BUC6IA-400A Cooled BSI sCMOS Camera
Introduction
BUC6IA-400A adopts new technology and performance standard. The smallest dimension among peers foe scientific imaging make it more popular for demanding compact space. The water-cooling method and CameraLink interface apply the camera for conditions requiring high stability.
Details
Overview
Packaging & Delivery
Packaging Details:Strong Carton with Polyfoam Protection
Port:Beijing
Lead Time:Within 1-2 Weeks after Receiving Payment
Introduction
BUC6IA-400A adopts new technology and performance standard. The smallest dimension among peers foe scientific imaging make it more popular for demanding compact space. The water-cooling method and CameraLink interface apply the camera for conditions requiring high stability.
Features
1.Smaller size but more functions
BUC6IA-400A adopts new technology and performance standard. The smallest dimension among peers foe scientific imaging make it more popular for demanding compact space. The smallest dimension among peers for scientific imaging makes it more popular for demanding compact space. The water-cooling method and CameraLink interface apply the camera for conditions requiring high stability.
2.Faster readout by doubling speed
BUC6IA-400A adds a STD high speed readout mode, of which the frame rate is up to 48fps@4.2MP which is twice as the normal mode. It can be achieved progressively by using ROI function for applications demanding special frame rate.
3.Superior backgroung with accurate calibration
BUC6IA-400A now can provide a superior background for quantitative analysis applications. The DSNU/PRNU have reached the international optimum of 0.2e- and 0.3% respectively, as the problems from sensor production process, such as edge glow, dead pixels as well as pixel non-uniformity, all have been calibrated accurattely.
4.95% quantum efficiency, and excellent SNR
BUC6IA-400A uses backside-illuminated sCMOS thinned chip technology to avoid light interference from the wiring layer. It has excellent response capabilities in the ultraviolet, visible and near-infrared bands, with a peak quantum efficiency of up to 95%@560nm, and when the number of incident photons are more than 3, it can have a better SNR performance than the typical EMCCD camera of 97% peak QE.
5.100Ke- full-well capacity, high dynamic range
Thanks to the 11μm large pixel, BUC6IA-400C full-well capacity can be up to 100000electrons,. Advanced High Dynamic (HDR) mode, through dual-channel gain conbined, it can present high-quality images with rich details of dark and bright in real time, which is very useful in applications such as life science.
6.2” area, large field of view
2” array can not only adapt to more optical interfaces and deliver a greater field of view, but also results in fewer lens switches to find the area of interest on the sample.
7.STORM Imaging
“Extensive test and comparisons with other top-of-the-line EMCCD and sCMOS cameras have been performed in our laaboratory. We found BUC6IA-400A, the new sCMOS camera stood its own ground remarkably well and offered satisfactory performance across the board.”
-Professor Ning Fang at Georgia State University
8.Soft X-ray detection
“The distinctive features of BUC6IA-400A make it an excellent alternative to back-illuminated CCDs which are commonly applied in soft X-ray applications of previous-generation synchrotrons, such as coherent scatter experiments. They would greatly benefit fully from the BUC6IA high frame rates.”
-Kewin Dshardins, from the French SOLEIL synchrotron
Figure 1. A 5 micron pinhole diffraction spot of 186 eV recorded by BUC6IA-400A, which shows excellent dynamic range with its image diffraction order of the reached to the maximum value, the 6th.
Figure 2. A composited radia-illumination image accumulated from 50 images and each with a 100 ms exposure time by BUC6IA-400A. The total acquisition time of 50 images is less than 10s, while the same iamge effect achieved with a back-illuminated CCD camera is a couple of minutes.
Specification
Item |
Description |
Sensor Type |
BSI sCMOS |
Sensor Model |
Gpixel GSENSE400BSI |
Peak QE |
95%@560nm |
Color/ Mono |
Mono |
Array Diagonal |
31.9mm |
Effective Area |
22.5mm*22.5mm |
Resolution |
2048(H)*2048(V) |
Pixel Size |
11μm(H)*11μm(V) |
Full-well Capacity |
Typ.: 80ke-@HDR, 100ke-@STD |
Dynamic Range |
Typ.: 90dB |
Frame Rate |
24fps@16bit HDR, 48fps@12bit STD |
Readout Noise |
1.6e-(Median), 1.7e-(RMS) |
Shutter Mode |
Rolling |
Exposure Time |
21μs-10s |
Cooling Method |
Air & Liquid |
Max. Cooling Temperature |
45℃ below ambient |
Dark Current |
Air: 0.5e-/pixel/s. Liquid: 0.25e-/pixel/s |
Binning |
2*2, 4*4 |
ROI |
2048*1024, 2048*512, 1608*1608, 1200*1200, 1024*1024, 512*512, 256*256 |
TimeStamp |
1 μs accuracy |
Trigger Mode |
Hardware & Software |
Output Trigger Signal |
Exposure, Global, Readout, High level, Low level |
Trigger Interface |
SMA |
Data Interface |
USB 3.0/ CameraLink |
Bit Depth |
16 bit |
Optical Interface |
C-mount & F-mount |
Power Supply |
12V/ 8A |
Power Consumption |
60W |
Dimensions |
C-mount: 100mm*118mm*127mm F-mount: 100mm*118mm*157mm |
Weight |
1613g |
Software |
Mosaic, LabVIEW, MatLab, Micromanager |
SDK |
C, C++, C# |
Operating System |
Windows, Linux |
Operating Environment |
Temperature 0-40℃, Humidity 10-85% |
Dimensions
Sample Image