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Overview
Chemiluminescence Imaging System LMCIS-B401 is equipped with -30°C cooling temperature. Its cooled back-illuminated CMOS camera with 6-megapixel resolution ensures clear image capture. It includes auto focus function ensuring reliable visualization without manual adjustments. Its 4-layer manual sample tray allows flexible placement and efficient handling of multiple samples. Our Chemiluminescence Imaging System is suitable for chemiluminescent detection, western blot, gel documentation.
Features :
Multi-mode imaging
High sensitivity
UV Transillumination
White LED Transillumination
SHST capture software
SHST Analysis
Specifications :
| Camera Type | Cooled Back-illuminated CMOS |
| Resolution | 6 Megapixels |
| Pixel Size | 4.54 × 4.54 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 × 26 cm |
| Filter Wheel | 5-Position Standard Filter Wheel |
| Dimensions | 500 × 550 × 880 mm |
| Weight | 27 Kg |
Optional Accessories :
Model No | Accessory |
LMCIS-B401-C1 | Blue LED transmission |
LMCIS-B401-C2 | Blue light source+ Filter |
LMCIS-B401-C3 | Green light source+ Filter |
LMCIS-B401-C4 | Red light source+ Filter |
LMCIS-B401-C5 | F0.8 Lens Replacement |
Applications :
Chemiluminescence Imaging System LMCIS-B401 is suitable for chemiluminescent detection, western blot, nucleic acid gel visualization, gel documentation and protein electrophoresis like SDS-PAGE, in biomedical and molecular biology laboratories.
Selection Guide :
Chemiluminescence Imaging System LMCIS-B401 is a high-performance imaging solution designed for advanced research applications such as Western blotting, protein quantification, and nucleic acid detection. It is widely used in molecular biology, proteomics, and biomedical studies where high sensitivity and accuracy are critical. Featuring a cooled CCD or sCMOS camera, it ensures low background noise and excellent detection of low-intensity chemiluminescent signals. The system supports multiple imaging modes, including chemiluminescence, fluorescence, and visible light, providing versatility for various experimental needs. With ISO and CE certifications, it meets international standards for quality and safety, making it suitable for both academic research and pharmaceutical laboratories operating under GLP/GMP conditions. This model is ideal for researchers seeking a reliable, sensitive, and multi-functional imaging platform that aligns with rigorous scientific and regulatory requirements.