Olympus FLUOVIEW FV300 Ikhtisar - Halaman 15

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Olympus FLUOVIEW FV300 Ikhtisar
Specifications
Item
Laser light
Visible light laser source
source
Laser combiner
Scanning unit
Scanning method
Field number
Pinhole
Image memory and
scanning speed
Image channel
Selection of filters according to staining
Scanning modes
Image depth resolution
Zoom
Z-drive
Microscopes
Upright
Inverted (special laser safe frame)
External trans-
Transmitted light illumination unit
mitted light unit
Transmitted light detector
Fluorescence illumination unit
PC with system control boards
Fluoview
Image acquisition
application
software
Hardware control
Image display
Image processing
Image analysis
3D visualization
Others
Power consumption
Objectives for BX and IX
(using U-UCD8, IX-LWUCDA and U-DICTS)
Description
NA
W.D
UPLSAPO 4X
0.16
13
UPLSAPO 10X
0.40
3.1
UPLAPO 10XO3
0.40
0.24
UPLAPO 10XW3
0.40
0.43
UPLSAPO 20X
0.75
0.6
UPLAPO 20XO3
0.80
0.19
UPLSAPO 40X
0.90
0.2
UPLFLN 40XO
1.30
0.2
PLAPON 60XO
1.42
0.15
UPLSAPO 60XO
1.35
0.15
UPLSAPO 60XW
1.20
0.28
UPLSAPO 100XO
1.40
0.12
Specifications
Select from the following laser, to mounted on laser combiner
Multi-line Ar laser (458nm, 488nm, 515nm, Total 40mW), Ar laser (488nm,10mW), Kr laser (568nm, 10mW),
HeNe (G) laser (543nm,1mW), HeNe (R) laser (633nm,10mW), LD405 (405nm, 25mW), LD440 (440nm, 5.3mW)
Each laser light path is equipped with a continuously variable neutral density filter or AOTF
All laser lines are combined to apsis along the same fiber optic
Galvanometer mirror scanners (both X and Y)
20 (10 with use of LD405 laser)
5-position pinhole turret
Standard scanning mode: 256 x 256 (0.45s) - 2048 x 2048 (10.835s)
Bi-directional high-speed scanning mode: 512 x 512 (0.25s) (Simultaneous scanning of up to 2 channels)
Selectable from 2-channel (fluorescence) or 2-channel (fluorescence) + 1-channel (transmitted light)
3-channel (fluorescence) using virtual channel
Manual selection
XY, XYZ, XYT, XYZT, XZ, XT, XZT, point, Line-t, free line-t, line-z, free line-z, Clip, ZoomIn
12-bit (=4096 grey levels)
1X-10X
Step motor/Minimum step 10nm (BX61, BX61WI and IX81 combination), 25nm (other microscope combination)
BX51, BX61, BX51WI, BX61WI
IX81FVSF, IX71FVSF (side port)
External halogen light source connected to microscope via fiber cable
External detector unit with built-in photomultiplier Connected to microscope frame via fiber cable
Connect to external mercury light source and microscope via fiber cable
Standard equipment of FV300-BX51, FV-300-BX61, FV300-BX51WI, FV300-BX61WI
PC-AT compatible machine/OS: Windows XP (English version)/ 1GB memory (can be expanded to a maximum of 4GB)
CPU: Pentium 4, over 2.8GHz, Special I/F board/image capture: PCI bus
Graphic board: G450_Dual 32MB
Hard disk: 80GB 7200rpm_ID (ATA100) with DVD-ROM
Monitor: Two 19" LCD monitors are recommended, each able to display 1280x1024 images in full color (16.77 million colors)
LAN: On board
Scanning condition setting: image size, scanning speed, zoom, panning etc.
Real-time image calculation: Kalman filtering, peak integration,
Laser, scanning unit, microscope
Each image display: Single-channel side-by- side, merge, cropping, tiling, series (Z/T) pass and continuous
LUT: Individual color setting, pseudo-color, Overlay: Lines, text, scale bar, etc
Individual filter: Average, Low-pass, High-pass, Sobel, Median, Prewitt, 2D Laplacian, edge enhancement etc.
Calculations: Inter-image, mathematical and logical,
DIC back ground leveling
Overview of fluorescence intensity within an area, histogram, perimeter measurement for user-assigned area,
time-lapse measurement , etc.
3D animation, left / right stereo pairs, red / green stereoscopic images and cross section
Graphic-based help, PAPP (Programmable Acquisition Protocol Processor), time course software (optional),
trigger IN/OUT function (optional), Multi point software (optional)
Microscope (115V 6A/230V 3A), scanning unit+PSU (115V 3.5A/230V 2A), computer & monitor (115V 4.5A/230V 10A),
Ar laser (115V 10A/230V 5A), Mult-linei Ar laser (115V 10A/230V 5A), Kr laser (230V 20A),
HeNe laser each (115V 0.4A/230V 0.2A), LD laser (405nm, 440nm: 100V 0.9A/230V 0.5A)
Condenser for BX Condenser for IX
Cover glass
Immersion
Correction ring
thickness
0.17
0.17
Oil
0.17
Water
0.17
Oil
0.11-0.23
_
0.17
Oil
0.17
Oil
0.17
Oil
0.15-0.2
Water
_
0.17
Oil
U-DICTS
U-UCD8A
IX-LWUCDA
position
optical element optical element
U-DIC10
IX2-DIC10
normal
U-DIC10
IX2-DIC10
normal
U-DIC10
IX2-DIC10
normal
U-DIC20
IX2-DIC20
normal
U-DIC20
IX2-DIC20
normal
U-DIC40
IX2-DIC40
normal
U-DIC40
IX2-DIC40
normal
U-DIC60
IX2-DIC60
BFP1
U-DIC60
X2-DIC60
normal
U-DIC60
X2-DIC60
normal
U-DIC100
X2-DIC100
normal
14
Objectives for fixed stage upright
microscopes (using WI-UCD, WI-DICTHRA)
Objective
N.A.
W.D.
DIC
prism
MPL5X
0.10
19.60
UMPLFL10XW
0.30
3.30
U-LDPW10H
UMPLFL20XW
0.50
3.30
U-LDPW20H
LUMPLFL40XW
0.80
3.30
U-LDPW40H
LUMPLFL60XW
0.90
2.00
U-LDPW60H
LUMPLFL40XW/IR
0.80
3.30
U-LDPW40H
LUMPLFL60XW/IR
0.90
2.00
U-LDPW60H
LUMPLFL100XW
1.00
1.50
U-LDPW60H
XLUMPLFL20XW
0.95*
2.00
U-LDPXLU20
HR
*
Note: These conditions are not met in confocal microscopy
Revolving
nosepiece
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SSNP,
WI-SRE2
WI-SNPXLU