- All
- Scientific Imaging
- Enhanced Imaging
- Intelligent Imaging
- Space Imaging
- All
- Short-Wave Infrared (SWIR)
- Scientific CMOS (sCMOS)
- Scientific CCD (sCCD)
- All
- Low-Light / Cooled Cameras
- Microscopy Cameras
- Analytical Imaging Cameras
- Imaging Adapters
- All
- All-in-One Systems
- Autofocus Cameras
- Multi-Interface Output Cameras
- Smart Camera Accessories
- All
- 400-1700 nm Band Cameras
- 400-2500 nm Band Cameras
- 900-1700 nm Band Cameras
- CQD 300-1700 nm Band Cameras
- All
- High Sensitivity Cameras
- High Speed Cameras
- High Resolution Cameras
- NIR-II In Vivo Imaging Cameras
- All
- E2V CCD261 Cameras
- All
- Cooled CMOS Cameras
- Cooled CCD Cameras
- All
- USB3.0 CMOS Cameras
- USB2.0 CMOS Cameras
- SCMOS/SPCMOS Cameras
- USB Handheld Microscopes
- USB3.0 CCD Cameras
- USB2.0 CCD Cameras
- All
- GigE Interface Cameras
- 10GigE Interface Cameras
- CameraLink Interface Cameras
- CXP Interface Cameras
- Compact Multi-Interface Industrial Cameras
- Intelligent Control Platform Cameras
- Multi-Lens Mount Cameras
- All
- Microscopy Imaging Adapters
- Continuous Zoom Objectives
- Industrial / Machine Vision Lenses
- Microscopy Imaging Modules
- LED Light Sources
- Microscope Stands
- All
- Continuous Zoom All-in-One Systems
- All-in-One Systems with Display
- All
- Continuous Zoom Autofocus Digital Microscopes
- Canon EF Mount Autofocus Cameras
- C-Mount Autofocus Cameras
- All
- HDMI Multi-Interface Camera
- Network Multi-Interface Camera
- Modular Multi-Interface Camera
- Type-C Multi-Interface Camera
- All
- 1080P/4K Displays
- 1080P/4K Touchscreen Displays
- Continuous Zoom Objectives
- Light Source Series
ToupTek sCCD Series Scientific Cameras
High QE · Deep Cooling · Line Array Global Shutter
| Core Features | Detailed Description |
|---|---|
| High QE CCD Sensor | Features E2V CCD261 line array device with quantum efficiency up to 95%@ 800 nm, maintaining ultra-high sensitivity across 250–1050 nm broad spectral range. |
| Two-Stage TEC Deep Cooling | Sensor temperature can be reduced to 40 °C below ambient, effectively suppressing dark current and thermal noise, improving signal-to-noise ratio for low-light imaging. |
| 15 µm Large Pixels & 75 ke⁻ Full Well | Provides exceptional photon collection capability and high dynamic range, suitable for samples with both strong and weak signals. |
| 2048 × 264 Line Array Global Shutter | Eliminates motion artifacts, supports high-speed push-broom and synchronized acquisition. |
| Low Read Noise 3 e⁻ rms | Combined with deep cooling, ensures extremely weak signals from Raman, fluorescence and other sources are clearly visible. |
| High-Speed Interface & Large Buffer | USB 3.0 / GigE high-speed interface combined with 512 MB buffer, stable transmission of large data streams, supporting 8-bit / 16-bit output formats. |
| Programmable IO & Cross-Platform SDK | 1 × isolated input, 1 × isolated output, 2 × GPIO; provides C/C++/C#/Python SDK and ToupView / LabVIEW / MATLAB plugins for easy system integration. |
| Robust Compact Housing | Metal housing (100 × 80 × 79 mm) with active cooling design, operating temperature range −30 ~ +45 °C. |
Application Fields
Raman Spectroscopy & Fluorescence Spectral Detection
High QE and low noise ensure extremely weak Raman/fluorescence peaks are clearly presented.
Hyperspectral Imaging / Chemometrics
Line array global shutter + broad spectral response enables high-speed push-broom and precise quantification.
Photoluminescence & Semiconductor Defect Analysis
Large pixels and high full well capacity accommodate both bright defects and weak luminescence.
Low-Light Scientific Imaging
3 e⁻ read noise + deep cooling suitable for astronomical fine spectroscopy, environmental monitoring and other long exposure scenarios.
With high QE CCD sensors, deep TEC cooling, large pixel high full well design and USB3/GigE high-speed interfaces, ToupTek sCCD series scientific cameras provide exceptional sensitivity, extremely low noise, and precise synchronization professional imaging solutions for Raman spectroscopy, hyperspectral imaging and low-light detection applications.