Electronic scales are weighing devices that many friends are familiar with. But for many of our friends who have just purchased electronic scales, the workflow for electronic scales may not be fully understood.
An electronic scale, which is a kind of weighing instrument, is a tool for measuring the quality of an object by using the Hooke's law or the lever balance principle of force. Electronic scales mainly consist of three parts: load-bearing systems (such as scales, scales), force transfer systems (such as lever transmission systems, sensors), and indication systems (such as dials, electronic display instruments). According to the principle of structure, it can be divided into three categories: mechanical scale, electronic scale, and mechanical and electrical combination scale.
Workflow description:
When the object is placed on the weighing pan, pressure is applied to the sensor, the sensor is deformed, so that the impedance changes, while the use of the excitation voltage changes to output a changing analog signal. The signal is amplified and output to an analog-to-digital converter via an amplifying circuit. Converts digital signals for easy processing to CPU operation control. The CPU outputs this result to the display according to keyboard commands and programs. Until this result is shown.
Use function:
The electronic weighing scale adopts an electronic weighing device integrated with modern sensor technology, electronic technology and computer technology to meet and solve the “quick, accurate, continuous, and automatic†weighing requirements proposed in real life, while effectively eliminating human errors. To make it more in line with the application requirements of legal measurement management and industrial production process control.
An electronic scale, which is a kind of weighing instrument, is a tool for measuring the quality of an object by using the Hooke's law or the lever balance principle of force. Electronic scales mainly consist of three parts: load-bearing systems (such as scales, scales), force transfer systems (such as lever transmission systems, sensors), and indication systems (such as dials, electronic display instruments). According to the principle of structure, it can be divided into three categories: mechanical scale, electronic scale, and mechanical and electrical combination scale.
Workflow description:
When the object is placed on the weighing pan, pressure is applied to the sensor, the sensor is deformed, so that the impedance changes, while the use of the excitation voltage changes to output a changing analog signal. The signal is amplified and output to an analog-to-digital converter via an amplifying circuit. Converts digital signals for easy processing to CPU operation control. The CPU outputs this result to the display according to keyboard commands and programs. Until this result is shown.
Use function:
The electronic weighing scale adopts an electronic weighing device integrated with modern sensor technology, electronic technology and computer technology to meet and solve the “quick, accurate, continuous, and automatic†weighing requirements proposed in real life, while effectively eliminating human errors. To make it more in line with the application requirements of legal measurement management and industrial production process control.
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