Black Silicon Near-Infrared Cooling CMOS Camera 'CS-64NIR'
Black Silicon Infrared Cooling CMOS Camera 'CS-64NIR'
Cooling camera equipped with a black silicon CMOS sensor, compatible with the near-infrared range up to 1200nm, surpassing silicon sensors!
The 'CS-64NIR' is a cooled CMOS camera equipped with a black silicon CMOS sensor, which has high sensitivity in the near-infrared region. ★Features - Equipped with black silicon, which is said to have 100 to 500 times the sensitivity of semiconductor silicon to near-infrared light at 12 bits. - Capable of capturing images up to 1200nm, which was previously impossible with silicon sensors. - Suitable for a wide range of applications, including solar panels, agricultural products, food, and semiconductor manufacturing inspections. - In addition to Peltier cooling, higher cooling is possible with a water cooling system. - Compatible with Matrox frame grabber boards and image recording interfaces. - The camera can be controlled from MATLAB, LabVIEW, VC++, VC#, and VB. - Camera driver allows direct image capture and acquisition from Excel and ImageJ. ◎Evaluation Loan Currently Available◎ We offer a free evaluation loan of the camera. Would you like to try out the performance of the cooled camera? If you are interested in trying it out, you can apply via the URL below. https://www.bitran.co.jp/ccd/contact/rental/
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basic information
【Specifications】 ★Communication Method Camera Direct USB 3.0 / PCI / BPU-30 (*1) ★Supported Wavelength Range 400nm~1200nm ★A/D Converter 12bit (4096 gradations) ★Number of Pixels 920,000 pixels ★Effective Pixel Size 1280×720 ★Sensor Light Receiving Size 7.17mm×4.03mm ★Pixel Size 5.6μm×5.6μm ★Shutter Type Rolling Shutter ★Frame Rate Up to 38.4fps ★Cooling Temperature Ambient Temperature -30~-40℃, Water Temperature -35~-40℃ ★Shutter Speed From 0.2ms to 1 second *1 BPU-30 is an optional image recording recorder.
Price information
380,000~
Price range
P3
Delivery Time
Applications/Examples of results
● Real-time fluorescence observation ● Fluorescence emission observation ● Bioluminescence imaging field ● Time-lapse photography ● Multi-emission fluorescence observation ● Medical field / IPS field ● Life sciences field ● Semiconductor / Si wafer inspection ● Transmission inspection of resin products ● Non-destructive testing field ● Solar panel EL inspection ● Security field etc...
Line up(9)
| Model number | overview |
|---|---|
| CS-60 | [Back-illuminated 2.07 Megapixel Cooling CMOS Camera] A low-cost cooling CMOS camera system that offers Full HD at 12-bit gradation 30fps. It uses a high-sensitivity back-illuminated sensor from the Sony STARVIS series. It excels in real-time fluorescence observation for security, DNA, and cells. |
| CS-61 | [2.3 Megapixel Cooling CMOS Camera] A cooling CMOS camera system with a global shutter that has very low noise. 64fps and 16x gain achieve high-quality 2.3 Megapixel real-time images. |
| CS-63 | [Back-illuminated 6.29 Megapixel Cooling CMOS Camera] Equipped with the highest level of sensitivity sensor from the Sony STARVIS series, a BSI sensor. The high-sensitivity and high-resolution back-illuminated design delivers excellent image quality even in dark environments. Its high resolution is particularly suitable for microscopy, medical engineering, and quality inspection visualization. |
| CS-65M | [Linearity and Light Measurement] Equipped with a CMOS sensor that has optimal linearity for light measurement and spectroscopy. It can be used as a replacement for CCD cameras without an anti-blooming gate (ABG). Combined with stability from cooling, it excels in inspection, discrimination, and measurement. |
| CS-66M | [Linearity and Light Measurement] Equipped with a CMOS sensor that has optimal linearity for light measurement and spectroscopy. It can be used as a replacement for CCD cameras without an anti-blooming gate (ABG). Combined with stability from cooling, it excels in inspection, discrimination, and measurement. |
| CS-66UV | [UV Range Compatible] Equipped with a back-illuminated ultra-high-sensitivity CMOS sensor with a quantum efficiency of over 90%, compatible with the UV range of 200-1100nm. Its linearity makes it ideal for light measurement and data analysis. It can detect contamination and dirt that cannot be detected by visible light. |
| CS-67 | [Low Noise, High Sensitivity 1.76 Megapixel Cooling CMOS Camera] Equipped with a high-sensitivity CMOS sensor with a pixel size of 9μm. It achieves long exposure times of 30 minutes, allowing for trajectory observation of objects through multiple exposures and HDR photography through multiple exposures. Its low noise, long exposure, and global shutter make it ideal for replacing CCDs. |
| CS-68M | [Polarized Cooling CMOS Camera] Equipped with a CMOS sensor with four-directional polarizers. It can capture polarized images in four directions (0°, 45°, 90°, 135°) in a single shot, excelling in reflection removal and visualization of object distortions. |
| CS-69 | [Low Noise, Multiple Exposure 7.1 Megapixel Cooling CMOS Camera] Equipped with a low-noise high-sensitivity CMOS sensor. It achieves long exposure times of 30 minutes, allowing for trajectory observation of objects through multiple exposures. Its low noise, long exposure, and global shutter make it widely usable for research applications and inspection purposes. |
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Company information
Our company has received high praise for our domestically produced cooling cameras, and for many years we have released various cooling cameras for astrophotography and industrial low-light imaging. A cooling camera is a camera that cools the sensor to below 0°C to reduce noise, allowing for high S/N ratio images even in dark environments or with weak light. We offer a lineup of cameras that can capture faint emissions and special wavelengths such as ultraviolet and near-infrared, which are not possible with regular cameras. Additionally, we also accept custom camera orders, so please feel free to contact us. Applications of cooling cameras: ■ Astronomical observation ■ Detection of weak light ■ Light measurement ■ Biological microscopy ■ Fluorescence microscopy imaging ■ Medical field ■ Special applications such as X-rays, ultraviolet, and near-infrared
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