EXCCD Series
Product Introduction
The EXCCD series features C-mount USB2.0 microscopy CCD cameras utilizing Sony ExView HAD CCD sensors (model-dependent) that convert more near-infrared light into effective signals, extending sensitivity from visible light to near-infrared wavelengths while reducing readout noise, making them suitable for low-light and fluorescence applications requiring high sensitivity. The cameras employ FPGA precision timing control supporting long exposures up to approximately 3600 s, facilitating capture of extremely weak signals. Stable data transmission is achieved through USB2.0 connectivity, with included ToupView software and cross-platform SDK support (Windows/Linux/macOS/Android) for convenient system integration and secondary development.
Product Features
- Sensor: Sony ExView HAD CCD (model-dependent), enhanced near-infrared response for more sensitive low-light imaging
- C-mount standard lens interface for easy integration with microscopy/industrial optical systems
- FPGA precision control supporting long exposures up to approximately 3600 s, suitable for weak fluorescence/low-illumination imaging
- CCD global exposure imaging (Global Exposure), suppressing motion distortion and rolling shutter effects
- USB2.0 data link (480 Mbit/s), plug-and-play with stable transmission
- Ultra-Fine color engine: color correction, white balance, Gamma/contrast/brightness optimization (model-dependent)
- Integrated aluminum alloy CNC housing, robust and durable with enhanced heat dissipation and electromagnetic shielding
- Software and ecosystem: includes ToupView; provides multi-platform SDK for Windows/Linux/macOS/Android (compatible with DirectShow/TWAIN)
- Typical applications: brightfield/darkfield, low-light and fluorescence microscopy, materials/semiconductor inspection, scientific recording, etc.
Product Models
Select the EXCCD Series that fits your application requirements
| Product Model | Effective Pixels | Sensor Size | Shutter Type | Frame Rate (FPS) | Sensor Type | Data Interface | Color | Actions |
|---|---|---|---|---|---|---|---|---|
| EXCCD01400KPA | 1.4MP (1360×1024) |
8.77 mm × 6.60 mm
2/3" (TBD)
|
Rolling Shutter |
15 fps@1360×1024
|
ICX285AQ CCD (C) | USB2.0 | Color | View Details |
| EXCCD01400KMA | 1.4MP (1360×1024) |
8.77 mm × 6.60 mm
2/3" (TBD)
|
Rolling Shutter |
15 fps@1360×1024
|
ICX285AL CCD (M) | USB2.0 | Monochrome | View Details |
| EXCCD00440KMA | 0.44MP (748×578) |
6.43 mm × 4.80 mm
1/2" (TBD)
|
Rolling Shutter |
46 fps@748×578
|
ICX829AL CCD (M) | USB2.0 | Monochrome | View Details |
| EXCCD00300KMA | 0.3MP (640×480) |
3.58 mm × 2.69 mm
1/4" (TBD)
|
Rolling Shutter |
72 fps@640×480
|
ICX618AL CCD (M) | USB2.0 | Monochrome | View Details |
Product Overview
Professional features of EXCCD series microscopy imaging cameras
The EXCCD series is a high-sensitivity USB 2.0 C-mount CCD camera launched by Tucsen, equipped with Sony ExView HAD CCD sensors. Leveraging ExView technology, this camera series can convert unconverted near-infrared light into image signals, extending the spectral response range from visible light to near-infrared, dramatically improving sensitivity and imaging quality in low-light and weak fluorescence environments.
Core Features
Sony ExView HAD CCD
Spectral extension to near-infrared, enhanced low-light imaging sensitivity
USB 2.0 High-Speed Interface
Fast protocol ensures stable transmission of high-resolution images
FPGA Precision Exposure Control
Supports up to 1-hour exposure, capturing extremely weak light details
Ultra-Fine Color Engine
Precise reproduction of true colors and image details
Performance Parameter Highlights
Resolution Range
0.3 - 1.4 MP
Pixel optionsSpectral Response
380 - 1000 nm
Visible to near-infraredFrame Rate Performance
Up to 72 fps
640×480 resolutionExposure Time
0.06 ms - 1 hour
Ultra-wide rangeIn-Depth Product Introduction
ExView HAD CCD Sensor Technology
Equipped with Sony ExView HAD CCD sensors, this is advanced CCD technology specifically optimized for low-light imaging. ExView technology, through special sensor structural design, extends the spectral response range from traditional visible light (380-700 nm) to the near-infrared region (approximately 380-1000 nm). This extended spectral response significantly improves sensor imaging sensitivity in dark field and low-light environments, while reducing noise generated by scattered light through optimized photoelectric conversion mechanisms. This provides significant value for low-light applications such as fluorescence microscopy and dark field observation.
Optimized USB 2.0 Data Transfer
Utilizes fast USB 2.0 protocol with optimized data transfer algorithms to ensure stable transmission of high-resolution images and video. Typical models achieve 15 fps at 1360×1024 resolution and up to 72 fps at 640×480 resolution, fully meeting real-time preview and dynamic observation requirements. Built-in data buffering and transfer optimization technology effectively prevent frame drops, ensuring stability during long-term acquisition. The widespread compatibility of the USB 2.0 interface also ensures plug-and-play experience across various computer systems.
FPGA Long-Exposure Control Technology
Built-in high-performance FPGA chip provides precise exposure time control, supporting an ultra-wide exposure range from 0.06 ms to 1 hour. This precise long-exposure capability is particularly suitable for capturing details of extremely weak light or fluorescent samples. FPGA control not only ensures exposure time precision but also eliminates drift and noise accumulation issues in long exposures through hardware-level timing control. This provides ideal solutions for research applications requiring longer integration times, such as bioluminescence and chemiluminescence.
Precise Ultra-Fine Color Processing
Built-in Ultra-Fine color processing engine employs advanced color algorithms for precise reproduction of true colors and image details. Supports 8-bit and 12-bit data output, with 12-bit mode providing 4096 gray levels, effectively extending dynamic range. Supports ROI region white balance and manual Temp-Tint adjustment, adapting to complex and variable lighting environments. The color engine is optimized for ExView sensor wide-spectrum characteristics, ensuring accurate imaging from visible light to near-infrared wavelengths.
High-Reliability Mechanical Design
Features precision CNC-machined aluminum alloy housing with robust and compact construction. Natural heat dissipation design completely eliminates fan noise and vibration effects on imaging, which is particularly important for long exposures and high-magnification microscopy imaging. No mechanical moving parts design greatly improves system reliability and reduces maintenance requirements. Standard C-mount design ensures excellent compatibility with various microscope systems. This industrial-grade design philosophy enables the camera to operate stably for extended periods in various environments.
Applications
EXCCD series applications across various microscopy imaging fields
EXCCD Series Core Advantages
Wide Spectral Response
380 - 1000 nm range
High Sensitivity
ExView technology enhanced
Ultra-Long Exposure
Up to 1 hour
FPGA Control
Precise timing management
12-Bit Depth
High dynamic range
USB 2.0 Interface
Plug-and-play
Robust Housing
CNC aluminum alloy
Cross-Platform SDK
Easy system integration