Pressure Displacement Profile Analyzer Solution Based on FETMX8MM-C SoM
Pressure displacement analyzer is a professional instrument used to measure the deformation of materials under force. It can measure the pressure, strain, displacement and other mechanical parameters of the material, and analyze and process the parameters through the built-in software system and algorithm, so as to obtain the mechanical properties of the material. Pressure and displacement analyzer is widely used in material science, machinery manufacturing, construction engineering, aerospace and other fields.
With the continuous progress of science and technology and the rapid development of industrial manufacturing, the requirements for the mechanical properties of materials in industrial production are also rising, so more accurate and reliable measuring instruments are needed to meet the demand. The emergence of stress-strain displacement analyzers fills the gap in material mechanics performance testing equipment, greatly enhancing the accuracy and efficiency of material testing.
The characteristics of stress-strain displacement analyzers to be considered during use include:
- High-precision measurement: It can measure the displacement change of the object under the action of pressure with high precision to ensure the accuracy and reliability of the measurement results;
- High reliability: It can measure stably for a long time under extreme conditions, and is suitable for various complex environments and application scenarios;
- The operation is simple, and the complex measurement task can be realized through simple operation, so that the work efficiency is improved;
- Multi-functional: It can perform various functions such as automatic recording, data processing, result analysis, and report generation to meet the needs of different application scenarios;
- Intuitive display: Pressure displacement analyzers usually have LCD displays, which can intuitively display measurement results and parameters, making it easy for users to carry out real-time monitoring and data analysis;
- Convenient data processing: Measurement data can be stored in the internal memory or external devices, and support a variety of data format export, convenient for users to carry out later data processing and analysis.
Forlinx Embedded recommends using
FETMX8MM-C as the product implementation solution.
In this solution, the main functions of the i.MX8MM-C SoM are:
- The human-machine interaction module displays real-time data transmitted from the MCU via MIPI, and performs drawing and data display;
- Data processing and storage is achieved through USB interface conversion to ULPI LINK for communication with the MCU end. Data is received and stored in TF cards or USB drives, then processed to output in a more concise and understandable form;
- Network transmission and remote control are facilitated through a Gigabit Ethernet port, allowing for remote monitoring of screens, network backups, and system parameter restoration.
Advantages:
- Equipped with an ARM Cortex-A53 quad-core CPU running at 1.8GHz and paired with 2GB of DDR4 RAM, it offers high performance and computational power, providing a significant advantage in data processing;
- The compact size of only 56mm * 36mm meets the requirements of miniaturization and portability of equipment and reduces the size of products;
- Support 4-line mipi display, maximum 1.5g bps transmission, high-definition output image;
- Long supply cycle, join NXP product long-term supply plan, guarantee at least 10 years of supply period;
- The operating environment temperature ranges from -40°C to 85°C, meeting the requirements for industrial and general industrial applications.
The above is the pressure displacement curve analysis solution provided by Forlinx Embedded based on the FETMX8MM-C SoM. We hope it can assist you in your selection process.