MHIL150 Inverted Optical Microscope, designed specifically for the observation of cell tissue culture, featuring high contrast and resolution to highlight cell contours and internal structures, meeting the needs of laboratory daily work and fundamental research. Comes with a high-sensitivity, high-resolution microscope camera for digital imaging observation when connected to the microscope. Offers 5-20 million pixel camera options to suit various types of microscopes and imaging software. Capable of connecting to a computer for image acquisition, storage, processing, analysis, and sharing. SDK for secondary development is available, and the software is offered with lifetime free upgrades.
Inverted Optical Microscope MHIL150
Inverted Microscope Function:
1. Observe Living Cells: Inverted biological microscopes are suitable for observing living cell cultures. As the inverted objective lens allows direct observation of cells at the bottom of the culture dish, it is possible to witness the growth and division processes of the cells.
2. Observe Multilayer Tissue: An inverted biological microscope allows for the observation of the structure of multilayer tissues, as the inverted objective lens can directly view the tissue surface without the need for tissue sectioning.
3. Observation of Aquatic Life: Inverted biological microscopes are suitable for observing aquatic organisms, as the inverted objective lens allows direct observation of organisms in water without the need to remove them and place them on a microscope slide.
4. View Large-Scale Samples: Due to the lens of the inverted biological microscope being above the object, larger areas and thicker samples than those of a standard microscope can be observed.
5. Observe Sample Changes: Inverted biological microscopes are suitable for extended observation, enabling the observation of cell growth and changes, which aids in studying cellular physiological and biochemical processes.
| Inverted Biological Microscope MHIL150 Configuration Sheet
| |||||
|
Key Parameters
|
Total Magnification
|
100X~400X (Standard Configuration)
| |||
|
Mechanical Cylinder Length
|
∝
| ||||
|
Objective conjugate distance
|
∝
| ||||
|
Objective Lens
|
Wide Field of View Eyepiece
|
WF 10X
|
Field of View: Φ22mm
|
Eyepiece Interface Ф30mm
|
Collimation Distance 10mm
|
|
Telescopes for China
| |||||
|
Eyepiece Tube
|
45-degree tilt, binocular interpupillary distance adjustment range: 48~75mm, eye point height from the table surface is 400mm.
| ||||
|
Bright field objective
|
Magnification Ratio
|
Numerical Aperture
|
Working Distance (mm)
|
Cover Glass Thickness (mm)
|
Focal Length
|
|
4X
|
0.1
|
21
|
0.
|
50
| |
|
Complementary Objective Lens
|
10X
|
0.25
|
4.3
|
0.
|
20
|
|
20X
|
0.4
|
8
|
0.
|
10
| |
|
40X
|
0.6
|
3.5
|
0.
|
5
| |
|
Converter
|
Four-hole converter
| ||||
|
Focusing Mechanism
|
Coarse and fine micrometer coaxial, fine adjustment value: 2μ, coarse adjustment tension is adjustable, with locking and limiting devices, effective focusing travel 11mm
| ||||
|
Concentrating lens
|
Long working distance condenser lens, working distance 70mm, with insertion plate phase contrast device
| ||||
|
Loading Platform
|
Travel Range (Horizontal X Vertical): 112mm x 79mm, Travel Scale Detachable
| ||||
|
Petri dish tray
|
86mm (width) x 129.5mm (length), compatible with round culture dishes with diameter Ф87.5mm
| ||||
|
34mm (width) x 77.5mm (length), compatible with round culture dishes with diameter of Ф68.5mm
| |||||
|
57mm (width) x 82mm (length)
| |||||
|
Complementary Systems
|
Phase Contrast
|
Lever-action compensating condenser, center-adjustable condenser ring
| |||
|
Lighting System
|
9W LED, adjustable brightness
| ||||
|
Color Filter
|
Matte glass, blue filter film
| ||||
|
Adjustment Tools
|
Hex Key (M4, M5)
| ||||
