Basic Scientific Research Inverted Microscope

KFMNIB910 is a scientific research inverted microscope designed for advanced life science research to meet your various needs. It is an omnipotent microscope, which can observe bright field, phase contrast, polarized light, DIC, fluorescence and other observation modes. Even the cofocal, super resolution, and so on needed for cutting-edge life science research can be achieved with this microscope. Fully consider the user’s operation habits, ergonomic design greatly reduce the mechanical fatigue caused by long time observation work.

Bright Field

Modular design provides a variety of flexible imaging method

Bright Field Observation

Unique NIS infinite optical system, combined with the semi-apochromatic fluorescent objectives, effectively eliminates imaging problems such as curvature of field, chromatic aberration, spherical aberration, coma and other imaging problems. The image is brighter and all magnifications are available in higher super resolution and flatness.

Phase Contrast Observation

Phase contrast is an optical contrast technique that uses a phase contrast objective and a concentrating ring. High-efficiency halogen lamps provide a bright light source for the system and clear images even at high magnifications.

DCO

DIC is a cost-effective optical technology that does not require expensive optics. The embossing contrast uses only the bright field objective and two phase contrast adjustment sliders; For thicker samples, such as induced pluripotent stem cells, DIC provides a pseudo three-dimensional glare-free image. Halo is usually seen with traditional phase contrast observations. In addition, DIC can use glass culture dishes, which is a highly applicable observation technique.

Clear Observation with a Variety of Fluorescent Dyes

Fluorescent excitation module rotary type: more relaxed, more flexible

Multi-function six-station rotating, disk structure, easy to take out from the host, convenient to replace all kinds of fluorescent excitation module.

Simple and fast operation,KFMNIB910 diaphragm slider

Three different types of light bar sliders, reflecting field stop, aperture stop and filter plate, demonstrate NIB900’s versatility in living cell research. In combination with the aperture aperture and the fluorescent filter plate, the optimal fluorescence intensity can be adjusted according to the selected fluorescent module and objective.

Power Supply for HBO Mercury Lamp

The power supply for HBO mercury lamp is designed to be air-cooled with low noise and stable voltage. The unique automatic memory usage time and shutdown time can ensure the maximum cooling of the mercury lamp, protect the life of the mercury lamp and improve the mechanical performance.

Help for your life Science research to move forward

Viewing Head with Bertrand Lens

The built-in Bertrand lens device, in moving into the light path, can be used to observe the objective pupil in the same way as the centring telescope.

Tiltable Illimination Frame

The tilting illumination frame ensures a large working space for the user to change samples.

Removable mechanical Stage

The high-performance three-layer mechanical stage is flexible and accurate, and is equipped with a variety of stage mounting arms to accommodate many kinds of culture bottles and cell petri dishes.

Various Image Output Ports

An optical path output selection turnplate is located on the left side of the microscope to facilitate the distribution of optical images to different ports, providing additional room for more optical image applications.

Convenient Operation

Microscope Service status Display

In order to facilitate the use of the microscope in the darkroom, a 4.3-inch touch display screen can be added to the front panel of the microscope (optional). Display the microscope using state and adjust the microscope, including converter magnification screen display, multi-functional turntable band display, brightness screen display and memory, touch to adjust brightness, Magnification display of the touch screen and multi-functional turntable band display setting function.

Convenient lighting Control

The NIB910 scientific inverted microscope control button layout is reasonable, easy to operate, and simplifies the work flow. For example, the transmission lighting switch and drop fluorescent lighting light switch control button are arranged on the right side of the fuselage.

System Condenser meets various test requirement

Bright field, phase contrast, and DIC variety of observation are necessary for your experiment to provide maximum choice space.

Intermediate Magnification can be switched

Through smooth turntable operation, the intermediate magnification can achieve 1–1.5 times faster switching.

Accessories and NOMIS Basic

KFMNIB910-System Diagram

	Technical Specifications
Sl	Model	Optike KFMNIB910
1	Optical System	NIS Infinite Optical System
2	Eyepiece	SW10x/25, SW10x/22, EW12.5x/17.5, WF15x/16, WF20x/12
3	Viewing Head	Seidentopf Trinocular Head(build-in bertrand lens),inclined at 45° Interpupilary Distance 47-78mm
4	Objective	N-iPLEN PH Plan S-APO Phase Contrast Objective 4X、10X、20 X、40X、60X N-iPLEN Plan S-APO Objective 10X、20 X、40X、60X
5	Nosepiece	Sextuple Nosepiece with DIC Prism Slot
6	Condenser	Long Working Distance Turret Condenser,NA0.55，WD=26mm, with 6 Modules for Phase Contrast, DIC and Bright field
7	Illumination	Kohler illumination 12V100W halogen lamp
8	Focusing system	Coaxial Coarse and Fine Adjustment, Moving Rang 9mm (up 2mm, down 7mm),Coarse Stroke 2mm per Rotation, Fine Stroke 0.2mm per Rotation
9	Stage	3 Layers Mechanical Stage, Moving Range 130x85mm,Flexible Knob, available for Different Size Small Stage.
10	Auxillary Stage	Terasaki plate, φ38mm,φ54mm plate, General support plate, 96-hole plate tray
11	Intermediate magnification	Multiplier 1X, 1.5x
11	Image Output	Port switch turntable (left side port / right side port / visual observation), Spectral ratio: left side/eyepiece = 100/0; Right side/eyepiece =80/20; optional/ visual=0/100
11	Observation Method	Bright field, Phase contrast, DIC