Cameras

Cooled Scientific

EHD MaxCam and SciCam cooled 8/12/14/16bit camerasystems with Kodak, Sony, GPIXEL or E2V sensors, front- or back-illuminated for high-end applications in microscopy, medical and scientific.
We are also official distributor of FLI cameras and filter-wheels.

MaxCam-4040BSI-TE
Cooled Scientific

EHD MaxCam-4040BSI-TE 16MP backilliminated

The EHD MaxCam-4040BSI-TE is a top-tier industrial USB3.0 camera, designed for precision imaging in demanding applications such as scientific research, semiconductor inspection, and medical imaging. Below is a summary of the key features and applications:

Key Features:

  1. Back-Illuminated sCMOS Sensor:
    • The GSENSE4040BSI sensor enhances light sensitivity and minimizes image noise, making it ideal for low-light environments. Its back-illuminated design boosts overall image quality, which is critical for scientific and industrial applications.
  2. Cooling System:
    • A two-stage Peltier cooling system reduces the sensor’s temperature by up to -40°C below ambient. This cooling minimizes thermal noise, enhancing the signal-to-noise ratio and providing clearer, high-quality images.
    • The cooling system includes a smart structure with an electric fan to accelerate heat dissipation, further preventing moisture buildup and improving the camera’s longevity.
  3. High-Resolution Imaging:
    • Equipped with 16-bit A/D conversion, the camera captures detailed, high-resolution images with low noise, enabling accurate measurements and superior image quality even in challenging environments.
  4. Data Transfer:
    • The camera uses USB 3.0 for fast and efficient data transfer, ensuring smooth, rapid image acquisition. Additionally, a CL-Interface option is available for greater industrial flexibility.
  5. Flexible Mounting:
    • The camera supports an M52 mount as standard and offers an optional F-Mount adapter, providing compatibility with various lenses and setups for versatile installation options.
  6. Software and SDK:
    • Comes with EHDView acquisition software for intuitive image management. The camera also includes a cross-platform SDK compatible with Windows, Linux, and macOS, enabling integration into diverse systems.
    • Supports control through DirectShow and TWAIN, allowing easy third-party software integration.
  7. Front Illuminated Version (Optional):
    • The camera is also available with a front-illuminated sensor for specific applications where the optical characteristics of this design may be more beneficial.
  8. GPS Module (Optional):
    • A GPS module is available for location-specific imaging tasks.

Applications:

  • Scientific Research: The high sensitivity and noise reduction make it ideal for experiments requiring detailed imaging in low-light conditions.
  • Semiconductor Inspection: The high resolution and low-noise imaging capabilities ensure precise defect detection in semiconductor materials.
  • Medical Imaging: Provides clear, high-quality images for medical diagnostics and imaging procedures.
  • Industrial Vision Systems: Perfect for high-precision inspection and quality control in industrial environments.

Conclusion:

The EHD MaxCam-4040BSI-TE camera excels in high-performance imaging tasks, combining advanced sensor technology, cooling mechanisms, and flexible software integration. Its adaptability and precise image capture capabilities make it a reliable choice for applications in science, industry, and medical fields.

Datasheet
EHD MaxCam series camera
Cooled Scientific

EHD MaxCam-455M-TE 61MP backilliminated

The EHD MaxCam-455M-TE series is an advanced industrial camera designed for high-resolution imaging and high-performance applications. Key features include:

  • Sony IMX455 Sensor: It uses a 61MP Sony IMX455 Full Frame back-illuminated CMOS sensor, available in both monochrome and color versions. This sensor provides excellent sensitivity and resolution, ideal for detailed image capture.
  • Peltier Cooling: The camera integrates two-stage Peltier cooling technology to reduce the sensor temperature to -40°C under ambient conditions. This cooling reduces thermal noise, improving the signal-to-noise ratio (SNR) and minimizing image noise, essential for capturing high-quality, low-light images.
  • Thermal Management: The camera features a smart heat dissipation structure with an electric fan, ensuring effective heat radiation and preventing moisture build-up, which is crucial for maintaining optimal performance in industrial environments.
  • Mount and Compatibility: The camera includes a M52 mount, with an optional F-Mount adapter available, making it versatile for different lenses and applications.
  • High Bit Depth Imaging: With a 16-bit A/D converter, the camera provides high-resolution and low-noise images, ensuring high-quality output even in challenging imaging conditions.
  • Data Transfer: The camera uses the USB 3.0 interface, enabling fast data transfer rates for rapid image acquisition.
  • Software and SDK: The camera comes with EHDView acquisition software and a free SDK that supports Windows, Linux, and macOS platforms, offering flexibility in terms of integration and control. It can also be controlled through DirectShow and TWAIN for further compatibility with a wide range of applications.

This camera is particularly well-suited for industrial inspection, scientific research, and applications requiring high image quality with reduced noise and distortion.

Datasheet
EHD ITR3 cooled CMOS camera
Cooled Scientific

EHD SC-ITR Series

The SC-ITR series cameras are advanced imaging devices equipped with SONY Exmor CMOS sensors, offering exceptional performance in terms of image clarity and low-light capabilities. The cameras utilize USB3.0 or GigE interfaces for high-speed data transfer, enhancing frame rates and allowing for smooth image capture and analysis.

Key features include:

  1. SONY Exmor CMOS Sensors: These sensors (IMX455, IMX492, IMX571, IMX269, IMX183, IMX294, IMX533, IMX585, IMX428, IMX432, GLUX9701BSI UV, and GLUX1605BSI UV) are known for their high-quality image output, making them ideal for applications requiring precise and clear images.
  2. Advanced Cooling System: The camera integrates a two-stage Peltier cooling system that reduces the sensor temperature to 40°C below ambient. This significantly enhances the signal-to-noise ratio (SNR) and minimizes image noise, improving image quality even in low-light conditions.
  3. Efficient Heat Management: The smart structure design ensures optimal heat dissipation, while the electric fan accelerates heat radiation, preventing moisture buildup and maintaining the camera’s performance during prolonged use.
  4. Versatile Software and SDK: The SC-ITR series supports multiple platforms such as Windows, Linux, and OSX. It comes with advanced video and image processing software (EHDView/EHDLite) and provides a variety of SDKs, including support for native C/C++, C#/VB.NET, DirectShow, and Twain Control APIs.
  5. Applications: The SC-ITR series is particularly useful in low-light environments, fluorescence microscopy, and astronomy for deep-sky imaging, where high sensitivity, reduced noise, and precise image capturing are essential.

In summary, the SC-ITR series cameras combine high-quality sensors, efficient cooling, and advanced processing software, making them suitable for demanding applications in fields such as scientific research, microscopy, and astronomy.

Datasheet
EHD CTR3 series temperature stabilized cameras
Cooled Scientific

EHD SC-CTR Series

The SC-CTR series camera is a high-performance imaging device designed for applications requiring advanced image capture and processing capabilities, such as in low-light environments, microscopy, and astronomy. Here’s a summary of its key features and specifications:

Key Features:

  1. SONY Exmor CMOS Sensor:
    • Utilizes advanced SONY Exmor CMOS sensors for high-quality image capturing.
    • Available sensors include IMX287, IMX426, IMX492, IMX183, IMX428, and IMX432, each providing different levels of sensitivity and resolution.
  2. USB 3.0 Interface:
    • USB 3.0 is used for fast data transfer, enabling high frame rates and efficient image streaming.
  3. Peltier Cooling:
    • The camera features a Peltier cooling sensor chip, which reduces the temperature of the sensor by 5-10°C below ambient temperature. This cooling helps improve the signal-to-noise ratio and minimizes image noise, enhancing image clarity in low-light conditions.
  4. Efficient Heat Radiation:
    • A smart structure design ensures effective heat dissipation, and an electric fan is used to accelerate heat radiation, preventing overheating and moisture accumulation.
  5. Advanced Image Processing:
    • The camera comes with EHDView and EHDLite, advanced video and image processing applications for detailed analysis and image manipulation.
  6. Cross-Platform SDK:
    • The camera offers software development kits (SDKs) for Windows, Linux, and OSX, supporting Native C/C++, C#/VB.NET, DirectShow, and Twain Control API. This broad support makes it versatile for various applications.

Applications:

  • Low-light environments: The camera is ideal for situations where capturing clear images under minimal light is crucial, such as night-time imaging and fluorescence microscopy.
  • Microscope Fluorescence Imaging: Perfect for high-resolution capture and analysis of fluorescence images in biological and scientific research.
  • Astronomy (Deep Sky Imaging): Designed to capture detailed astronomical images of deep space objects, where long exposure times and low light sensitivity are essential.

Available Versions:

  • USB 3.0 and GigE (Gigabit Ethernet) versions for different connectivity and use-case scenarios.

This series of cameras provides advanced imaging capabilities, particularly in scientific research fields, by leveraging cutting-edge sensor technology, efficient cooling, and powerful software support.

Datasheet
Tucsen 95V2 cooled UV camera
Cooled Scientific

Tucsen water cooled Cameras Dhyana 6060, 4040, 95V2, 400BSI, Aries 16

 

Tucsen’s water-cooled camera series, including the Dhyana 6060, Dhyana 4040, Dhyana 95V2, Dhyana 400BSI, Dhyana 9KTDI Pro-UV, Aries 6506, and Aries 6510, are designed with advanced features for demanding applications in fields such as UV (Ultraviolet) and soft X-ray imaging. These cameras come equipped with a USB 3.0 interface, ensuring fast data transfer and ease of integration into various systems. Here’s an overview of some key features and specifications of the series:

Key Features:

  • Water Cooling System: These cameras are equipped with water cooling to minimize thermal noise, which is crucial for long exposure times and high sensitivity required in scientific and industrial applications.
  • High Sensitivity for UV and Soft X-ray Imaging: These cameras are optimized for applications in the UV and soft X-ray ranges, which require high sensitivity and low noise for capturing precise, detailed images in challenging light conditions.
  • Wide Range of Trigger Options: The cameras offer versatile trigger modes to accommodate different synchronization needs in scientific experiments or industrial processes. This flexibility is critical for applications requiring high-speed data acquisition and precise timing.
  • Comprehensive Software and SDK: The cameras come with complete operating software and Software Development Kits (SDK), making integration into custom systems easier and more efficient. The SDK allows users to control camera settings, capture images, and process data programmatically.
  • Plugins for Popular Software: The cameras include plugins for widely-used scientific and image analysis software like LabView, Matlab, and Micro-Manager (ImageJ). This compatibility helps users integrate the cameras into their existing workflows and facilitates real-time image capture and analysis.

Applications:

Given the specialized nature of these cameras, they are often used in various fields such as:

  • Biotechnology and Life Sciences: For applications like microscopy in the UV range, imaging of biological samples, and experiments involving X-ray fluorescence.
  • Material Science: For detailed imaging of materials at the micro and nano scale, especially under UV or soft X-ray illumination.
  • Semiconductor Inspection: The sensitivity to UV and soft X-rays makes these cameras useful in the inspection and analysis of semiconductor components.
  • Scientific Research: These cameras are designed to handle demanding research applications requiring low-light imaging and high-resolution data capture in areas such as physics and chemistry.

Camera Models Overview:

  • Dhyana 6060 and Dhyana 4040: Likely offering high-resolution capabilities, these models are suited for detailed imaging at various wavelengths.
  • Dhyana 95V2 and Dhyana 400BSI: Likely offering advanced sensor technologies for even higher sensitivity and reduced noise, ideal for soft X-ray or UV imaging.
  • Dhyana 9KTDI Pro-UV: Specifically designed for enhanced performance in the UV range, this model could be ideal for high-end laboratory applications.
  • Aries 6506 and Aries 6510: These models might cater to more specialized or industrial needs, with specific features tailored to harsh environments or high-speed imaging.

Benefits of USB 3.0 Interface:

  • High-Speed Data Transfer: The USB 3.0 interface ensures fast image data transmission from the camera to the computer, which is essential for high-resolution imaging and real-time data processing.
  • Plug-and-Play Integration: The USB 3.0 connectivity allows for straightforward setup and integration into a variety of systems, reducing the time needed for installation and configuration.

Conclusion:

The Tucsen water-cooled camera series represents a versatile and high-performance option for those in scientific and industrial fields needing to work with challenging light ranges like UV and soft X-rays. With advanced cooling systems, robust software tools, and a range of integration options, these cameras are well-suited for precise and sensitive imaging applications.

Datasheet
FLI Kepler camera series
Cooled Scientific

FLI Kepler Cameras KL400BI, KL4040BI, KL6060BI

Kepler Series Overview:

The Kepler Series significantly enhances throughput, speed, and precision in digital imaging systems. Key features and specifications include:

  • Supported GPIXEL Sensors: Compatible with front and back-illuminated sCMOS sensors, including:
    • GSENSE400
    • GSENSE4040
    • GSENSE6060
  • USB3.0 Interface: Offers data transfer speeds of up to 3 Gbps.
  • Optional Interfaces:
    • QSFP High-Speed Fiber: Provides an additional high-speed interface for large data volumes.
    • Electromechanical Shutter: Allows remote calibration frame acquisition.
  • Cooling Options:
    • Air Cooling or Liquid Cooling (with LC connectors sold separately).
    • Deep Cooling: Up to 45°C below ambient temperature.
    • Anti-Dew Technology (ADT): Ensures proper performance in varying environmental conditions.
  • Operational Modes:
    • LDR (Low Dynamic Range) and HDR (High Dynamic Range): Adaptable for different imaging needs.
  • Small Footprint: Compact design measuring as small as 10.2 x 10.2 x 10.7 cm.
  • Fast Startup: Reaches operating temperatures within 10 minutes.
  • Time Logging: Option for Kepler Image Time Stamp for highly accurate time logging.
  • View Transmissivity Curves: Available for detailed spectral analysis.

For more information on operational modes and a detailed signal-to-noise comparison between CCDs and CMOS sensors, please refer to the additional resources or download the Kepler Overview PDF.

Datasheet