Olympus FV1000 ユーザーズマニュアル

Dimensions (mm)

Weight (kg)

Power consumption

Microscope with scan unit

BX61/BX61WI

320 (W) x 580 (D) x 565 (H)

41

—

IX81

350 (W) x 750 (D) x 640 (H)

51

Fluorescence illumination unit

Lamp

180 (W) x 320 (D) x 235 (H)

6.7

Power supply

90 (W) x 270 (D) x 180 (H)

3.0

AC 100-240 V 50/60 Hz 1.6 A

Transmitted light detection unit

170 (W) x 330 (D) x 130 (H)

5.9

—

Microscope control unit

125 (W) x 332 (D) x 216 (H)

5.2

AC 100-120/220-240 V 50/60 Hz 3.5 A/1.5 A

FV Power supply unit

180 (W) x 328 (D) x 424 (H)

7.5

AC 100-120/220-240 V 50/60 Hz 4.0 A/2.0 A

FV control unit (PC)

180 (W) x 420 (D) x 360 (H)

10.5

AC 100/240 V 50/60 Hz 497.5 W

19 inch, dual (value per monitor)

363 (W) x 216 (D) x 389.5–489.5 (H)

5.9

AC100-120/200-240 V 50/60 Hz 0.65 A/0.4 A

29.8 inch

689 (W) x 254.7 (D) x 511.5–629.5(H)

15.7

AC100-120/200-240 V 50/60Hz 1.8 A/0.8 A

Power supply unit for laser combiner

210 (W) x 300(D) x 100 (H)

4.0

AC 100-120/200-240 V 50/60 Hz 2.0 A/1.0 A

Laser combiner (with Ar laser heads)

514 (W) x 504 (D) x 236 (H)

45

—

Laser combiner (without Ar laser heads)

514 (W) x 364 (D) x 236 (H)

40

—

LD559 laser power supply

200 (W) x 330 (D) x 52 (H)

1.2

AC 100-240 V 50/60 Hz 30 W

Multi Ar laser power supply

162 (W) x 287 (D) x 91 (H)

4.4

AC 100-240 V 50/60 Hz 20 A

HeNe(G) laser power supply

130 (W) x 224 (D) x 62 (H)

1.8

AC 100-120 V 50/60 Hz 0.45 A

1310

Depth: 990

1200

1880

680

(unit: mm)

Display

*1 This product corresponds to regulated goods as stipulated in the "Foreign Exchange and Foreign Trade Control Law".

An export license from the Japanese government is required when exporting or leaving Japan with this product.

*2 The performance and safety of this device is not guaranteed if it is disassembled or modified.

*3 This device is designed for use in industrial environments for the EMC performance. (IEC61326-1 Class A device)

Using it in a residential environment may affect other equipment in the environment.

Hippocampal neurons
Courtesy of Dr. Shigeo Okabe 
Department of Cellular Neurobiology, Graduate School of
Medicine, The University of Tokyo

Cultured nerve cells derived from the mouse hippocampus
Courtesy of Dr. Koji Ikegami, Dr. Mitsutoshi Setou
Molecular Geriatric Medicine, Mitsubishi Kagaku Institute of Life
Sciences

Cerebellum Purkinje cell
Courtesy of Dr. Tetsuro Kashiwabara, Assistant Professor; and
Dr. Akira Mizoguchi, Professor;
Neuroregenerative medicine course, Mie University School of
Medicine

Drosophila, Stage 14
Courtesy of Dr. Tetsuya Kojima
Laboratory of Innovational Biology, Department of Integrated
Biosciences Graduate School of Frontier Sciences, University
of Tokyo

"Brainbow" mouse brain stem
Courtesy of the laboratories of Jeff W. Lichtman and Joshua R.
Sanes Harvard University MCB Department and the Center for
Brain Science

Mouse brain section
Courtesy of Mr. Masayuki Sekiguchi (Section Chief)
Department of Degenerative Neurological Diseases, 
National Institute of Neuroscience, National Center of
Neurology and Psychiatry

Rudimentary limbs of larva in latter part of 3rd instar
Courtesy of Dr. Tetsuya Kojima
Laboratory of Innovational Biology, Department of Integrated
Biosciences, Graduate School of Frontier Sciences, University
of Tokyo

Zebrafish
Courtesy of Dr. Toru Murakami,
Department of Neuromuscular & Developmental Anatomy,
Gunma University Graduate School of Medicine

Medaka embryogenesis (somite stage)
Courtesy of Minoru Tanaka, Hiromi Kurokawa
National Institute for Basic Biology Laboratory of Molecular
Genetics for Reproduction

Pilidium larva of Micrura alaskensis
Courtesy of Dr. Svetlana Maslakova of the University of
Washington and Dr. Mikhail V Matz of the Whitney Laboratory
for Marine Bioscience, University of Florida.

Osteoclast induced from rat monocyte in rat kidney
Courtesy of Dr. Keiko Suzuki,
Department of Pharmacology, Showa University School of
Dentistry

Fucci–Sliced mouse brain, expressing S/G2/M phases
Courtesy of Dr. Hiroshi Kurokawa, Ms. Asako Sakaue-Sawano
and Dr. Atsushi Miyawaki
RIKEN Brain Science Institute Laboratory for Cell Function
Dynamics 

Immunolabeling of a transgenic mouse retina showing the
major retinal cells types
Courtesy of Dr. Rachel Wong, Mr. Josh Morgan
Dept. Biological Structure, University of Washington, Seattle.

Wild-type embryo in stage 17 of drosophila
Courtesy of Dr. Tetsuya Kojima
Laboratory of Innovational Biology, Department of Integrated
Biosciences
Graduate School of Frontier Sciences, University of Tokyo

Alpha Blend method (Cultured nerve cells derived from the
mouse hippocampus)
Courtesy of Dr. Koji Ikegami, Dr. Mitsutoshi Setou
Molecular Geriatric Medicine, Mitsubishi Kagaku Institute of Life
Sciences