Drip Detection System based on STM32 Microcontroller

Feng Zhou

doi:10.54691/cshe9t47

Authors

Feng Zhou

DOI:

https://doi.org/10.54691/cshe9t47

Keywords:

STM32 Microcontroller; Droplet Speed Detection; OLED Liquid Crystal Display.

Abstract

This design of the drip detection system is based on the STM32 microcontroller, making it highly practical and innovative. The system combines multiple sensors and control modules to achieve high-precision detection and monitoring of intravenous drip infusions. By integrating various sensors such as a drip rate detection module, a temperature sensor, and a water level detection module, the system can comprehensively monitor the status of the intravenous drip, including drip rate, liquid level, and temperature. Through data processing and control by the STM32 microcontroller, the system can real-time monitor the drip rate, liquid level, and temperature of the intravenous drip, and display these data on an OLED screen, providing intuitive information feedback. After conducting tests and analysis on the system, its stability and reliability have been verified. With its high-precision drip detection capability, the system can meet the needs of life science experiments for droplet detection. This system is widely applicable in various fields such as medical, chemistry, and biology. In the medical field, it can be used for precise drug delivery, thereby improving treatment effectiveness. In chemical and biological experiments, it can be used for accurate dispensing of liquid reagents, ensuring the accuracy of experimental results. The system features an OLED display, providing a user-friendly interface, and also comes with button operations, enabling users to conveniently set and operate system parameters. Overall, this drip detection system based on the STM32 microcontroller not only possesses a high level of technological sophistication but also has broad prospects for practical applications. It provides an efficient and accurate solution for droplet detection and will play a significant role in related fields.

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References

Chandrasekhar P T , Chakravarthi J S .Automatic Drip Irrigation System[J].[2024-03-24].

Wavhal*1 M D N .Intelligent Drip Irrigation System[J].International Journal of Engineering Sciences & Research Technology, 2014, 3(5).

Kumar J , Luthra S K , Ratan R .Design & Development of Zigbee Based Automatic Drip Irrigation system[J].[2024-03-24].

Mahendra S , Bharathy M L .Microcontroller Based Automation of Drip Irrigation System[J].[2024-03-24].

Patel N R , Lanjewar R B , Mathurkar S S ,et al.Microcontroller based drip irrigation system using smart sensor[C]//IEEE India Conference.IEEE, 2013.DOI:10.1109/indcon.2013.6726064.

Ibrahim D , Saeed R R .Design and implementation of a microcontroller based infusion pump system for automatic drug delivery[J].Global Journal on Technology, 2013.

N V Gowtham DeekshithuluG Ravi BabuR Ganesh BabuM Siva Ramakrishna. Performance Evaluation of Developed Low Cost Microcontroller BasedAutomated Drip Irrigation System[J]. Andhra Agricultural Journal, 2016, 63(3).

Parameswaran G , Sivaprasath K , System P S I E .Arduino Based Smart Drip Irrigation System Using Internet of Things[J]. [2024-03-24].

Debnath M , Patel N .Performance of a Developed Low Cost Microcontroller based Automated Drip Irrigation System in Kinnow Crop[J].[2024-03-24].

Prabhu S R B , Sophia S , Mathew A I .A Review of Efficient Information Delivery and Clustering for Drip Irrigation Management using WSN[J].Social Science Electronic Publishing[2024-03-24].

Ruixia T , Jiaosai L , Yunjie L ,et al.Design of the Water Leakage Detection and Alarm System based on EPICS[J]. 2017.

Shiyong,Zheng,Zhao,et al.The design of liquid drip speed monitoring device system based on MCU [C] //2017:20123-20123.DOI:10.1063/1.4992940.

Dutta P K , Mallikarjuna K , Satish A .Sensor based solar tracker system using electronic circuits for moisture detection and auto-irrigation[C]//IEEE International Conference on Power, Control, Signals and Instrumentation Engineering.0[2024-03-24].DOI:10.1109/ ICPCSI. 2017.8391956.

Capraro F , Tosetti S R , Manrique P L C .Sensor Network For Monitoring And Fault Detection In Drip Irrigation Systems Based On Embedded Systems[J].IEEE Latin America Transactions, 2020, 18(2):383-391.DOI:10.1109/TLA.2019.9082252.

Wei-Chao H , Lian-Shuai H , Nan-Hong P .Design of Intelligent Drip Irrigation System Based on STM32[J].Journal of Anhui Agricultural Sciences, 2017.