By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Coming Soon
A digital camera that records pictures using a CMOS-based image sensor chip rather than a CCD. The CMOS image sensors make it possible to integrate all necessary camera circuitry onto a single chip, which makes them ideal for cameras in smartphones and tablets.
The Global sCMOS camera market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
NEW PRODUCT LAUNCH
The new optiMOS Scientific CMOS (sCMOS) camera for fluorescence microscopy was introduced by SURREY. OptiMOS is a CCD camera alternative that can capture quick cellular dynamic events over a wider field of view without sacrificing sensitivity.
The Kinetix22 scientific CMOS camera from Teledyne’s Scientific Imaging group is stated to offer an unrivalled combination of speed, sensitivity, low noise, and resolution.
The Kinetix22 offers to support the most demanding high-speed and low noise scientific imaging applications. It is built on the success of the Kinetix, Prime 95B, and Prime BSI back-illuminated sCMOS cameras.
A hybrid camera from Canon, the EOS R5 C, has been introduced. With a Digic X image processor and a 45-megapixel full-frame CMOS imaging sensor, the Canon EOS R5 C can record up to 8K/60fps RAW cinematic films in addition to excellent still photographs.
HDR recording in the Hybrid Log Gamma (HLG) and Perceptual Quantization (PQ) formats is supported by the Canon EOS R5 C camera. Additionally, without cropping the sensor, it can record High Frame Rate (HFR) videos at up to 4K/120fps in 4:2:2 10-bit.
A high-speed complementary metal-oxide-semiconductor (sCMOS) camera for demanding applications in the biological sciences, astronomy, and microscopy is called the FLIR Oryx 10GigE. The FLIR Oryx 10GigE is able to capture high-quality photos at quick frame rates because of its 4.2 megapixel resolution and high-speed data transfer rate of up to 10 gigabits per second.
Due to its back-illuminated sensor architecture and cutting-edge noise reduction technology, the FLIR Oryx 10GigE is able to give great sensitivity with low noise, which is one of its primary benefits. For low-light imaging applications in disciplines like neurology, cell biology, and materials research, this makes it the best option.
Compatibility with a variety of programs frequently used in scientific imaging, such as MATLAB, LabVIEW, and Micro-Manager, is another crucial aspect of the FLIR Oryx 10GigE. Because of this, it is simple to include it in current laboratory sets and procedures.
For high-speed imaging applications in the life sciences, astronomy, and microscopy, the FLIR Oryx 10GigE provides a robust and adaptable solution. Its high sensitivity, quick data transfer, and compatibility with widely used software make it a desirable option for academics and scientists who want to quickly and accurately collect high-quality photos.
A special panoramic sCMOS camera called the FLIR Ladybug5+ combines six 1.6 MP sensors to produce a continuous 360-degree image. This camera is intended for use in immersive and comprehensive imaging-demanding applications in robotics, virtual reality, and other fields.
High quality and little distortion image capabilities are one of the Ladybug5+’s standout qualities. The six sensors are precisely calibrated and positioned to provide a smooth image with no distortion, resulting in an accurate and detailed panoramic vision.
The Ladybug5+’s small size and simplicity of usage are further benefits. Due to its tiny size and low weight, the camera is perfect for use in robots and other applications with restricted space.
It is simple to incorporate the camera into current processes because it is compatible with a variety of software programs. The development of virtual reality content, 3D mapping, and monitoring are just a few of the possible uses for the Ladybug5+. It may also be utilized by robots for object detection and navigation. Overall, the FLIR Ladybug5+ is a strong and flexible instrument for applications involving immersive imaging.
The 15-megapixel, 4.25-micron-pixel Teledyne Photometrics Iris 15 is a high-performance sCMOS camera. It is intended for a variety of scientific imaging applications, such as microscopy, high-content screening, and astronomy.
The Iris 15 is the best option for applications that call for high-speed, high-quality imaging since it has quick frame rates, less noise, and a large dynamic range. Additionally, it has a USB 3.0 interface for quick data transfer and an integrated FPGA for real-time image processing and analysis.
The Iris 15 also includes a number of cutting-edge technologies, such as picture stitching, multi-point focusing, and area of interest (ROI) reading. These capabilities make it possible for users to accurately and simply record high-quality photos, making it a flexible and effective instrument for scientific study.
