ORCA-Fusion BT Digital CMOS camera
The ORCA-Fusion BT camera is the pinnacle of scientific CMOS (sCMOS) performance. The specifications are without compromise: ultra-low readout noise, CCD-like uniformity, fast frame rates and back-thinned enabled high QE. But the beauty of the ORCA-Fusion BT is what this combination of exceptional photon detection and collection can do for you. See the dimmest whisper of signal, acquire visually stunning, high S/N images from the fewest photons, capture previously unresolved temporal events and perform computational methods with confidence. The ORCA-Fusion BT is the camera that makes the difficult experiments easy and previously impossible experiments possible.
ORCA is a registered trademark of Hamamatsu Photonics K.K. (China, EU, Japan, UK, USA).
Exclusive industry leading BT sCMOS performance with trusted Hamamatsu quality and reliability
A practical and functional replacement for expensive EM-CCDs with uncompromising sensitivity, speed and versatility
Sample: H9c2, Objective lens: Apo TIRF 60XC (NA1.49), ND: 8, Interval: 15 sec
Nucleus
Nucleus:
HCS NuclearMask Stains / Exposure 20 ms
Mitochondria
Mitochondria:
MitoTracker / Exposure 500 ms
Membrane
Membrane:
CellMask Plasma Membrane stains / Exposure 500 ms
“Lightsheet Readout Mode” is a unique and patented feature of Hamamatsu sCMOS cameras which can improve signal to noise ratios in Lightsheet microscopy.
For more information about the principle and features of Lightsheet Readout Mode, please see details from below.
Authors | Title | Source |
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Pratish Thakore, Michael G Alvarado, Sher Ali, Amreen Mughal, Paulo W Pires, Evan Yamasaki, Harry AT Pritchard, Brant E Isakson, Cam Ha T Tran, Scott Earley | Brain endothelial cell TRPA1 channels initiate neurovascular coupling | eLife 10, e63040 (2021). |
Lexy von Diezmann and Ofer Rog | Single-Molecule Tracking of Chromatin-Associated Proteins in the C. elegans Gonad | J. Phys. Chem. B 2021, 125, 23, 6162–6170 |
Kei Yamamoto, Haruko Miura, Motohiko Ishida, Yusuke Mii, Noriyuki Kinoshita, Shinji Takada, Naoto Ueno, Satoshi Sawai, Yohei Kondo & Kazuhiro Aoki | Optogenetic relaxation of actomyosin contractility uncovers mechanistic roles of cortical tension during cytokinesis | Nat Commun 12, 7145 (2021). |
Mbaye Diouf, Mitchell Harling, Murat Yessenov, Layton A. Hall, Ayman F. Abouraddy, and Kimani C. Toussaint, | Space-time vector light sheets | Opt. Express 29, 37225-37233 (2021) |
Oliver Klatt, Daniele Repetto, Johannes Brockhaus, Carsten Reissner, Abderazzaq El khallouqi, Astrid Rohlmann, Martin Heine, Markus Missler, | Endogenous β-neurexins on axons and within synapses show regulated dynamic behavior | Cell Reports, Volume 35, Issue 11, 2021, 109266, |
Satoshi Okada, Goro Doi, Shitomi Nakagawa, Emiko Kusumoto, Takashi Ito | Simple-to-use CRISPR-SpCas9/SaCas9/AsCas12a vector series for genome editing in Saccharomyces cerevisiae | G3 Genes|Genomes|Genetics, Volume 11, Issue 12, December 2021, jkab304 |
With the introduction of the ORCA-Fusion BT, users are now able to stream 5 megapixel images to their computers 89 frames per second. The computer recommendations for this high data rate can be met by using the guidelines listed this PC Recommendations for ORCA-Fusion BT.
Our software provides the interface to access all of our carefully engineered camera features, from simply setting exposure to orchestrating complex triggering for multidimensional experiments.
Product number | C15440-20UP |
---|---|
Imaging device | Scientific CMOS image sensor |
Effective number of pixels | 2304 (H) × 2304 (V) |
Pixel Size | 6.5 μm × 6.5 μm |
Effective Area | 14.976 mm (H) × 14.976 mm (V) |
Full well capacity | 15 000 electrons *1 |
Readout speed | Fast scan, Full resolution, CoaXPress : 89.1 frames/s Fast scan, Full resolution, USB 3.0 : 31.6 frames/s(16 bit), 42.2 frames/s(12 bit) , 63.3 frames/s(8 bit) Standard scan, Full resolution, CoaXPress : 23.2 frames/s Standard scan, Full resolution, USB 3.0 : 23.2 frames/s Ultra quiet scan, Full resolution, CoaXPress : 5.42 frames/s Ultra quiet scan, Full resolution, USB 3.0 : 5.42 frames/s |
Readout noise | Fast scan : 1.6 electrons rms *1 Standard scan : 1.0 electrons rms *1 Ultra-quiet scan: 0.7 electrons rms *1 |
Exposure times | Fast scan : 17 µs to 10 s Standard scan : 65 µs to 10 s Ultra quiet scan : 280 µs to 10 s |
Cooling method | Peltier cooling |
Cooling temperature | Forced-air cooled (Ambient temperature: +25 ˚C) : −8 ˚C Water cooled (Water temperature: +25 ˚C) : −8 ˚C Water cooled (Max cooling (Ambient temperature: +20 ˚C, water temperature: +20 ˚C)) : Less than −15 ˚C |
Dark current | 1.0 electrons/pixel/s (cooling temperature: -8 ˚C , Ambient temperature: +25 ˚C)*1*3 1.0 electrons/pixel/s (cooling temperature: -8 ˚C , Water temperature: +25 ˚C)*1*3 0.7 electrons/pixel/s (cooling temperature: Less than −15 ˚C , Ambient temperature: +20 ˚C, water temperature: +20 ˚C)*1*3 |
Dynamic range | 21 400:1 *1*2*4 |
External trigger mode | Edge, Level, Sync readout, Start, Global reset edge, Global reset level, Programmable |
External trigger signal routing | SMA |
External trigger delay function | 0 μs to 10 s (1 μs step) |
Trigger output | Global exposure timing, Trigger ready, Low, High, 3 programmable timing outputs |
External signal output routing | SMA |
Interface | CoaXPress (Dual CXP-6) and USB 3.0 Super Speed *5 |
A/D converter | 16 bit, 12 bit, 8 bit |
Lens mount | C-mount (standard), F-mount (C15440-20UP01) |
Power supply | AC 100 V to AC 240 V, 50 Hz/60 Hz |
Power consumption | Approx. 155 VA |
Ambient operating temperature | 0 °C to +40 °C |
Ambient storage temperature | -10 ℃ to +50 ℃ |
Ambient operating humidity | 30 % to 80 % (With no condensation) |
Ambient storage humidity | 90 % or less (With no condensation) |
*1 Typical value
*2 Calculated from the ratio of the full well capacity and the RMS read noise
*3 Dark current depends on cooling temperature
*4 In ultra-quiet scan
*5 Equivalent to USB 3.1 Gen 1 (SuperSpeed USB 5 Gbps)
This site provides information on scientific cameras.
Since there is a wide range of camera types and performance, it is important to select the best camera for each application.
It introduces technical information, simulation tools, and examples of actual applications to help you fully understand the performance of the camera and select the best one for your application.
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