The optical fiber of the coagulation analyzer

"Biochemical light-transmitting beam" may be a component used for transmitting light beams in biochemical analysis instruments and other equipment.

Its main function is to accurately transmit the light generated by the light source to the sample parts where photochemical reactions or optical detections are required.

For example, in some instruments that detect biochemical substances based on optical principles such as light absorption and fluorescence emission, the light-transmitting beam can ensure that light reaches the sample stably and efficiently, enabling the instrument to analyze the content, structure and other relevant information of biochemical substances in the sample according to the sample's response to light.

The optical fiber of the coagulation analyzer plays an important role in the process of coagulation testing.

The coagulation analyzer is a medical device used to detect the blood coagulation function. The optical fiber is mainly used in the optical detection system. When the blood sample undergoes a coagulation reaction during the testing process, there will be changes in some optical properties (such as light scattering, transmittance, etc.). The optical fiber can accurately conduct optical signals and transmit the optical changes at the detection site to the photodetector. In this way, the instrument can analyze parameters such as the time and state of blood coagulation according to the changes in the optical signals.

Like the optical fibers in other instruments, the optical fiber of the coagulation analyzer also needs appropriate maintenance, such as keeping the connectors of the optical fiber clean, preventing the optical fiber from being bent or damaged, ensuring that the optical signals can be transmitted accurately, and thus guaranteeing the accuracy of the coagulation test results.

In the context of polymerase chain reaction (PCR) instruments used for optical detection, optical fibers play a crucial role.

Optical fibers are mainly used to connect the optical detection components of PCR instruments, such as fluorescence detection modules. During the PCR reaction process, as DNA amplification occurs, fluorescently labeled substances will emit light at specific wavelengths. Optical fibers can efficiently transmit these optical signals to the photodetectors.

Its advantages include:

- High efficiency of signal transmission: It can transmit fluorescence signals with low loss, ensuring that the detector receives signals with sufficient intensity to accurately monitor the situation of DNA amplification.
- Anti-interference ability: Due to its material and transmission principle, optical fibers can effectively avoid external electromagnetic interference, ensuring the purity of optical signals and thus providing accurate detection results.