POSSIBILITIES OF USING THE KY-026 FIRE SENSOR IN FIRE DETECTION

Madaliyev Xushnid Baxromjon o`g`li

Ключевые слова: Keywords: infrared flame sensor, fire detection, combustion detection, KY-026 module, Arduino microcontroller, alarm interface, sensor response time, flame sensor sensitivity, false alarm resistance, sensor stability, fire alarm circuit.


Аннотация

Abstract. The KY-026 fire sensor module has potential for use in fire detection
systems. This sensor detects infrared wavelength light emitted from flames during
combustion. This article explores the operating principles, performance parameters,
and applications of the KY-026 sensor for fire detection. Test results demonstrate its
response time, sensitivity, and accuracy. An Arduino interface circuit is presented to
connect the sensor in a simple fire alarm system. The KY-026 sensor provides a low-
cost method for incorporating infrared flame detection in DIY and commercial alarm
designs.


Библиографические ссылки

References

Mukhammadziyo I. et al. Theoretical and experimental study of the law of

distribution of non-stationary heat flux in raw cotton stored in the bunt //AIP

Conference Proceedings. – AIP Publishing, 2023. – Т. 2789. – №. 1.

Madaliev, X. B., & Tukhtasinov, D. H. (2022). Development Of An Openness

Profile For A Logical Control System For Technological Equipment. Ijodkor

O'qituvchi, (20), 215-217.

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.

To’xtasinov , D. (2023). REVOLUTIONIZING THE COTTON INDUSTRY:

THE DEVELOPMENT OF EXPERT SYSTEMS FOR ENGINE

DIAGNOSTICS. Interpretation and Researches, 1(10). извлечено от

http://interpretationandresearches.uz/index.php/iar/article/view/1242

Рузиматов, С., & Тухтасинов, Д. (2021). Выбор цифровых устройств для

регулирования содержания влаги хлопка-сырца. Central Asian Journal of

Theoretical and Applied Science, 2(9), 10-14.

Abdusamat K., Mamatovich A. S., Muhammadziyo I. Mathematical Modeling of

the Technological Processes Original Processing of Cotton //International Journal

of Innovation and Applied Studies. – 2014. – Т. 6. – №. 1. – С. 28.

Джураев Ш. С. и др. Система освещения при выращивании гидропонного

зеленого корма в климатических условиях Узбекистана //Universum: химия и

биология. – 2020. – №. 8-1 (74). – С. 19-22.

Sobirjonovich, Djurayev Sherzod, and Madaliyev Xushnid Baxromjon ogli.

"TRAFFIC FLOW DISTRIBUTION METHOD BASED ON 14 DIFFERENTIAL

EQUATIONS." Intent Research Scientific Journal 2.10 (2023): 1-10.

Джураев Ш.С., Тухтасинов Д.Х., Асқаров А.А., Хайдоров Б.А., & Файзуллаев

Д.З. (2022). ПРОЕКТИРОВАНИЕ ИНДИВИДУАЛЬНОЙ

ОБРАЗОВАТЕЛЬНОЙ ПРОГРАММЫ. Экономика и социум, (5-2 (92)), 427-

Nematova Nilufar Qayimovna. (2023). Naqshbandiya tariqati va uning ma’naviy

jihatlari. SAMARALI TA’LIM VA BARQAROR INNOVATSIYALAR, 1(4),

–231. Retrieved from

https://innovativepublication.uz/index.php/jelsi/article/view/154