The spelling of the word "automated analyser" is pronounced as /ˈɔːtəmeɪtɪd əˈnæləzə/. This term refers to a machine that performs automated analysis on samples in a laboratory. The word "automated" is derived from "automate" and is pronounced as /ˈɔːtəmeɪt/. The word "analyser" is pronounced as /ˈænəlaɪzə/ and denotes a device that performs analysis. Together, the term "automated analyser" describes a machine that is designed to perform analysis on a sample automatically.
An automated analyser is a sophisticated electronic device designed to streamline and expedite the process of analyzing various samples and substances. It is commonly used in laboratory settings, medical facilities, and research institutions to conduct extensive quantitative and qualitative analysis with minimal human intervention.
The primary function of an automated analyser is to perform tasks such as measuring the concentration of specific substances, identifying and characterizing elements, compounds, or cells, and assessing various chemical or biological parameters. It uses advanced technologies, including robotics, mechanics, optics, and computer software, to achieve accurate and reliable results.
The device comprises various components working together seamlessly. These typically include sample input systems such as sample loaders or conveyors, intelligent sensors for detecting and measuring specific properties, reaction chambers or cuvettes for conducting chemical or biological reactions, and detectors or sensors to quantitively read the results. Additionally, automated analysers often incorporate data analysis algorithms and display units to present information in a user-friendly format.
Automated analysers offer numerous advantages, including increased productivity, reduced human error, and enhanced precision. They are capable of handling large volumes of samples, ensuring faster turnaround times. Moreover, their ability to work continuously and repetitively enables consistent results, making them ideal for high-throughput testing. Due to their versatility, automated analysers find applications in various fields, including clinical diagnostics, environmental analysis, forensic investigations, pharmaceutical research, and industrial quality control.
The word "automated" is derived from the Greek word "automatos", meaning "self-acting" or "acting of oneself". It combines "auto" (self) and "matos" (acting).
The word "analyzer" is derived from the Greek word "analyein", meaning "to loosen up" or "to dissolve". It combines "ana" (up or again) and "lyein" (to loosen).
When these words are combined to form "automated analyzer", the term refers to a device or system that performs analysis or measurement tasks automatically, using predefined algorithms and without human intervention.