The imaging principle of the camera: The optical imaging system of the camera is designed according to the geometric optical principle. Using the linear propagation properties of light and the refraction and reflection laws of light, it takes photons as the carrier to transmit the amount of light information of the captured scene at a certain moment to the photosensitive material through the camera lens in an energy way. Material, eventually become a visual image.
The principle of the microscope is: the eyepiece and the objective lens are both convex lenses with different focal lengths. The focal length of the convex lens of the objective lens is smaller than that of the convex lens of the eyepiece.The objective lens is equivalent to the lens of a projector, and the object is inverted and magnified through the objective lens. The eyepiece is equivalent to an ordinary magnifying glass, and the real image is formed into a vertical and magnified virtual image through the eyepiece.
The microscopic digital imaging system includes CCD/CMOS professional camera, image acquisition and processing software, microscope interface, data transmission line, etc. The most core equipment is CCD and CMOS image sensors. The former is composed of photoelectric coupling devices, and the latter is composed of metal oxide devices.
Microscopes can be classified according to the principle of microscopy, which can be divided into polarization microscope, optical microscope, electron microscope and digital microscope. Polarizing microscope is a microscope used to study so-called transparent and opaque anisotropic materials, which has important applications in geology and other science and engineering majors.
The optical principle is used to adjust the focal length of the camera. The focal length is the distance from the main point to the focus after the lens is optical. The length of the focal length determines the size of the imaging, the size of the field of view, the size of the size of the depth of field and the perspective of the picture. The focal length is the distance between the parallel light from the center of the lens to the focus of the light gathering.
Mirror seat, stabilize the lens body; mirror column, support parts above the mirror column. The mirror arm, the part where the mirror is held; the stage, the place where the slide specimen is placed. There is a light-through hole in the center, and there is a pressing clamp on each side. The lens barrel, the upper end is equipped with an eyepiece, and the lower end is equipped with a converter; a converter; a rotatable disc, and an objective lens is installed on it.
1. It is usually composed of optical part, lighting part and mechanical part.The main frame is used to support the whole microscope and maintain stability, which is the main body of the whole microscope. The objective lens is the main component that determines the resolution and imaging clarity of the microscope. The eyepiece is a visual optical device used to observe the images formed by the optical system ahead.
2. The microscope used in the school laboratory is composed of an eyepiece, a lens barrel, a converter, an objective lens, a coarse quasi-focus spiral, a fine quasi-focus spiral, a light-through hole, a carrier platform, a shader, a pressure clip, a reflector, a mirror holder, a column, a mirror wall and other parts.
3. Digital cameras are mainly composed of two parts: the framing system and the imaging system. Among them, the framing system consists of three parts: reflector, pentaprism and viewfider, while the imaging system is composed of shutter unit and image sensor.
4. CMOS: mutualComplementary Metal-Oxide Semiconductor CMOS (Complementary Metal-Oxide Semiconductor), like CCD, is a semiconductor that can record light changes in digital cameras.
5. It belongs to the microstructure. The microscope uses the magnification imaging principle of convex lenses to amplify tiny objects that cannot be distinguished by the human eye to the size that can be distinguished by the human eye. It is mainly to increase the angle of the eye of tiny objects in the near vicinity (objects with large viewing angle are imaged on the retina), and the angular magnification M is used to represent their magnification.
Microscope Spectroscopic microscope and electron microscope. Edit this section of optical microscope. It was first created by Janssen and his son in the Netherlands in 1590. The current optical microscope can magnify objects by 1,500 times, and the minimum resolution limit is 0.2 microns of biological microscope.
, Gerd Binnig and Heinrich Rohrer, two scientists from IBM's Zurich Laboratory, invented the so-called scanning tunneling microscope (STM).This microscope is more radical than an electron microscope, and it completely loses the concept of traditional microscope.
The original photomicroscope was a simple device that connected a photo dark box above the eyepiece of an ordinary microscope. A special photomicroscope began to appear in the 1930s. The structure and function of the photo microscope in the 1950s were much more complicated.
Microscope is one of the greatest inventions of mankind in the 20th century. Before its invention, human perceptions of the world around them were limited to using the naked eye or holding lenses to help the naked eye see.
1. Optical displayThere are many types of micromirrors, mainly including bright field microscope (ordinary optical microscope), dark field microscope, fluorescent microscope, differential microscope, laser scanning confocal microscope, polarization microscope, differential interference difference microscope, inverted microscope.
2. According to the type of light source, it can be divided into ordinary light, fluorescence, ultraviolet light, infrared light and laser microscope, etc.; according to the type of receiver, it can be divided into visual, digital (camera) microscope, etc. Commonly used microscopes include binocular steoscopic microscope, metallographic microscope, polarization microscope, fluorescence microscope, etc.
3. Microscopes are classified according to the principle of microscopy, which can be divided into polarized microscopes, optical microscopes, electron microscopes and digital microscopes. Polarizing microscope is used to study the so-calledA microscope of transparent and opaque anisotropic materials has important applications in science and engineering majors such as geology.
4. Differential interference differential microscopy (DIC) is also known as interference or interference microscope. Small phase changes can be seen and measured, which is similar to phase microscopy, so that the colorless and transparent specimen has changes in light, dark and color, thus enhancing the contrast.
5. Microscopes can be classified according to the principle of microscopy and can be divided into polarization microscope, optical microscope and electron microscope and digital microscope. Polarizing microscope is a microscope used to study so-called transparent and opaque anisotropic materials, which has important applications in geology and other science and engineering majors.
*
HS code classification tools-APP, download it now, new users will receive a novice gift pack.
The imaging principle of the camera: The optical imaging system of the camera is designed according to the geometric optical principle. Using the linear propagation properties of light and the refraction and reflection laws of light, it takes photons as the carrier to transmit the amount of light information of the captured scene at a certain moment to the photosensitive material through the camera lens in an energy way. Material, eventually become a visual image.
The principle of the microscope is: the eyepiece and the objective lens are both convex lenses with different focal lengths. The focal length of the convex lens of the objective lens is smaller than that of the convex lens of the eyepiece.The objective lens is equivalent to the lens of a projector, and the object is inverted and magnified through the objective lens. The eyepiece is equivalent to an ordinary magnifying glass, and the real image is formed into a vertical and magnified virtual image through the eyepiece.
The microscopic digital imaging system includes CCD/CMOS professional camera, image acquisition and processing software, microscope interface, data transmission line, etc. The most core equipment is CCD and CMOS image sensors. The former is composed of photoelectric coupling devices, and the latter is composed of metal oxide devices.
Microscopes can be classified according to the principle of microscopy, which can be divided into polarization microscope, optical microscope, electron microscope and digital microscope. Polarizing microscope is a microscope used to study so-called transparent and opaque anisotropic materials, which has important applications in geology and other science and engineering majors.
The optical principle is used to adjust the focal length of the camera. The focal length is the distance from the main point to the focus after the lens is optical. The length of the focal length determines the size of the imaging, the size of the field of view, the size of the size of the depth of field and the perspective of the picture. The focal length is the distance between the parallel light from the center of the lens to the focus of the light gathering.
Mirror seat, stabilize the lens body; mirror column, support parts above the mirror column. The mirror arm, the part where the mirror is held; the stage, the place where the slide specimen is placed. There is a light-through hole in the center, and there is a pressing clamp on each side. The lens barrel, the upper end is equipped with an eyepiece, and the lower end is equipped with a converter; a converter; a rotatable disc, and an objective lens is installed on it.
1. It is usually composed of optical part, lighting part and mechanical part.The main frame is used to support the whole microscope and maintain stability, which is the main body of the whole microscope. The objective lens is the main component that determines the resolution and imaging clarity of the microscope. The eyepiece is a visual optical device used to observe the images formed by the optical system ahead.
2. The microscope used in the school laboratory is composed of an eyepiece, a lens barrel, a converter, an objective lens, a coarse quasi-focus spiral, a fine quasi-focus spiral, a light-through hole, a carrier platform, a shader, a pressure clip, a reflector, a mirror holder, a column, a mirror wall and other parts.
3. Digital cameras are mainly composed of two parts: the framing system and the imaging system. Among them, the framing system consists of three parts: reflector, pentaprism and viewfider, while the imaging system is composed of shutter unit and image sensor.
4. CMOS: mutualComplementary Metal-Oxide Semiconductor CMOS (Complementary Metal-Oxide Semiconductor), like CCD, is a semiconductor that can record light changes in digital cameras.
5. It belongs to the microstructure. The microscope uses the magnification imaging principle of convex lenses to amplify tiny objects that cannot be distinguished by the human eye to the size that can be distinguished by the human eye. It is mainly to increase the angle of the eye of tiny objects in the near vicinity (objects with large viewing angle are imaged on the retina), and the angular magnification M is used to represent their magnification.
Microscope Spectroscopic microscope and electron microscope. Edit this section of optical microscope. It was first created by Janssen and his son in the Netherlands in 1590. The current optical microscope can magnify objects by 1,500 times, and the minimum resolution limit is 0.2 microns of biological microscope.
, Gerd Binnig and Heinrich Rohrer, two scientists from IBM's Zurich Laboratory, invented the so-called scanning tunneling microscope (STM).This microscope is more radical than an electron microscope, and it completely loses the concept of traditional microscope.
The original photomicroscope was a simple device that connected a photo dark box above the eyepiece of an ordinary microscope. A special photomicroscope began to appear in the 1930s. The structure and function of the photo microscope in the 1950s were much more complicated.
Microscope is one of the greatest inventions of mankind in the 20th century. Before its invention, human perceptions of the world around them were limited to using the naked eye or holding lenses to help the naked eye see.
1. Optical displayThere are many types of micromirrors, mainly including bright field microscope (ordinary optical microscope), dark field microscope, fluorescent microscope, differential microscope, laser scanning confocal microscope, polarization microscope, differential interference difference microscope, inverted microscope.
2. According to the type of light source, it can be divided into ordinary light, fluorescence, ultraviolet light, infrared light and laser microscope, etc.; according to the type of receiver, it can be divided into visual, digital (camera) microscope, etc. Commonly used microscopes include binocular steoscopic microscope, metallographic microscope, polarization microscope, fluorescence microscope, etc.
3. Microscopes are classified according to the principle of microscopy, which can be divided into polarized microscopes, optical microscopes, electron microscopes and digital microscopes. Polarizing microscope is used to study the so-calledA microscope of transparent and opaque anisotropic materials has important applications in science and engineering majors such as geology.
4. Differential interference differential microscopy (DIC) is also known as interference or interference microscope. Small phase changes can be seen and measured, which is similar to phase microscopy, so that the colorless and transparent specimen has changes in light, dark and color, thus enhancing the contrast.
5. Microscopes can be classified according to the principle of microscopy and can be divided into polarization microscope, optical microscope and electron microscope and digital microscope. Polarizing microscope is a microscope used to study so-called transparent and opaque anisotropic materials, which has important applications in geology and other science and engineering majors.
*Locating specialized suppliers by HS code
author: 2024-12-24 02:40Cross-border HS code harmonization
author: 2024-12-24 01:37HS code-based landed cost calculations
author: 2024-12-24 01:04Livestock feed HS code references
author: 2024-12-24 00:19How to access historical shipment records
author: 2024-12-24 02:35Global commodity price tracking
author: 2024-12-24 01:35Refined sugar HS code identification
author: 2024-12-24 01:30Livestock feed HS code references
author: 2024-12-24 00:52USA customs data analysis services
author: 2024-12-24 00:22
Supply chain sustainability metrics
515.73MB
Check
Global trade intelligence for investors
532.75MB
Check
Import risk analysis metrics
551.64MB
Check
Optimizing distribution using HS code data
914.54MB
Check
Advanced trade data analytics techniques
389.62MB
Check
HS code indexing for procurement catalogs
813.55MB
Check
Gemstones HS code references
757.38MB
Check
How to track seasonal trade patterns
946.45MB
Check
Global supply chain partner networks
794.71MB
Check
Industrial chemicals HS code monitoring
659.81MB
Check
Supplier onboarding with data analytics
961.78MB
Check
Global trade data normalization
843.61MB
Check
Global import export freight indexes
217.12MB
Check
Germany international trade insights
517.46MB
Check
Real-time HS code data integration
276.25MB
Check
Premium trade data intelligence subscriptions
618.85MB
Check
Medical devices HS code mapping
713.91MB
Check
Supply contracts referencing HS codes
135.91MB
Check
Country-wise HS code tariff relief
689.17MB
Check
Supply chain data
188.25MB
Check
AI-driven trade data analytics
398.53MB
Check
HS code automotive parts mapping
745.15MB
Check
HS code intelligence in freight auditing
417.81MB
Check
Global trade certification services
363.72MB
Check
Regional value content by HS code
177.48MB
Check
Metals and alloys HS code verification
629.97MB
Check
How to ensure stable supply lines
618.94MB
Check
How to interpret complex trade patterns
341.53MB
Check
Global supply chain partner networks
264.16MB
Check
Tobacco products HS code verification
478.82MB
Check
Global sourcing directories by HS code
148.18MB
Check
Automated trade documentation tools
153.84MB
Check
Automated trade documentation tools
992.17MB
Check
How to standardize trade documentation
791.86MB
Check
Agriculture HS code-based quota allocation
531.57MB
Check
Crude oil (HS code ) export trends
459.22MB
Check
Scan to install
HS code classification tools to discover more
Netizen comments More
1419 How to integrate trade data into workflows
2024-12-24 02:26 recommend
980 North American HS code tariff structures
2024-12-24 01:49 recommend
97 How to identify emerging market suppliers
2024-12-24 01:10 recommend
686 Grain imports HS code data trends
2024-12-24 01:05 recommend
1775 Customs authorization via HS code checks
2024-12-24 01:01 recommend