Application of industrial cameras in the microscope industry

1. The application of industrial cameras in the field of microscopes

Industrial cameras are one of the essential accessories of microscopes. Microscopes can only be viewed in real-time by the human eye, and at the same time, they can cause great damage to human eye fatigue. Industrial cameras can perform multiple tasks such as real-time viewing, recording, storage, and analysis, and play a great role in medicine and scientific research.

Microscopic photography is a method of capturing images by combining a microscope with an industrial camera. In animal and plant quarantine work, it is an indispensable means of scientific research, experience exchange, and arbitration negotiation. To achieve good microscopic photography results, the most important thing is to have professional microscope industrial cameras and professional microscope operation techniques.

Microscopic photography is a commonly used photography method in educational and technological films. The photography method of connecting a microscope and an industrial camera, so that the object observed through the microscope is recorded in the photosensitive chip of the industrial camera, thereby obtaining the lens image. It is a technological means of revealing the microscopic world that is invisible to the naked eye. Industrial cameras can record activities such as bacterial reproduction and growth, allowing people to truly understand various microscopic phenomena.

To obtain high-quality and high-resolution microscopic images, professional grade industrial cameras (such as the Magic Eyes series and Micro series) must be selected. Cooperate with microscope objectives and professional light sources. The illumination methods for microphotography are divided into transmission illumination, vertical illumination, and bright field and dark field illumination. Attention should also be paid to the selection of various color filters.

Microscopic photography is the use of an optical imaging system consisting of the objective and eyepiece of a microscope as the lens of a camera to capture specimens that are generally not visible to the naked eye. This kind of "magnifying and recording" of small objects can directly provide convenience for teaching and scientific research.

The imaging principle of industrial cameras on microscopes is that when the observed specimen is placed slightly outside the focal point in front of the objective lens, a magnified inverted real image will be formed on the inside of the focal point in front of the eyepiece and near the focal point. At this point, a magnified inverted virtual image can be seen through the eyepiece (which acts like a regular magnifying glass). If the position of the objective lens imaging is adjusted (by appropriately moving the specimen away from the objective lens or raising the eyepiece, that is, increasing the distance between the eyepiece and the objective lens, so that the intermediate imaging is between one and two times the focal length of the eyepiece), the image formed by the objective lens is located outside the front focal point of the eyepiece. This image is then magnified by the eyepiece to obtain a secondary magnified upright image on the other side of the eyepiece. When the light source is strong enough, the photosensitive chip of the industrial camera records the image and saves it inside the industrial camera.

2. Operation method for obtaining high-definition images with industrial cameras

To obtain a good micrograph, it is necessary to pay attention to the following conditions: 1. A professional industrial camera, 2. Creating clear specimen slides, where tissue sections should be of moderate thickness and staining slides should not have excess dye, etc. Choose high-performance and clean glass slides and cover slides. 4. Use high-performance objective lenses and concentrators. 5. Adopt Kohler lighting method. When shooting, it is important to accurately focus and choose a reasonable exposure time. 7 Correct operating methods for microscopes and industrial cameras.

3. Taking the ME200HC camera from Smart Images as an example, let's take a look at the images captured under a microscope