0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder

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SKU:
MZ02010173
Condition:
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Warranty:
5/1 Years
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
  • 0.35X-2.25X Industrial Inspection Video Zoom Microscope, Pneumatic Arm Clamp Stand + Monitor Holder
Instruction Manual
MZ0201 Video Zoom Lens Body Instruction Manual-English.doc

Quick Overview
Infinite. Total Magnification: 0.35-2.25X. 1X Semi Plan Achromatic Objective. Standard Coupler: 0.5X. Zoom Ratio: 1:6.4. Body Mounting Size for Stand: Dia. 39mm. Magnification Detent : 0.5X per pre-set stop. Dual Pnenmatic Arm. Total Arm Length: 500mm.

MZ02010173 Video Zoom Microscope
Optical System Specifications
Optical SystemInfinite
Tube Lens Focal Length180mm
System Optical Magnification0.35-2.25X
Expandable System Optical Magnification (Optional Parts Required)0.07-18X
Total Magnification0.35-2.25X
Standard Objective1X Semi Plan Achromatic Objective
Standard Coupler0.5X
System Field of View Dia. 2.7-17.6mm
Expandable System Field of View Dia. 0.3-77mm
System Working Distance97.3mm
Expandable System Working Distance46.3-331.5mm
Monocular Video Microscope Objective
1X Objective
Objective Optical SystemInfinite
Objective Optical Magnification1X
Objective TypeSemi-Plan Achromatic Objective
Objective Working Distance97.3mm
Objective Screw ThreadM24x0.75mm
Objective Outer Diameter Dia. 30mm
Barlow LensYes
Surface TreatmentElectroplating Black
MaterialMetal
ColorBlack
Net Weight0.02kg (0.04lbs)
Applied FieldFor MZ0201 Series Microscope
Zoom Lens Body
0.7-4.5X Video Zoom Body with Detents
Body Optical SystemInfinite
Body Magnification0.7-4.5X
Zoom Range0.7-4.5X
Zoom Ratio1:6.4
Zoom Operating ModeWith the Nosepiece
Body Mounting Size for Stand Dia. 39mm
Magnification Detent 0.5X per pre-set stop
Body Mount Type for CouplerThread Screw
Body Mount Size for Coupler Dia. 24x0.75mm
Nosepiece Adapter Size for Ring Light Dia. 34mm
Objective Screw ThreadM24x0.75mm
Surface TreatmentElectroplating Black
MaterialMetal
ColorBlack
Net Weight0.34kg (0.75lbs)
Flexible Arm
39mm/Monitor Holder Dual Pneumatic Arm
Stand TypeDual Pnenmatic Arm
Holder Adapter Type Dia. 39mm Scope Holder, Monitor Holder
Total Arm Length500mm
Mounting Hole on the Top of Horizontal ArmM4 54x88mm
Horizontal Rotation Angle360° Degree Rotatable
Horizontal Arm Travel Mode on Horizontal DirectionManual
Horizontal Arm Travel Mode on Z DirectionManual
Base TypeClamp
Base ShapeFan-Shape
Stand Throat Depth129mm
Base Dimensions170x115x25mm
Focus ModeManual
Focus Distance50mm
Coarse Focus Distance per Rotation22mm
Adapter Mounting Size of Monitor75x75mm 100x100mm M4
Clamp Opening Size0-95mm
MaterialMetal
ColorBlack
Net Weight4.45kg (9.81lbs)
Coupler/C-mount Adapter
0.5X Coupler
Coupler Mount Type for BodyThread Screw
Coupler Mount Size for Body Dia. 24x0.75mm
Adjustable CouplerAdjustable
Coupler for Microscope TypeVideo Zoom Lens Compatible
Coupler Magnification0.5X
For Camera Sensor SizeUnder 1/3 in.
C/CS-Mount CouplerC-Mount
Surface TreatmentElectroplating Black
MaterialMetal
ColorBlack
Applied FieldFor MZ0201 Series Video Zoom Body
Series
MZ0201MZ02010173

 


Technical Info

Instructions
Video Zoom LensClose Λ
Video zoom lens, refers to microscope that has only one set of imaging optical paths. It can be considered as a set of dual optical path stereo microscopes. The magnification and multiple range of video zoom lens are usually the same as those of a stereo microscope, but because the objective lens is one, its optical imaging is flat, not stereoscopic.

It has been observed that as most of the parametric features are close to stereo microscopes, video zoom lens is then classified as stereo microscope. In fact, it lacks the most important "stereoscopic" imaging features. Compared with other compound microscopes such as biological metallurgical microscopes, the total optical magnification of video zoom lens is generally below 40X, which is the coverage of low magnification range that these microscopes do not have.

Most of the video continuous zoom lens is to observe the electronic image, not through the eyepiece, but through the camera.
Video zoom lens can have relatively more objective lens and photographic eyepiece multiples for selection. At the same time, video zoom lens can also be designed as parallel light so as to add even more configuration accessories, such as observation eyepieces, aperture diaphragms, coaxial illumination light sources, reticles, and nosepieces that can change the viewing angle and direction, etc.
Regarding accessories of video zoom lens such as the stands and light source etc., generally, all accessories of stereo microscope can be used. Therefore, video zoom lens combination is flexible, compact, with strong adaptability and low cost, suitable for use in industry, especially extensively used in the electronics industry.
InfiniteClose Λ
Microscopes and components have two types of optical path design structures.
One type is finite optical structural design, in which light passing through the objective lens is directed at the intermediate image plane (located in the front focal plane of the eyepiece) and converges at that point. The finite structure is an integrated design, with a compact structure, and it is a kind of economical microscope.
Another type is infinite optical structural design, in which the light between the tube lens after passing the objective lens becomes "parallel light". Within this distance, various kinds of optical components necessary such as beam splitters or optical filters call be added, and at the same time, this kind of design has better imaging results. As the design is modular, it is also called modular microscope. The modular structure facilitates the addition of different imaging and lighting accessories in the middle of the system as required.
The main components of infinite and finite, especially objective lens, are usually not interchangeable for use, and even if they can be imaged, the image quality will also have some defects.

The separative two-objective lens structure of the dual-light path of stereo microscope (SZ/FS microscope) is also known as Greenough.
Parallel optical microscope uses a parallel structure (PZ microscope), which is different from the separative two-object lens structure, and because its objective lens is one and the same, it is therefore also known as the CMO common main objective.
Tube Lens Focal LengthClose Λ
The tube lens focal length is the focal length from the tube lens to the intermediate image plane of the design of infinite microscope, and its typical ranging is from 160 to 200 mm, depending on different manufacturers.
System Optical MagnificationClose Λ
The magnification of the objective lens refers to the lateral magnification, it is the ratio of the image to the real size after the original image is magnified by the instrument. This multiple refers to the length or width of the magnified object.
System optical magnification is the product of the eyepiece and the objective lens (objective lens zoom set) of the optical imaging part within the system.
Optical magnification = eyepiece multiple X objective lens/objective lens set

The maximum optical magnification of the microscope depends on the wavelength of the light to which the object is illuminated. The size of the object that can be observed must be greater than the wavelength of the light. Otherwise, the light cannot be reflected or transmitted, or recognized by the human eye. The shortest wavelength of ultraviolet light is 0.2 microns, so the resolution of the optical microscope in the visible range does not exceed 0.2 microns, or 200 nanometers. This size is converted to the magnification of the microscope, and it is the optical magnification of 2000X. Usually, the compound microscope can achieve 100X objective lens, the eyepiece is 20X, and the magnification can reach 2000X. If it is bigger, it will be called "invalid magnification", that is, the image is large, but the resolution is no longer increased, and no more details and information can be seen.
Total MagnificationClose Λ
Total magnification is the magnification of the observed object finally obtained by the instrument. This magnification is often the product of the optical magnification and the electronic magnification.
When it is only optically magnified, the total magnification will be the optical magnification.

Total magnification = optical magnification X electronic magnification
Total magnification = (objective X photo eyepiece) X (display size / camera sensor target )
System Field of ViewClose Λ
Field of View, is also called FOV.
The field of view, or FOV, refers to the size of the object plane (i.e., the plane of the point of the observed object perpendicular to the optical axis), or of its conjugate plane (i.e., object to primary image distance), represented by a line value.
System field of view is the size of the actual diameter of the image of the terminal display device of the instrument, such as the size of the image in the eyepiece or in the display.

Field of view number refers to the diameter of the field diaphragm of the objective lens, or the diameter of the image plane formed by the field diaphragm.
Field of view number of objective lens = field of view number of eyepiece / (objective magnification / mechanical tube length)

Large field of view makes it easy to observe the full view and more range of the observed object, but the field of view (FOV) is inversely proportional to the magnification and inversely proportional to the resolution, that is, the larger the field of view, the smaller the magnification, and also the lower the resolution of the object to be observed.
There are usually two ways to increase the field of view, one is to replace with an objective lens of a smaller multiple, or to replace with an eyepiece of a smaller multiple.
System Working DistanceClose Λ
Working distance, also referred to as WD, is usually the vertical distance from the foremost surface end of the objective lens of the microscope to the surface of the observed object.
When the working distance or WD is large, the space between the objective lens and the object to be observed is also large, which can facilitate operation and the use of corresponding lighting conditions.
In general, system working distance is the working distance of the objective lens. When some other equipment, such as a light source etc., is used below the objective lens, the working distance (i.e., space) will become smaller.

Working distance or WD is related to the design of the working distance of the objective lens. Generally speaking, the bigger the magnification of the objective lens, the smaller the working distance. Conversely, the smaller the magnification of the objective lens, the greater the working distance.
When it is necessary to change the working distance requirement, it can be realized by changing the magnification of the objective lens.
Objective Optical MagnificationClose Λ
The finite objective is the lateral magnification of the primary image formed by the objective at a prescribed distance.

Infinite objective is the lateral magnification of the real image produced by the combination of the objective and the tube lens.
Infinite objective magnification = tube lens focal length (mm) / objective focal length (mm)

Lateral magnification of the image, that is, the ratio of the size of the image to the size of the object.
The larger the magnification of the objective, the higher the resolution, the smaller the corresponding field of view, and the shorter the working distance.
Objective TypeClose Λ
In the case of polychromatic light imaging, the aberration caused by the light of different wavelengths becomes chromatic aberration. Achromatic aberration is to correct the axial chromatic aberration to the two line spectra (C line, F line); apochromatic aberration is to correct the three line spectra (C line, D line, F line).
The objective is designed according to the achromaticity and the flatness of the field of view. It can be divided into the following categories.

Achromatic objective: achromatic objective has corrected the chromatic aberration, spherical aberration, and comatic aberration. The chromatic portion of the achromatic objective has corrected only red and green, so when using achromatic objective, yellow-green filters are often used to reduce aberrations. The aberration of the achromatic objective in the center of the field of view is basically corrected, and as its structure is simple, the cost is low, it is commonly used in a microscope.

Semi-plan achromatic objective: in addition to meeting the requirements of achromatic objective, the curvature of field and astigmatism of the objective should also be properly corrected.
Plan achromatic objective: in addition to meeting the requirements of achromatic objectives, the curvature of field and astigmatism of the objective should also be well corrected. The plan objective provides a very good correction of the image plane curvature in the field of view of the objective, making the entire field of view smooth and easy to observe, especially in measurement it has achieved a more accurate effect.

Plan semi-apochromatic objective: in addition to meeting the requirements of plan achromatic objective, it is necessary to well correct the secondary spectrum of the objective (the axial chromatic aberration of the C line and the F line).
Plan apochromatic objective: in addition to meeting the requirements of plan achromatic objective, it is necessary to very well correct the tertiary spectrum of the objective (the axial chromatic aberration of the C line, the D line and the F line) and spherochromatic aberration. The apochromatic aberration has corrected the chromatic aberration in the range of red, green and purple (basically the entire visible light), and there is basically no limitation on the imaging effect of the light source. Generally, the apochromatic aberration is used in a high magnification objective.

Objective Working DistanceClose Λ
The objective working distance is the vertical distance from the foremost surface end of the objective of the microscope to the object surface to be observed.
Generally, the greater the magnification, the higher the resolution of the objective, and the smaller the working distance, the smaller the field of view. Conversely, the smaller the magnification, the lower the resolution of the objective, and the greater the working distance, and greater the field of view.
High-magnification objectives (such as 80X and 100X objectives) have a very short working distance. Be very careful when focusing for observation. Generally, it is after the objective is in position, the axial limit protection is locked, then the objective is moved away from the direction of the observed object.
The relatively greater working distance leaves a relatively large space between the objective and the object to be observed. It is suitable for under microscope operation, and it is also easier to use more illumination methods. The defect is that it may reduce the numerical aperture of the objective, thereby reducing the resolution.
Objective Screw ThreadClose Λ
For microscopes of different manufacturers and different models, the thread size of their objectives may also be different.
In general, the objective threads are available in two standard sizes, allowing similar objectives between different manufacturers to be used interchangeably.
One is the British system: RMS type objective thread: 4/5in X 1/36in,
One is metric: M25 X 0.75mm thread.
Zoom RangeClose Λ
Zoom in zoom microscope means to obtain different magnifications by changing the focal length of the objective lens within a certain range through adjustment of some lens or lens set while not changing the position of the object plane (that is, the plane of the point of the observed object perpendicular to the optical axis) and the image plane (that is, the plane of the image imaging focus and perpendicular to the optical axis) of the microscope.
Zoom range refers to the range in which the magnification is from low to high. In the zoom range of the microscope, there is no need to adjust the microscope knob for focusing, and ensure that the image is always clear during the entire zoom process.
The larger the zoom range, the stronger the adaptability of the range for microscope observation, but the image effects at both ends of the low and high magnification should be taken into consideration, the larger the zoom range, the more difficult to design and manufacture, and the higher the cost will be.
Zoom RatioClose Λ
Zoom ratio is the ratio of the maximum magnification / the minimum magnification. Expressed as 1: (ratio of maximum magnification / minimum magnification). If the maximum magnification is 4.5X, the minimum magnification is 0.7X, then the zoom ratio = 4.5 / 0.7 = 6.4, the zoom ratio will be 1:6.4.
Zoom ratio is obtained by the intermediate magnification group of the microscope. When the magnification is increased or decreased by using other objective lenses, the zoom ratio does not change accordingly.
With the NosepieceClose Λ
When the microscope body changes the magnification, it is realized by adjusting the zoom drum or nosepiece. Generally, the lower case of the microscope is used as the zoom drum or nosepiece. When magnification conversion is required, it can be realized by turning the zoom drum or nosepiece.
Magnification Detent Close Λ
In the body of zoom microscope, zooming is continuous. When rotating to a certain position, generally an integral multiple, a positioning structure or detent is added, which has a distinct hand feel during the zooming process, and stops at this position.
When measuring, or testing by factory for unified standard magnification, a magnification detent device can avoid the error caused by the inaccurate multiple positioning of the optical magnification.
Flexible ArmClose Λ
Flexible arm is an arm or stand that imitates the human arm. It is a combination of several mechanical arm joints to complete the horizontal and vertical movement and freely adjust the focus position of the microscope. Flexible arm allows the microscope to move flexibly and freely over a wide range, and is also suitable for viewing larger objects.
The fixing method of the arm is usually optional, with strong interchangeability. Below the observation of the microscope there is an empty workbench, which can be used to place various kinds of platforms, work operating tables, tools, etc., and can be freely combined into different working positions.
In industrial places, most of the working positions are fixed. Sometimes, a lot of tools, equipment and instruments need to be placed in one working position. Because the microscope is relatively large in size and takes up also a relatively bigger space, and not convenient to move back and forth, therefore the flexible arm can be placed in a flexible position, and does not occupy the most commonly used workbench. When in use, the microscope can be moved over, and pushed to the side when not in use. This is very suitable for use in electronics factories, installation and maintenance, medical and animal anatomy, archaeology and other industries.
Flexible arm generally does not have a fixed focusing device, and you can choose a variety of flexible accessories.
When adjusting the height of the flexible arm, you need to use both hands at the same time, with one hand holding the microscope or the forearm of the stand, and the other adjusting the adjusting screw or spring mechanism that looses/tightens the arm. When releasing, pay attention to avoiding sudden sliding down.

Because one needs to ensure the flexibility of the arm or stand, there are many locking buttons in all directions. After the necessary locking buttons are adjusted, it must be ensured that each knob is in locked state to avoid sliding, tilting, and flipping of the microscope, thereby damaging the microscope and the items on the workbench.

Flexible arm has a mechanism of the hydraulic spring for adjusting the pre-tightening tension. When different microscopes weigh differently, these flexible arms can be adjusted to make the microscope more stable.
360° Degree RotatableClose Λ
The eyepiece of the microscope can have different viewing or observing directions. When the position of the microscope is uncomfortable, the direction of the eyepiece tube of the microscope can be adjusted, to facilitate observation and operation.

Placement method of different viewing angles of the microscope:
General direction: the support column is behind the object to be observed
Reverse direction: the support column is in front of the object to be observed
Lateral direction: the support column is on the side of the object to be observed
Rotating eyepiece tube, different microscopes may have different methods, for some, the direction is confirmed when installing the eyepiece tube of the microscope, for some, by rotating the body of the microscope, and for some, by rotating the support member on the support or holder of the microscope.
Stand Throat DepthClose Λ
Stand throat depth, also known as the throat depth, is an important parameter when selecting a microscope stand. When observing a relatively large object, a relatively large space is required, and a large throat depth can accommodate the object to move to the microscope observation center.
Coupler/C-mount AdapterClose Λ
Coupler/C-mount adapter is an adapter commonly used for connection between the C-adapter camera (industrial camera) and a microscope.
Adjustable CouplerClose Λ
On the coupler/C-mount-adapter, there is an adjustable device to adjust the focal length.
Coupler for Microscope TypeClose Λ
Different coupler/C-mount-adapters are suitable for different microscopes. For some, some adapter accessories need to be replaced. See the applicable range of each coupler/C-mount-adapter for details.
Coupler MagnificationClose Λ
Coupler magnification refers to the line field magnification of the coupler/C-mount-adapter. With different magnifications of the adapter lens, images of different magnifications and fields of view can be obtained. The size of the image field of view is related to the sensor size and the coupler/C-mount-adapter magnification.

Camera image field of view (mm) = sensor diagonal / coupler/C-mount-adapter magnification.

For example: 1/2 inch sensor size, 0.5X coupler/C-mount-adapter coupler, field of view FOV (mm) = 8mm / 0.5 = 16mm.
The field of view number of the microscope 10X eyepiece is usually designed to be 18, 20, 22, 23mm, less than 1 inch (25.4mm). Since most commonly used camera sensor sizes are 1/3 and 1/2 inches, this makes the image field of view on the display always smaller than the field of view of the eyepiece for observation, and the visual perception becomes inconsistent when simultaneously viewed on both the eyepiece and the display. If it is changed to a 0.5X coupler/C-mount-adapter, the microscope image magnification is reduced by 1/2 and the field of view is doubled, then the image captured by the camera will be close to the range observed in the eyepiece.
Some adapters are designed without a lens, and their optical magnification is considered 1X.
For Camera Sensor SizeClose Λ
For the size of the lens field of view of the coupler/C-mount-adapter, in the design process, the size of the camera sensor imaging target should be considered. When the field of view of the lens is smaller than the target plane of the camera, “black border” and “dark corner” will appear.
The general microscope coupler/C-mount adapters are generally designed for the 1/2" camera targets. When a camera of 2/3 or larger target is used, the “dark corner” phenomenon will appear in the field of view. Especially, at present, DSLR cameras generally use large target plane design (1 inch full field of view), when used for microscopic photographing, the general DSLR camera coupler/C-mount adapter will have “black border”.
Generally, the “dark corner” that appears on the field of view is often that the center of the microscope and the camera are not aligned. Adjust the position of the screw on the camera adapter, or turn the camera adapter to adjust or change the effect.
C/CS-Mount CouplerClose Λ
At present, the coupler/C-mount adapter generally adopts the C/CS-Mount adapter to match with the industrial camera. For details, please refer to "Camera Lens Mount".
PackagingClose Λ
After unpacking, carefully inspect the various random accessories and parts in the package to avoid omissions. In order to save space and ensure safety of components, some components will be placed outside the inner packaging box, so be careful of their inspection.
For special packaging, it is generally after opening the box, all packaging boxes, protective foam, plastic bags should be kept for a period of time. If there is a problem during the return period, you can return or exchange the original. After the return period (usually 10-30 days, according to the manufacturer’s Instruction of Terms of Service), these packaging boxes may be disposed of if there is no problem.

 


Optical Data

 

Video Microscope Optical Data Sheet
P/NObjective Coupler
MZ02016111  (0.35X)MZ02016131  (0.5X)MZ02016151  (1X)MZ02016411  (1X)MZ02016412  (1X)MZ02016413  (1X)MZ02016419  (1X)MZ02016161  (1.5X)MZ02016171  (2X)
MagnificationMagnificationMagnificationMagnificationMagnificationMagnificationMagnificationMagnificationMagnification
MZ020142110.5X0.12-0.79X0.18-1.12X0.35-2.25X0.35-2.25X0.35-2.25X0.35-2.25X0.35-2.25X0.52-3.38X0.7-4.5X
MZ020143110.75X0.18-1.18X0.26-1.69X0.52-3.38X0.52-3.38X0.52-3.38X0.52-3.38X0.52-3.38X0.79-5.06X1.05-6.75X
MZ020144111X0.24-1.58X0.35-2.25X0.7-4.5X0.7-4.5X0.7-4.5X0.7-4.5X0.7-4.5X1.05-6.75X1.4-9X
MZ020145111.5X0.37-2.36X0.52-3.38X1.05-6.75X1.05-6.75X1.05-6.75X1.05-6.75X1.05-6.75X1.57-10.12X2.1-13.5X
MZ020146112X0.49-3.15X0.7-4.5X1.4-9X1.4-9X1.4-9X1.4-9X1.4-9X2.1-13.5X2.8-18X
1. Magnification=Objective Optical Magnification * Body Magnification * Coupler Magnification



Camera Image Sensor Specifications
No.Camera Image Sensor SizeCamera image Sensor Diagonal
(mm)(inch)
11/4 in. 4mm0.157"
21/3 in. 6mm0.236"
31/2.8 in. 6.592mm0.260"
41/2.86 in. 6.592mm0.260"
51/2.7 in. 6.718mm0.264"
61/2.5 in. 7.182mm0.283"
71/2.3 in. 7.7mm0.303"
81/2.33 in. 7.7mm0.303"
91/2 in. 8mm0.315"
101/1.9 in. 8.933mm0.352"
111/1.8 in. 8.933mm0.352"
121/1.7 in. 9.5mm0.374"
132/3 in. 11mm0.433"
141/1.2 in. 12.778mm0.503"
151 in. 16mm0.629"
161/1.1 in. 17.475mm0.688"



Digital Magnification Data Sheet
Image Sensor SizeImage Sensor Diagonal sizeMonitor
Screen Size (24in)
Digital Zoom Function
1/3 in. 6mm101.6
1. Digital Zoom Function= (Screen Size * 25.4) / Image Sensor Diagonal size



Microscope Optical and Digital Magnifications Data Sheet
ObjectiveCouplerCameraMonitorVideo Microscope Optical MagnificationsDigital Zoom FunctionTotal MagnificationField of View (mm)
PNMagnificationPNMagnification Image Sensor SizeImage Sensor Diagonal sizeScreen Size
MZ020142110.5XMZ020161110.35X1/3 in. 6mm24in0.12-0.79X101.612.19-80.26X7.59-50mm
MZ020142110.5XMZ020161310.5X1/3 in. 6mm24in0.18-1.12X101.618.29-113.79X5.36-33.33mm
MZ020142110.5XMZ020161511X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020142110.5XMZ020161611.5X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020142110.5XMZ020161712X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020142110.5XMZ020164111X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020142110.5XMZ020164121X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020142110.5XMZ020164131X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020142110.5XMZ020164191X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020143110.75XMZ020164191X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020143110.75XMZ020164131X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020143110.75XMZ020164121X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020143110.75XMZ020164111X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020143110.75XMZ020161712X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020143110.75XMZ020161611.5X1/3 in. 6mm24in0.79-5.06X101.680.26-514.1X1.19-7.59mm
MZ020143110.75XMZ020161511X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020143110.75XMZ020161310.5X1/3 in. 6mm24in0.26-1.69X101.626.42-171.7X3.55-23.08mm
MZ020143110.75XMZ020161110.35X1/3 in. 6mm24in0.18-1.18X101.618.29-119.89X5.08-33.33mm
MZ020144111XMZ020161110.35X1/3 in. 6mm24in0.24-1.58X101.624.38-160.53X3.8-25mm
MZ020144111XMZ020161310.5X1/3 in. 6mm24in0.35-2.25X101.635.56-228.6X2.67-17.14mm
MZ020144111XMZ020161511X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020144111XMZ020161611.5X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020144111XMZ020161712X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
MZ020144111XMZ020164111X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020144111XMZ020164121X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020144111XMZ020164131X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020144111XMZ020164191X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020145111.5XMZ020164191X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020145111.5XMZ020164131X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020145111.5XMZ020164121X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020145111.5XMZ020164111X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020145111.5XMZ020161712X1/3 in. 6mm24in2.1-13.5X101.6213.36-1371.6X0.44-2.86mm
MZ020145111.5XMZ020161611.5X1/3 in. 6mm24in1.57-10.12X101.6159.51-1028.19X0.59-3.82mm
MZ020145111.5XMZ020161511X1/3 in. 6mm24in1.05-6.75X101.6106.68-685.8X0.89-5.71mm
MZ020145111.5XMZ020161310.5X1/3 in. 6mm24in0.52-3.38X101.652.83-343.41X1.78-11.54mm
MZ020145111.5XMZ020161110.35X1/3 in. 6mm24in0.37-2.36X101.637.59-239.78X2.54-16.22mm
MZ020146112XMZ020161110.35X1/3 in. 6mm24in0.49-3.15X101.649.78-320.04X1.9-12.24mm
MZ020146112XMZ020161310.5X1/3 in. 6mm24in0.7-4.5X101.671.12-457.2X1.33-8.57mm
MZ020146112XMZ020161511X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
MZ020146112XMZ020161611.5X1/3 in. 6mm24in2.1-13.5X101.6213.36-1371.6X0.44-2.86mm
MZ020146112XMZ020161712X1/3 in. 6mm24in2.8-18X101.6284.48-1828.8X0.33-2.14mm
MZ020146112XMZ020164111X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
MZ020146112XMZ020164121X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
MZ020146112XMZ020164131X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
MZ020146112XMZ020164191X1/3 in. 6mm24in1.4-9X101.6142.24-914.4X0.67-4.29mm
1. Video Microscope Optical Magnifications=Objective Optical Magnification * Body Magnification * Coupler Magnification
2. Digital Zoom Function= (Screen Size * 25.4) / Image Sensor Diagonal size
3. Total Magnification= Video Microscope Optical Magnifications * (Screen Size * 25.4) / Image Sensor Diagonal size
4. Field of View (mm)= Image Sensor Diagonal size / Video Microscope Optical Magnifications

Contains  
Parts Including
PictureP/NProduct Name
ST0207162139mm/Monitor Holder Dual Pneumatic Arm
MZ020111020.7-4.5X Video Zoom Body with Detents
MZ020144111X Objective
MZ020161310.5X Coupler
Packing  
Packaging TypeCarton Packaging
Packaging MaterialCorrugated Carton
Packaging Dimensions(1)61x36.5x18.5cm (24.015x14.370x7.283″)
Inner Packing MaterialPlastic Bag
Ancillary Packaging MaterialsExpanded Polystyrene
Gross Weight5.73kg (12.63lbs)
Minimum Packaging Quantity1pc
Transportation CartonCarton Packaging
Transportation Carton MaterialCorrugated Carton
Transportation Carton Dimensions(1)61x36.5x18.5cm (24.015x14.370x7.283″)
Total Gross Weight of Transportation(kilogram)5.73
Total Gross Weight of Transportation(pound)12.63

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