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Overview
Chemiluminescence Imaging System LMCIS-B400 offers 9 megapixels resolution. It offers multi-mode capability allowing easy transition between ECL detection, fluorescent analysis, and gel documentation. It features 4-layer manual sample tray for flexible and efficient operation. Its UV and white LED transilluminators support versatile visualization of nucleic acids and protein gels. Our Chemiluminescence Imaging System is suitable for life science, research, and clinical diagnostics.
Features :
High sensitivity
Intuitive software
Auto focus function
SHST capture software
SHST Analysis
Specifications :
| Camera Type | Cooled Back-illuminated CMOS |
| Resolution | 9 Megapixels |
| Pixel Size | 3.76 × 3.76 μm |
| Regulated Cooling Temperature | -30°C |
| Dynamic Range | 4.8 OD |
| Pixel Density | 16-bit (65,536 Grey Scales) |
| Lens | Electronic Lens F0.95 |
| Sample tray | 4 layers |
| Imaging Area (Gel Doc and Protein Gels) | 21 × 26cm |
| Filter Wheel | 5-Position Standard Filter Wheel |
| Dimensions | 500 × 550 × 880 mm |
| Weight | 27 Kg |
Optional Accessories :
Model No | Accessory |
LMCIS-B400-C1 | Blue LED transmission |
LMCIS-B400-C2 | Blue light source+ Filter |
LMCIS-B400-C3 | Green light source+ Filter |
LMCIS-B400-C4 | Red light source+ Filter |
LMCIS-B400-C5 | F0.8 Lens Replacement |
Applications :
Chemiluminescence Imaging System LMCIS-B400 is suitable for ECL-based chemiluminescence, fluorescent Western blot analysis, gel documentation, and SDS-PAGE protein separation, across life science, research, and clinical diagnostics.
Selection Guide :
Chemiluminescence Imaging System LMCIS-B400 is a high-performance solution designed for advanced research applications such as Western blot analysis, DNA/RNA imaging, and protein interaction studies that require sensitive detection of chemiluminescent signals. It features a cooled back-illuminated CCD or sCMOS camera, high quantum efficiency, low background noise, and a wide dynamic range suitable for capturing low-abundance targets with high clarity and precision. The system is widely used in molecular biology, biochemistry, and pharmaceutical research due to its reliability in both qualitative and quantitative analysis. With certifications such as ISO and CE, the model meets international safety and quality standards, making it suitable for regulated laboratory environments. Researchers can select this model with confidence based on their need for high sensitivity, long-exposure imaging, and compatibility with advanced imaging software for efficient data analysis.
