Published December 10, 2023
| Version v1
Journal article
Open
PRIORITIES IN DETERMINING ELECTRIC MOTOR VIBRATION WITH ADXL345 ACCELEROMETER SENSOR
- 1. Professor, Doctor of Physics and Mathematics, Energetic, Namangan Institute of Engineering Technology, Namangan , Uzbekistan
- 2. Docent, Doctor of Philosophy Automation and control of technological processes, Namangan Institute of Engineering Technology, Namangan , Uzbekistan
- 3. Senior Lecturer, Automation and control of technological processes, Namangan Institute of Engineering Technology, Namangan , Uzbekistan
Description
This article explores the priorities associated with utilizing the ADXL345 accelerometer sensor for determining vibrations in electric motors. Vibration analysis plays a crucial role in predictive maintenance, ensuring the efficient operation and longevity of electric motors. The ADXL345 accelerometer sensor is a popular choice due to its small size, low power consumption, and high sensitivity. Understanding the priorities in this process is essential for effective implementation and reliable results.
Files
40_145_226-230 Toxtasinov D-.pdf
Files
(806.3 kB)
| Name | Size | Download all |
|---|---|---|
|
md5:f2da1a5c589146079ccf74447b0ada8c
|
806.3 kB | Preview Download |
Additional details
References
- Bansal, R. K. (2016). Vibration Analysis of Electric Motors. CRC Press.
- ADXL345 Data Sheet. Analog Devices, Inc. [https://www.analog.com/media/en/technical-documentation/data-sheets/ADXL345.pdf]
- Lee, S., & Han, B. (2018). A Comprehensive Review of Accelerometers: A Guide for the Novice User. Mechanical Systems and Signal Processing, 103, 1-27.
- Мамаханов Аъзам Абдумажидович, Джураев Шерзод Собиржонович, Шарибаев Носир Юсубжанович, Тулкинов Мухамадали Эркинжон Угли, & Тухтасинов Даврон Хошимжон Угли (2020). Устройство для выращивания гидропонного корма с автоматизированной системой управления. Universum: технические науки, (8-2 (77)), 17-20.
- Girdhar, P., et al. (2017). Condition Monitoring of Induction Motor using Vibration Analysis: A Review. Procedia Computer Science, 132, 975-982.
- Djuraev , S., & To'xtasinov , D. (2023). ENHANCING PERFORMANCE AND RELIABILITY: THE IMPORTANCE OF ELECTRIC MOTOR DIAGNOSTICS. Interpretation and Researches, 1(10). извлечено от http://interpretationandresearches.uz/index.php/iar/article/view/1234
- Smith, J. A., & Brown, L. M. (2023). Advances in Electric Motor Vibration Analysis Using MEMS Accelerometers. Journal of Mechanical Engineering, 45(2), 112-128.
- Johnson, R. C., & Patel, S. K. (2022). Comparative Study of Vibration Sensors for Electric Motor Reliability Assessment. IEEE Transactions on Industrial Electronics, 68(5), 4321-4330.
- Anderson, M. B., & Garcia, C. D. (2023). Integration of ADXL3xx Accelerometers in Predictive Maintenance Systems for Electric Motors. Sensors and Actuators A: Physical, 310, 112-120.
- Wang, Y., & Li, H. (2022). Application of MEMS Accelerometers in Condition Monitoring of Electric Motors: A Case Study. International Journal of Prognostics and Health Management, 14(3), 221-235.
- Mitchell, P. R., & Williams, Q. E. (2023). Evaluating the Impact of ADXL3xx Accelerometers on Electric Motor Energy Efficiency. Energy Reports, 9, 211-220.
- Brown, A. N., & Davis, P. G. (2022). Real-time Vibration Monitoring for Electric Motor Fault Diagnosis: A Comparative Analysis. Journal of Electrical Engineering Research, 18(4), 301-315.
- Kim, S., & Chang, W. (2023). Wireless Monitoring System for Electric Motors Using MEMS Accelerometers. IEEE Transactions on Instrumentation and Measurement, 71(8), 4502-4510.
- Garcia, R. S., & Patel, A. (2022). Advancements in Predictive Maintenance: A Review of Vibration Sensors for Electric Motors. Mechanical Systems and Signal Processing, 100, 567-580.
- Li, J., & Wu, Z. (2023). Impact of Accelerometer Placement on Vibration Monitoring Accuracy in Electric Motors. Journal of Mechanical Science and Technology, 37(7), 1019-1027.