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Trinocular Inverted Microscope

    R84,988.00 Ex VAT

    Trinocular Inverted Microscope

    Inverted Microscope Trinocular

    A trinocular inverted microscope is used for observing live cells, tissues, and other specimens in their culture vessels, with applications in cell culture, microbiology, and research. Its inverted design allows viewing from below, while the trinocular head enables the attachment of a camera for documentation and video recording, which is ideal for detailed imaging of living biological processes. For live cell and tissue culture

    • MOTIC AE31E:
      • Pros: Allows clear and comfortable observation of live cells in petri dishes or flasks. The trinocular head is excellent for attaching cameras for detailed imaging.
      • Cons: More expensive than basic models.
    • VELAB VE-41:
      • Pros: Features a long working distance and phase contrast for viewing cellular outlines. Excellent for monitoring cell growth and activity in real-time.
      • Cons: Not as rugged as high-end industrial models.
    • A.KR��SS Optronic MBL3200:
      • Pros: Includes a phase contrast device and a large working distance, making it perfect for observing living cells in culture and for documentation via photo or video cameras.
      • Cons: May not have all the high-end features of some research-grade microscopes.

    For quality control and industrial use

    • Kemet KMXJL17AT:
      • Pros: Built on a sturdy frame for durability, with a trinocular head for digital camera attachment. It���s ideal for examining large, bulky specimens like metallurgical samples or electronic components.
      • Cons: Less flexible for biological applications.
    • BIOBASE BK-TIM37XC:
      • Pros: Offers high-quality optics and crisp images suitable for both laboratory and industrial use. It provides excellent ergonomics and can be configured to meet specific needs.
      • Cons: May require specific configurations for specialized tasks.

    For advanced research and documentation

    • Conduct Science Trinocular Inverted Microscope:
      • Pros: Designed for advanced research, capable of capturing images and video for live-cell imaging of cells like cancer cells or studying biological processes.
      • Cons: Limited to professional research environments, and not ideal for basic applications.
    • World Precision Instruments PIMT201:
      • Pros: Optimized for advanced research applications like patch clamping and brain slice recording.
      • Cons: Not suitable for beginners or simple applications.

    Trinocular Inverted Microscope

    Specification

    Model BMI-37XC BMI-37XE
    Optical System Infinite optical system
    View Head Compensation free trinocular head, Inclined at 45��, 360�� rotatable, Interpupillary 48~75mm
    Eyepiece WF10X/22mm, P16X/20mm P10X/20mm
    Objective Infinite LWD Plan Achromatic Objective 4X N.A=0.10 WD=25.00mm
    40X N.A=0.60 WD=3.30mm     		10X N.A=0.25 WD=4.27mm
    20X N.A=0.40 WD=8.00mm
    40X N.A=0.60 WD=3.50mm
    Infinite LWD Plan Phase Objective 10X N.A=0.25 WD=8.10mm
    20X N.A=0.40 WD=4.80mm
    40X(Optional)     		10X N.A=0.25 WD=4.27mm
    20X N.A=0.40 WD=8.00mm(Optional)
    40X N.A=0.60 WD=3.50mm(Optional)
    Focusing Coaxial coarse ��� fine adjustable system, pinion and rack adjustable, fine division 0.002mm
    Stage 242*172mm, glass slide ��110mm, moving range 120*75mm Culture dish plate 1: 86*129.5mm, ��87.5mm round culture dish is adaptive
    Culture dish plate 2: 34*77.5mm, ��68.5mm round culture dish is adaptive
    Culture dish plate 3: 57*82mm, ��60mm round culture dish is adaptive
    Condenser ELWD Condenser with Iris Diaphragm ��� Filter, LWD 75mm
    Illumination Halogen lamp 12V/30W, brightness adjustable LED lamp, 9W, brightness adjustable
    Power Supply AC85~265V��� 50/60Hz
    Package Size 655*305*630mm 650*430*600mm
    Gross Weight 14kg 16kg

    Trinocular Inverted Microscope

    SKU: 62699 Category: Tag:

      Trinocular Inverted Microscope

      Inverted Microscope Trinocular

      A trinocular inverted microscope is used for observing live cells, tissues, and other specimens in their culture vessels, with applications in cell culture, microbiology, and research. Its inverted design allows viewing from below, while the trinocular head enables the attachment of a camera for documentation and video recording, which is ideal for detailed imaging of living biological processes. For live cell and tissue culture

      • MOTIC AE31E:
        • Pros: Allows clear and comfortable observation of live cells in petri dishes or flasks. The trinocular head is excellent for attaching cameras for detailed imaging.
        • Cons: More expensive than basic models.
      • VELAB VE-41:
        • Pros: Features a long working distance and phase contrast for viewing cellular outlines. Excellent for monitoring cell growth and activity in real-time.
        • Cons: Not as rugged as high-end industrial models.
      • A.KR��SS Optronic MBL3200:
        • Pros: Includes a phase contrast device and a large working distance, making it perfect for observing living cells in culture and for documentation via photo or video cameras.
        • Cons: May not have all the high-end features of some research-grade microscopes.

      For quality control and industrial use

      • Kemet KMXJL17AT:
        • Pros: Built on a sturdy frame for durability, with a trinocular head for digital camera attachment. It���s ideal for examining large, bulky specimens like metallurgical samples or electronic components.
        • Cons: Less flexible for biological applications.
      • BIOBASE BK-TIM37XC:
        • Pros: Offers high-quality optics and crisp images suitable for both laboratory and industrial use. It provides excellent ergonomics and can be configured to meet specific needs.
        • Cons: May require specific configurations for specialized tasks.

      For advanced research and documentation

      • Conduct Science Trinocular Inverted Microscope:
        • Pros: Designed for advanced research, capable of capturing images and video for live-cell imaging of cells like cancer cells or studying biological processes.
        • Cons: Limited to professional research environments, and not ideal for basic applications.
      • World Precision Instruments PIMT201:
        • Pros: Optimized for advanced research applications like patch clamping and brain slice recording.
        • Cons: Not suitable for beginners or simple applications.

      Trinocular Inverted Microscope

      Specification

      Model BMI-37XC BMI-37XE
      Optical System Infinite optical system
      View Head Compensation free trinocular head, Inclined at 45��, 360�� rotatable, Interpupillary 48~75mm
      Eyepiece WF10X/22mm, P16X/20mm P10X/20mm
      Objective Infinite LWD Plan Achromatic Objective 4X N.A=0.10 WD=25.00mm
      40X N.A=0.60 WD=3.30mm       		10X N.A=0.25 WD=4.27mm
      20X N.A=0.40 WD=8.00mm
      40X N.A=0.60 WD=3.50mm
      Infinite LWD Plan Phase Objective 10X N.A=0.25 WD=8.10mm
      20X N.A=0.40 WD=4.80mm
      40X(Optional)       		10X N.A=0.25 WD=4.27mm
      20X N.A=0.40 WD=8.00mm(Optional)
      40X N.A=0.60 WD=3.50mm(Optional)
      Focusing Coaxial coarse ��� fine adjustable system, pinion and rack adjustable, fine division 0.002mm
      Stage 242*172mm, glass slide ��110mm, moving range 120*75mm Culture dish plate 1: 86*129.5mm, ��87.5mm round culture dish is adaptive
      Culture dish plate 2: 34*77.5mm, ��68.5mm round culture dish is adaptive
      Culture dish plate 3: 57*82mm, ��60mm round culture dish is adaptive
      Condenser ELWD Condenser with Iris Diaphragm ��� Filter, LWD 75mm
      Illumination Halogen lamp 12V/30W, brightness adjustable LED lamp, 9W, brightness adjustable
      Power Supply AC85~265V��� 50/60Hz
      Package Size 655*305*630mm 650*430*600mm
      Gross Weight 14kg 16kg

      Trinocular Inverted Microscope