What is a chemistry analyzer?

Nov 03, 2022 Leave a message

What is a chemistry analyzer?

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A chemistry analyzer/biochemistry analyzer is an instrument that uses the photoelectric colorimetric principle to measure a specific chemical composition in body fluids. It is a kind of blood chemistry analyzer machine, which can help doctors to diagnose kidney function, liver function, blood sugar and lipid, electrolyte, coagulation, etc. by detecting the content of chemical substances in blood.

✏️The chemistry analyzer principle:

The fully automated biochemistry/chemistry analyzer is actually an optical analysis instrument. The first generation chemistry analyzer machine is essentially a spectrophotometer. Later on, semi-automatic biochemical analyzers were gradually introduced. By now. Fully automatic biochemical analyzer has been used very widely. The chemistry analyzer machine is based on the selective absorption of light by a substance, i.e. spectrophotometry. The principle of chemistry analyzer is still based on Beer's law.

💡How does a chemistry analyzer work?  

* 1. The monochromator divides the complex color light from the light source into monochromatic light.
* 2. The monochromatic light of a specific wavelength passes through a colorimetric cell containing a sample solution.
* 3. The photoelectric converter converts the projected light into an electrical signal and sends it to the signal processing system for analysis.
* 4. The computer then processes, calculates, analyzes and saves the measurement data according to the working mode selected by the user.
* 5. The printer prints out the corresponding results at the same time.
* 6. Finally, after measuring each group of samples, the cuvette and pipeline are clear.

💡Auto chemistry analyzer machine:

The Auto chemistry analyzer machine the entire process from sample addition to result is done automatically. The operator only needs to place the sample on the specific position of the analyzer and select the program to start the instrument to take the test report.

The basic structure includes liquid, gas, electrical and mechanical drive systems. The liquid and gas paths are mainly related to the sampling of probes, sample addition, reagent operation and waste liquid disposal, while the optical path and circuitry are related to signal detection and comprehensive information processing, and the mechanical drive system runs through the entire process of testing and analysis.