NIB900 series inverted microscope configuration table
NIS60 Infinity Optical System
·SW10X/22 ·SW10X/25 ·EW12.5X/17.5 ·WF15X/16 ·WF20X/12
·Hinge-type trinocular (with Bertrand lens), 45 degree inclination, interpupillary distance 47-78mm
N-iPLFN PH flat field semi-chromatic phase contrast objective /N-iPLFN flat field semi-chromatic objective
Six-hole objective converter with DIC slot
Long working distance turntable condenser, NA 0.55, WD=26mm, 6 components can be mounted, phase contrast, DIC, bright field
· KÖlher illumination, 12V/100W Halogen Lamps ·LED illumination
100W fluorescent mercury lamp
Coaxial coarse micro-movement up-down mechanism. Travel stroke 9mm (upward 7mm, downward 2mm), coarse stroke 2mm/circle, fine stroke 0.2mm/circle.
Three-layer mechanical mobile platform, moving range 130*85mm, flexible handle, different size of small worktables can be installed on the top of platform according to the requirements.
Terasaki pallets, φ38mm, φ54mm pallets
Magnification has 1X, 1.5X
Turntable port switching (left port / right port / visual observation),Spectral ratio: left/eyepiece=100/0; right/visual=80/20; optional/visual=0/100
Brightfield, phase contrast, DIC
Brightfield, phase contrast, DIC, fluorescence
The epi-fluorescence filter block turntable (with main body) and high-performance filter can be configured with up to six epi-fluorescence filter blocks.
With expanded space to meet extensibility research needs
Push your life science research forward
Easy to operate
Efficient and comfortable observation
Easy to use, powerful function, flexible collocation, and cost-effective; NEXCOPE uses a scientific-grade optical system, the NIS60 optical system, in scientific research-grade inverted microscopes to provide a reliable guarantee for optical quality
System condenser meets various test needs
Brightfield, phase contrast, and DIC, multiple observation methods provide you with the maximum selection space for your experiment.
Convenient illumination control
The NIB900 scientific research inverted microscope control buttons are well arranged, easy to use, and simplify the workflow. Such as the trans-illumination switch, epi-fluorescence illumination shutter control buttons are arranged on the right side of the fuselage.
The middle magnification can be switched
With smooth turntable operation, the intermediate magnification can be quickly switched between 1 and 1.5 times.
Two models can be chosen
Based on the high-quality transmission of the Halogen lamp and reflection fluorescence models
Two models are available to meet your different needs: trans-illumination type NIB900 and reflective fluorescence illumination type NIB900-FL. The illumination of the trans-illumination type is from high-brightness halogen lamps (optional LED illumination) to ensure uniform brightness throughout the field of view. The reflective fluorescent high-pressure mercury lamp has a wide illumination wavelength to ensure that each band can be excited efficiently.
INVERTED RESEARCH MICROSCOPE
Modular design provides a variety of flexible imaging methods
Unique NIS60 infinity optical system, Combined with semi-chromatic fluorescent objectives, imaging problems such as field curvature, chromatic aberration, spherical aberration, coma, etc., can be effectively eliminated. Therefore the image is brighter and all magnifications can be obtained Super-high resolution and flatness.
Observation of phase difference
Phase contrast is an optical contrast technology using a phase contrast objective and a concentrator ring. The high-efficiency halogen lamp provides a bright light source for the system, resulting in high resolution images even at high magnifications.
Differential interference (DIC)
Differential interference is a cost-effective optical technology that does not require expensive optics. Emboss contrast uses only a brightfield objective and two phase contrast adjustment sliders; for thicker samples, such as induced pluripotent stem cells, differential interference can provide a pseudo-three-dimensional glare-free image, however halo always occurs when using traditional phase contrast observation method. In addition, differential interference can use glass dishes, which is a highly applicable observation technology.
INVERTED RESEARCH MICROSCOPE
Providing you with a reliable, clear and high-resolution fluorescence image
The use of the latest advanced sub-corrugated eliminating coating technology,enables higher fluorescence transmittance,sharper cut-off and higher detection efficiency.
Fluorescent observation is more comfortable
The ultra-high performance colour filters were applied on all fluorescent colour filter components. Fluorescent illumination pillars can be fitted with six color filter sets that allows multiple stained specimens imaged simultaneously. High-sensitivity fluorescence enables bright and high-contrast imaging. Leading coating technology also reduces scattered light and auto-fluorescence, ensuring a higher S/N ratio
A variety of fluorescent dyes were applied for clear observation
Fluorescent excitation module turntable: easier and more flexible
Using the multi-function six-station turntable structure, it can be easily removed from the host, so as to easily replace various fluorescent excitation modules.
Easy to operate, NIB900 diaphragm slider
Reflective field diaphragms, aperture diaphragms, and optical filter inserted plate, three different types of sliders indicate the versatility of NIB900 in living cell research. When using diaphragms aperture and fluorescence filter optical filter inserted plate, the optimal fluorescence intensity can be adjusted according to the selected fluorescence module and objectives.
Fluorescent mercury lamp power box
The intelligent fluorescent mercury lamp power box adopts air-cooled design with low noise and stable voltage. The unique automatic memory usage time and shutdown duration can ensure the mercury lamp is fully cooled, protect the life of the mercury lamp, and improve its mechanical performance.
Create personal microscopic system
Observation of head has Bertrand lens
The built-in Bertrand lens device can be used to observe the pupil of the objectives when moving into the optical path and act as a centering telescope.
Inclined transmission illumination colum
Tilt-type transmission illumination columns ensure that users have a larger working space for easy sample replacement.
Loading and unloading mechanical carrier stage
The high-performance three-layer mechanical carrier stage is flexible in operation, accurate in positioning, and equipped with a variety of platform mounting brackets, which can accommodate various culture flasks and cell culture vessels.
Multiterminal optical outlet
The left side of the microscope is equipped with an optical patch output selection turntable that facilitates the distribution of optical images to different ports, providing extended space for more optical image applications.
Equipped with Terasaki pallets, 96-well plates, Ø38mm, Ø54mm petri dish trays to meet a variety of test needs.
Provide 0.4X, 0.5X, 1X C type interface for users to choose, used to connect cameras, WebCam and other image acquisition systems.
N-iPLFN PH flat field semi-apochromatic objective
Multi-layer coating technology, semi-apochromatic objectives can compensate spherical aberration and color aberration from ultraviolet to near infrared. The 20X and 40X semi-apochromatic objectives incorporate a correction ring that corrects the coverage aberration caused by non-standard coverslip thickness. The highly sensitive fluorescent performance ensures the sharpness, clarity and color reproduction of the captured image.
NOMIS Basic Microscopic Observation New Revolution
Today, the research work environment requires tools that can adapt to each person's different workflows. The NOMIS Basic microscope image analysis software allows seamless integration between acquisition, processing, measurement, and microscope. NOMIS basic can simultaneously provide observation tools for today's popular operating systems.
In cell observation and slice observation, measurement functions need to be used. To determine cell size, cell gap, synapse length and other data. NOMIS Basic provides measurements for distances, angles,rectangles, circles, ellipses, and more.
By collecting images and importing images in real time, NOMIS Basic can quickly stitch images together to form a large-size, high-resolution image.
You can customize cell count requirements, automatically count number and shape information of cell, including: size, location, volume, perimeter, brightness, etc. And all data including processed images can be saved as EXCEL tables
Fluorescence image combination
By acquiring or importing images of different fluorescence channels, the user can obtain fluorescent synthesized images. For each channel's image, the X- and Y-direction displacements can be adjusted to achieve fine-tuning.
Fusion of the depth of field
The user can capture multiple images of different focal lengths by fine-tuning the focus and synthesize one image to output. It is suitable for specimens that require a certain depth of field or poorly prepared slices.