8-Ø7
0.75x Plan Achromat 0.075 116 4.7x-47.3x Ø46.6-Ø4.7
1x Plan Apochromat 0.1 81 6.3x-63x Ø34.9-Ø3.5
Achromat 0.1 90 6.3x-63x Ø34.9-Ø3.5
1.25x Plan Apochromat 0.125 60 7.9x-78.9x Ø27.9-Ø2.8
Achromat 0.125 68 7.9x-78.9x Ø27.9-Ø2.8
1.5x Plan Achromat 0.15 45.5 9.5x-94.5x Ø23.3-Ø2.3
2x Plan Achromat 0.2 33.5 12.6x-126x Ø17.5-Ø1.7
Dimensions (W x D x H) 285 mm x 335 mm x 400 mm
Weight 7 kg (in Standard Configularion)
Remark *1 total magnification range possible by combining an objective lens and eyepiece
*2 in the case of using eyepiece 10x
*3 SZX2-LTTR: intermediate magnification is 1.25X, SZX2-ILLC16/10: intermediate magnification is 1.5X

SZX16

SZX16

 

OLYMPUS SZX16은 900 line pair/mm 의 높은 분해능을 가지고 있어 고사양의 성능을 필요로 하는 어플리케이션에 사용될 수 있도록 제작되었습니다. 0.7x – 11.5x 에 이르는 줌 배율과 듀얼터렛을 사용하여 2개의 대물렌즈를 사용하실 수 있습니다.

  • 광학의 우수성
  • 인체공학적이고 빠른 사용
  • 지능적인 디지털 영상

광학의 우수성

넓은 줌 범위

0.7배에서 11.5배에 이르는 넓은 줌 범위를 갖고 있어 추가적인 대물렌즈의 변경없이 넓은 시야에서 부터 자세한 부분까지 관찰이 가능합니다.

 다양한 종류의 대물렌즈

Lineup of Objective Lenses

SDF 시리즈의 대물렌즈와 함께 비점수차를 제거하여 높은 분해능과 contrast를 가진 이미지를 관찰 할 수 있습니다.
샘플의 요구사항에 맞게 6가지 종류의 렌즈를 통해 가장 적합한 대물렌즈를 선택하여 사용할 수 있습니다.
parfocal 렌즈의 가장 넓은 범위 (0.5x, 1.0x, 1.6x, 2.0x )와 함께 큰 줌 비율은 SZX16가 macro-view부터 micro-view까지 관찰할 수 있게 합니다. 놀라운 분해능과 배율의 선택은 작업을 더 효율적으로 하고 샘플로부터 더 정확한 정보를 얻을 수 있습니다.


인체공학적이고 빠른 사용

자동기능

SZX16 전동 초점 장치는 화장 초점 영상(EFI)와 완벽하게 자동화된 디지털 문서를 만들 수 있습니다. 이러한 기능은 3D 이미지를 만들 수 있으며, 문서상의 이미지와 실제 눈으로 본 이미지의 격차를 줄여줍니다. 자동 검사를 용이하게하기 위해 OLYMPUS STREAM 이미징 소프트웨어 제품군은 간단한 2D 측정부터 복잡한 위상 분석에까지 다양한 환경에 사용하기 쉬운 모든 도구들을 제공합니다.

인체공학

OLYMPUS는 인체공학적인 디자인이 사용자들에게 가장 중요한 요소라고 믿습니다. 따라서, 모든 동작은 사용하기 쉽고 눈이 편안한 접안렌즈, 낮은 위치의 스탠드 등으로 사용하는데 발생할 수 있는 스트레스를 최대한으로 줄였습니다.
SZX2 실체현미경의 고급화된 OLYMPUS Comfort View 접안렌즈는 3D 이미지를 볼 수 있도록 넓은 범위를 한 번에 볼 수 있게하며 장시간 사용시에도 편안함을 가져다 줍니다.
또한 눈의 피로를 줄이며 실체 이미지를 더 쉽게 볼 수 있게 합니다. OLYMPUS는 튜브(헤드) 부분의 각도가 5~45로 조절할 수 있어 다양한 사용자들이 만족하며 사용할 수 있습니다.

Viewing tube (head) of adjustable angle
Adjustable observation tube(head)

다양한 종류의 스탠드와 조명 장치

OLYMPUS SZX2는 OLYMPUS LED 기반의 특별한 시스템을 갖추고 있어 투과 조명의 미세한 조정으로 밝기와 영상을 컨트롤 하실 수 있습니다.울트라 슬림의 40mm Base와 함께 SZX2는 가장 인체공학적인 높이의 스테이지를 지원합니다. 게다가 명시야,암시야, Oblique 조명의 선택을 회전식 스위치를 통해 쉽게 할 수 있습니다. 긴 수명의 LED는 샘플이나 스테이지에 열을 전달하지 않으며 Material 실체현미경으로써의유연성을 강화하였습니다.

Low-profile LED Illumination Base

다양한 종류의 반사형 조명 장치

링 라이트 방식의 조명이나 동축 조명등의 다양한 반사형 조명유닛들의 사용이 가능합니다. 사용자의 어플리케이션에 맞는 최적의 조명 시스템을 선택하실 수 있습니다.


Work Comfortably and Productively

Natural Posture, Reduced Stress, and Increased Productivity

The ergonomic long tilting trinocular provides an optimized work position by bringing the microscope closer to the user while the extendable eyepoint adjuster provides flexibility for users of different heights. The SZX series’ ergonomic instruments reduce stress during observation by providing the most comfortable position for each user, increasing work efficiency.


Convergence Angle in Tube Relieves Eyestrain

Olympus research established a correlation between stereo microscope optical systems and eyestrain. Certain convergence angles between the left and right optical paths can cause discomfort. The SZX2 series is designed with a convergence angle that completely compensates for each optical path. This solution effectively eliminates eyestrain, even during prolonged observation.


Ergonomic Zoom and Focus Knobs for Fatigue-free Use

The position of the zoom knob, size and position of the coarse/fine focusing knob, and the fine focus stroke are designed for easy operation. The enhanced fine focus stroke results in easy and precise focusing.


Slim Design Illumination Stand for Easy Access to Samples

Illumination stands are designed to be easy to use and fatigue-free. The slim LED transmitted light illumination stand, at approximately 40 mm in height, features easily adjustable fingertip illumination control and provides easy access to samples.

SZ61/SZ51

SZ61/SZ51

 실체현미경

OLYMPUS SZX/SZ 시리즈 실체 현미경은 선명하고 입체적인 화면을 제공하며 편안하며 인체공학적인 디자인을  갖추었습니다. 다양한 어플리케이션에 따라 저배율부터 고배율에 이르기까지 다양한 바디와 광학기능의 선택이 자유롭습니다.

OLYMPUS SZ61/51은 ESD프로텍션과 함께 선명하고 상세하게 실제색감을 나타냅니다. 신뢰할 수있는 고성능의 광학 성능을 통해 일관된 정확한 결과를 얻을 수 있습니다.

  • 컴팩트한 디자인과 우수한 광학 성능
  • 다양한 조명 장치
  • 유니버셜 스탠드

컴팩트한 디자인과 우수한 광학 성능

 Greenough 광학 시스템

Greenough 광학 시스템 다이어그램

SZ51/61 은 5:1 과 6.7:1 의 줌 배율과 ( 줌범위 0.8x – 4x, 0.67x- 4.5x) 높은 분해능을 갖고 있으며 가격 또한 저렴한 편입니다. 편안한 관찰시을 위해 45-60도의 범위로 각도조절이 가능합니다.

Greenough 광학 디자인을 채택하였고, 모든 줌 바디는 왜곡 및 간섭의 영향을 없앤 최신 광학 기술을 도입하여 항상 우수한 성능을 유지합니다.

V 모양의 광축은 바디를 작게하고 다른 장비와의 결합 및 스탠드와 단독으로 사용됩니다.

3 면 관찰
3D 관찰을 위해 최적의 각도로 높은 수준의 평탄도 및 초점 심도를 갖고 있습니다. 상당한 깊이가 있는 샘플도 아래부터 위에로까지 초점을 잡아 빠른 관찰을 할 수 있습니다.

높은 색 재현성의 관찰 이미지
우수한 광학 코팅과 실제 컬러 이미지를 렌더링합니다.

정전기로부터 장비를 보호하는 ESD
메인 유닛 및 중 악세서리는 정전기 방지 물질과 코팅으로 정전기를 방지할 수 있습니다. 이 기능은 샘플이 전기로부터 입는 피해를 방지하기 위해서 입니다.

 


사용자의 어플리케이션에 맞는 현미경 선택

SZ51/61모델은 45도 혹은 60도의 모델이 있으며 OEM으로 결합하거나 스탠드를 장착하여 사용할 수 있습니다. SZ61TR은 비디오/디지털 카메라와 줌 바디에 결합되어 있는 c-mount에 연결하여 선명한 이미지를 획득하실 수 있습니다.

 


다양한 조명 장치

 LED 조명 – 반사형과 투과형 스탠드

LED Illumination Stand

Ultra-thin 의 친환경 LED 스탠드는 에너지 효율성을 높혔습니다.


 “Off the Bench” Illuminator

Dual interlock light guide illuminator

특별히 제작된 광섬유 광원은 스탠드에 직접 결합되어 작업공간을 차지 하지 않습니다. 단독 혹은 더블 방식의 Interlock과 Ring 방식이 있으며, 이 시스템은 오랜 시간 밝은 조명장치로 사용할 수 있습니다.


Coaxial Reflected Light Illumination System

Coaxial reflected light illumination system

Casings 같은 구멍(홀)안의 관찰 용도로 적합한 조명장치


 White LED Illuminator System

White LED Ring Light

유니버셜 스탠드

다양한 유니버셜 스탠드

Combination of SZ2-ST

사용자의 손과 팔에 스트레스와 부담을 줄이면서 베이스 플레이트와 곡선형 울트라 슬림 스탠드에서 쉽게 샘플을 관찰하실 수 있습니다.

OLYMPUS는 더 큰 샘플의 검사 및 조립을 위해서 ESD 기능의 다양한 스탠드가 있습니다. 필요할 경우에는 400mm 과 600mm 높이의 크기를 갖는 큰 사이지의 스탠드도 대응이 가능합니다.

Combination of SZ2-STU2

SZ2-STU2 : arm의 길이와 각도를 자유롭게 조절할 수 있습니다. 

Combination of SZ2-STU3

SZ2-STU3 : 스탠드는 책상위에 놓고 조립 및 검사라인에서 사용하실 수 있습니다.

 

Large Stand  (300mm x 400mm) & Bonder ARM (32mm)

 


SZ61/SZ51 Specifications

Optical System  Greenough Optical System
Total Magnification  2.0x-270x [SZ61]*1
2.4x-240x [SZ51]*1
Zoom Body  Zoom Ratio 6.7 (0.67x-4.5x) [SZ61]
5 (0.8x-4x) [SZ51]
AS
Observation Tube  Binocular (Tube Inclination Angle 45°/60°)/Trinocular Observation Tube (0.5x Photographic Lens Built-in) [SZ61]
Binocular Observation Tube (Tube Inclination Angle 45°/60°) [SZ51]
Focus  Stand
Objective          Magnification Type N.A. W.D. (mm) Total Magnification *2 Field Diameter of View (mm)*2
0.3x Auxiliary Objective Lens 0.02 – 0.024 350 – 250 2x – 13.5x [SZ61]
2.4x – 12x [SZ51]
Ø109.5 – Ø16.3 [SZ61]
Ø91.7 – Ø18.3 [SZ51]
0.4x Auxiliary Objective Lens 0.027 – 0.032 250 – 180 2.7x – 18x [SZ61]
3.2x – 16x [SZ51]
Ø82.1 – Ø12.2 [SZ61]
Ø68.8 – Ø13.8 [SZ51]
0.5x Auxiliary Objective Lens 0.036 200 3.4x – 22.5x [SZ61]
4x – 20x [SZ51]
Ø65.7 – Ø9.8 [SZ61]
Ø55 – Ø11 [SZ51]
0.62x Auxiliary Objective Lens 0.042 160 4.2x – 27.9x [SZ61]
5x – 24.8x [SZ51]
Ø53 – Ø7.9 [SZ61]
Ø44.4 – Ø8.9 [SZ51]
0.75x Auxiliary Objective Lens 0.053 130 5x – 33.8x [SZ61]
6x – 30x [SZ51]
Ø43.8 – Ø6.5 [SZ61]
Ø36.7 – Ø7.3 [SZ51]
1x 0.071 110 6.7x – 45x [SZ61]
8x – 40x [SZ51]
Ø32.8 – Ø4.9 [SZ61]
Ø27.5-Ø5.5 [SZ51]
1.5x Auxiliary Objective Lens 0.1 61 10.1x – 67.5x [SZ61]
12x – 60x [SZ51]
Ø21.9 – Ø3.3 [SZ61]
Ø18.3 – Ø3.7 [SZ51]
2x Auxiliary Objective Lens 0.142 38 13.4x – 90x [SZ61]
16x – 80x [SZ51]
Ø16.4 – Ø2.4 [SZ61]
Ø13.8 – Ø2.8 [SZ51]
Dimensions  194(W)x253(D)x368(H)mm
Weight  3.5 kg (in Standard Combination)`
Remark  *1 total magnification range possible by combining an objective lens and eyepiece
*2 in the case of using eyepiece 10x