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SS10MMA-U3-CXP Scientific Camera

Product Introduction

The SS10MMA-U3-CXP features the GSPRINT4510-AVM monochrome sensor, providing 10 MP wide-format imaging capability. This model is specifically optimized for monochrome imaging performance with higher sensitivity and better signal-to-noise ratio. The wide-format design combined with global shutter technology makes it an ideal choice for industrial automated vision inspection and scientific imaging.

Key Features

  • Features GSPRINT4510-AVM high-speed global shutter sCMOS sensor
  • Wide-format resolution: 4608×2176 (10 MP)
  • Optimized monochrome imaging performance
  • Global shutter eliminates motion distortion and image smear
  • 1.44-inch wide-format sensor design
  • Spectral response range: 300–1100 nm
  • Quantum efficiency: 63% @ 550 nm (monochrome-optimized)
  • Dual-interface design: USB3.0 + CoaXPress
  • 1024 MB (8 Gb) large-capacity image buffer
  • Supports hardware FPGA 2×2 binning
  • Multiple data bit depths: 8/10/12-bit
  • High signal-to-noise ratio and sensitivity
  • Optional TEC-cooled version, cooling differential ≥ 40 °C
  • Supports multi-camera synchronized acquisition
  • Suitable for industrial vision and scientific imaging
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Product Details

Specifications
Model SS10MMA-U3-CXP
Sensor GSPRINT4510-AVM (sCMOS)
Shutter Type Global Shutter
Color Type Monochrome
Resolution 10.0 MP (4608×2176)
Sensor Size 20.736 mm × 9.792 mm
Sensor Diagonal 4/3" (22.93 mm)
Pixel Size 4.5 µm × 4.5 µm
Performance Parameters
Frame Rate TBD @ 4608×2176; TBD @ 2304×1088
Bit Depth 8/10/12-bit
Dynamic Range TBD
Sensitivity TBD
Interface Parameters
GPIO 1× opto-isolated input, 1× opto-isolated output, 2× non-isolated I/O ports
Lens Mount TBD
Data Interface USB3.0/CXP
Power Supply 19 V DC
Physical Parameters
Dimensions TBD
Weight TBD
Environmental Parameters
Operating Temperature -30 °C to +60 °C
Operating Humidity 20% to 80% (non-condensing)
Storage Temperature -40 °C to +85 °C
Storage Humidity TBD
Other Parameters
OS Support Windows/Linux
Certification TBD

Product Overview

SS10MMA-U3-CXP is a scientific-grade cooled camera featuring a GSPRINT4510-AVM (sCMOS) back-illuminated sCMOS image sensor with the following characteristics:

  • High-Resolution Imaging: 10.0 MP (4608×2176) resolution with 4.5 µm × 4.5 µm pixel size, sensor size of 20.736 mm × 9.792 mm
  • Shutter Design: Features Global Shutter design, supports monochrome imaging, suitable for fluorescence imaging, spectral analysis, gene sequencing and other scientific research scenarios
  • High-Speed Data Transfer: Supports USB3.0/CXP high-speed data interface, maximum frame rate up to TBD @ 4608×2176; TBD @ 2304×1088 , data output format includes 8/10/12-bit
  • Excellent Dynamic Range: Dynamic range up to TBD , sensitivity of TBD
  • Cooling System: Built-in cooling system reduces temperature TBD below ambient, effectively reducing dark current
  • Rich Interfaces: Supports GPIO interface, lens mount is standard TBD interface
  • Compact Design: Overall dimensions of TBD , weight approximately TBD , power supply 19 V DC
  • Full Platform Support: Supports Windows/Linux systems, bundled with ToupView software and cross-platform SDK, supports C/C++, C#, Python and other mainstream development languages

Key Performance Indicators

Frame Rate

Up to TBD @ 4608×2176; TBD @ 2304×1088

Resolution

10.0 MP (4608×2176)

Scientific Imaging Features

Back-Illuminated Sensor

Features back-illuminated sCMOS sensor with higher quantum efficiency, especially suitable for low-light imaging applications

Cooling Noise Reduction

Built-in cooling system effectively reduces dark current and noise, improving image quality and signal-to-noise ratio

High Sensitivity

Sensitivity reaches TBD , meeting the high-precision requirements of scientific imaging

Flexible Control

Supports ROI, binning, trigger control and other functions to adapt to different research needs

Why Choose SS10MMA-U3-CXP

The SS10MMA-U3-CXP camera is the ideal choice for research institutions, medical facilities, and high-end industrial applications with its excellent scientific imaging performance, stable cooling system, and rich interface configurations. It can meet various precision imaging and analysis requirements.

SS10MMA-U3-CXP Product Manual

PDF format, includes detailed technical specifications and dimensional structure

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SDK Development Kit

Supports Windows, Linux, macOS and other platforms

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3D Model Files

STEP format, for mechanical design integration

Download 3D

Frequently Asked Questions

Learn more about scientific CMOS cameras

A scientific CMOS (sCMOS) camera combines the strengths of CCD and CMOS technology, delivering ultra-low noise, high frame rate, wide dynamic range, and high quantum efficiency—ideal for scientific research and precision measurement.

  • Ultra-low read noise: sCMOS read noise approaches 1 e⁻, far outperforming traditional CCDs.
  • High frame rate: Parallel readout architecture supports 100 fps or higher.
  • Wide dynamic range: Captures bright and dark regions simultaneously with ratios up to tens of thousands to one.
  • Large field of view and high resolution: Suits high-resolution, wide-field imaging.

Most sCMOS sensors adopt a rolling shutter for high-speed line-by-line readout. Some support pseudo-global shutter via synchronized illumination for tear-free imaging.

They are used widely in biological microscopy, fluorescence imaging, fast object inspection, astronomy, X-ray imaging, cold atom research, and other precision-science scenarios.

EMCCD cameras excel in ultra-low light or long-exposure conditions.

sCMOS delivers greater value for high-resolution, high-speed imaging with low noise.

In-Depth Product Overview

sCMOS Sensor Architecture

Each pixel has its own amplifier and column ADC for parallel readout, enabling high-speed, high-SNR imaging. Dual gain channels and dual ADC designs further expand dynamic range and sensitivity.

Low Noise + Wide Dynamic Range

Typical sCMOS noise is < 2 e⁻ (30 fps) with dynamic range up to 50,000:1—far exceeding traditional CCDs.

Fast Readout & Versatility

Parallel readout supports >100 fps for capturing fast events such as cell motion, fluorescence lifetime studies, and plasma dynamics.

Low-Light Performance

Back-illuminated sCMOS sensors achieve >95% QE from UV to NIR, with low fixed-pattern noise and cooling down to −30 °C for astronomy and other needs.

Application Scenarios & System Value

Ideal for fluorescence microscopy, astronomy, cold atom research, X-ray imaging, materials inspection, and industrial microscopy—delivering high sensitivity, precision, and adaptability.

Key Application Areas

Representative sCMOS applications

Application Scenarios

sCMOS application example
Fluorescence Imaging

Low noise enables sensitive fluorescence detection
sCMOS application example
Semiconductor Inspection

High-resolution imaging supports defect inspection
sCMOS application example
Gene Sequencing

High-resolution imaging aids sequencing analysis
sCMOS application example
Astronomical Observation

Cooling enables long-exposure imaging
sCMOS application example
Spectral Analysis

Wide dynamic range supports spectral data capture
sCMOS application example
Cell Imaging

Live-cell imaging and dynamic observation

sCMOS Technology Advantages Summary

  • Ultra-low read noise (<2 e⁻)
  • High frame rate (>100 fps)
  • Wide dynamic range (50,000:1)
  • High quantum efficiency (>95%)
  • Large FOV, high resolution
  • Cooling capability (−30 °C)
  • Parallel readout architecture
  • Adaptable to diverse research needs