At this stage a detailed analysis of architectural solutions for the development of temperature and pressure sensors is carried out, including the evaluation of different types of sensing elements. Options for building a system model of the sensor including mechanical and electrical parts are studied. Possibilities of using digital algorithms for correction of nonlinearity and temperature dependence of characteristics are evaluated. Also approaches to realization of energy-efficient modes of devices operation are considered. The results of the analysis will help to determine the key parameters of future solutions.
Completed
07.2021 - 12.2021
At this stage, sensing element models are developed and the architecture of analog and digital chip blocks is created. A comparative analysis of the proposed solutions is carried out. Methods for improving measurement accuracy by optimizing the parameters of sensing elements and integrated circuits are being developed. Correction algorithms that take into account the influence of external factors are developed.. The results obtained will be used to create a prototype device.
Completed
01.2022 - 01.2023
At this stage, optimization and detailed verification of all system components for compliance with technical and manufacturing requirements is carried out. Models undergo testing in various conditions and operating modes to identify possible problems.
Completed
01.2023 - 05.2023
At this stage, all materials have been transferred to the factory for the production of the first test samples.
Completed
05.2023 - 07.2024
Manufacturing of the first test samples of sensors has been completed, then they were transferred to the testing stage to check their functionality and reliability. Measurement accuracy, stability characteristics and noise immunity level are being evaluated. Data analysis is performed to identify possible deviations from expected parameters. The test results will be used to refine the design before launching into mass production.
In the process
07.2024 - ...
Based on the test results, the design of the sensing element is being refined to compensate for the identified technological errors. Optimization of integrated circuit blocks is performed to improve operational stability and eliminate parasitic parameters. Changes are made to defense mechanisms to reduce the impact of external influences. After the completion of refinements, a final check for compliance with technical requirements is performed.
In the process
07.2024 - ...