Description
Technical Specification Table
| Specification | Details |
|---|---|
| Model | BM-8bi (Ultra) Research Inclined Binocular Microscope |
| Head Type | Inclined Binocular Head with hard-coated prisms |
| Objectives | DIN Semi-plan Achromatic 4x, 10x, 40x, 100x (Oil) |
| Eyepieces | Extra Wide Field (EWF) 10x, 18mm paired |
| Nosepiece | Quadruple revolving, ball-bearing type |
| Focusing System | Coaxial coarse and fine focusing |
| Stage | Double-layer mechanical stage with low-positioned coaxial knobs |
| Condenser | High-quality condenser lens for all magnifications |
| Illumination | Bright LED light with solid-state power supply circuitry |
| Accessories | Standard dust cover and operating manual |
| Applications | Research, teaching, clinical laboratories |
Key Features
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Inclined binocular head with hard-coated prisms for durability and sharp imaging
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Quadruple revolving ball-bearing nosepiece for smooth objective changes
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Coaxial coarse and fine focusing system for precise image adjustment
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Double-layered mechanical stage with low-positioned coaxial knobs for comfortable slide control
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Bright LED illumination with stable solid-state power supply
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DIN-size semi-plan achromatic objectives for high-resolution imaging at all magnifications
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Extra-wide-field 10x eyepieces (paired, 18mm) for comfortable viewing
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High-quality condenser lens for uniform illumination and improved contrast
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Robust construction suitable for research and educational laboratories
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Accurate and repeatable results for tissue, cellular, and microorganism studies
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Ergonomic design for long-duration use without strain
Working Principle
The BM-8bi (Ultra) Microscope illuminates specimens using a bright LED light source, passing light through a high-quality condenser and the selected semi-plan achromatic objective. The inclined binocular head allows ergonomic observation, while the coaxial focusing system ensures smooth coarse and fine adjustments. The double-layer mechanical stage allows precise XY movement of the slide. Light from the LED passes through the optics and is magnified by the objectives, delivering clear, high-resolution images through the wide-field eyepieces. The hard-coated prisms minimize reflection losses, ensuring accurate, sharp, and consistent imaging at all magnifications.
Applications / Use Cases
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Advanced research laboratories for cellular and tissue studies
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University and college laboratories for teaching and demonstrations
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Clinical laboratories for diagnostic sample analysis
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Microbiology and biomedical research
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Pharmaceutical and biotechnology research
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Training centers for laboratory microscopy education
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Material and sample observation requiring high-resolution imaging
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