Spliced Multispectral Filters
Integrated Multispectral Filtering: Combines multiple single-spectral filters into one unit, allowing for simultaneous spectral filtering across various wavelengths.
Enhanced Spectral Imaging: Provides high spatial and spectral resolution, crucial for advanced spectral imaging applications.
Compact System Design: A single multispectral filter can replace several single-spectral filters, leading to more compact and simpler optical system designs.
High Precision Manufacturing: Utilizes precision-regulated cutting and splicing techniques to ensure the parallelism of channel stripes and prevent light leakage at splice joints.
Improved Signal-to-Noise Ratio: Precise alignment of constituent filters results in enhanced signal-to-noise ratio, improving overall performance and image quality.
Reduced Optical Aberrations: Provides better spectral isolation and higher transmission efficiencies, reducing optical aberrations.
Applications: Remote Sensing, Medical Imaging, Biomedical Research, Industrial Inspection, etc.
Spliced Multispectral Filters are advanced optical components that integrate multiple single-spectral filters into one cohesive unit using precise cutting and splicing techniques. These filters are designed to offer precise and simultaneous spectral filtering across a broad range of wavelengths, facilitating enhanced multispectral data acquisition with high spatial and spectral resolution.
Specifications:
Central Wavelength | 450-850nm |
Peak Transmission Rate | ≥92%(or customized) |
FWHM | 20-400nm |
Optical Density | ≥OD3 |
Blocking Range | 300-1100nm |
Splice Position Accuracy | 300-500µm |
Size | 20-100mm (or customized) |
Material | Optical Grade Glass |
Key Features:
- Integrated Multispectral Filtering: Combines multiple single-spectral filters into one unit, allowing for simultaneous spectral filtering across various wavelengths.
- Enhanced Spectral Imaging: Provides high spatial and spectral resolution, crucial for advanced spectral imaging applications.
- Compact System Design: A single multispectral filter can replace several single-spectral filters, leading to more compact and simpler optical system designs.
- High Precision Manufacturing: Utilizes precision-regulated cutting and splicing techniques to ensure the parallelism of channel stripes and prevent light leakage at splice joints.
- Improved Signal-to-Noise Ratio: Precise alignment of constituent filters results in enhanced signal-to-noise ratio, improving overall performance and image quality.
- Reduced Optical Aberrations: Provides better spectral isolation and higher transmission efficiencies, reducing optical aberrations.
Applications:
- Remote Sensing: Enables detailed and accurate analysis of geographic and environmental data.
- Medical Imaging: Enhances the precision and detail in medical diagnostics and research.
- Biomedical Research: Facilitates the study of biological samples with greater accuracy.
- Industrial Inspection: Improves quality control and inspection processes in manufacturing.
Kingwin Optics’ spliced multispectral filters offer unparalleled precision and performance for a wide range of applications, from remote sensing and medical imaging to biomedical research and industrial inspection. With both standard and custom options available, these filters provide the flexibility and reliability needed for advanced optical systems, pushing the boundaries of spectral imaging capabilities.