Design of Atmega2560 Charge Controller Battery Using Static Bicycle


Rancang Bangun Baterai Charge Controller Atmega2560 Menggunakan Sepeda Statis


  • (1) * Agus Kiswantono            Bhayangkara University Surabaya  
            Indonesia

  • (2)  Achmad Zainul Muttakin            Bhayangkara University Surabaya  
            Indonesia

  • (3)  Bambang Purwahyudi            Bhayangkara University Surabaya  
            Indonesia

    (*) Corresponding Author

Abstract

At this time charging system has been increasingly advanced. advance with technological developments. One of them is the use of microcontrollers whose. applications are growing rapidly their application in charging. Battery Charge Controller is a charging device, to adjust the input voltage and output voltage of the battery so as not to overcharge and overdischarge. In this study, a battery charging control system with inputs produced by a pedal power plant was designed to drain the power from the power cycling generator to the Arduino Uno Microcontroller atmega 2560. The test that have been done on the Battery Charge Controller obtained a voltage of 14 volts, which causes the power supply to the load to be stable.

Author Biographies

Agus Kiswantono, Bhayangkara University Surabaya

Electrical Engineering Study Program

Achmad Zainul Muttakin, Bhayangkara University Surabaya

Electrical Engineering Study Program

Bambang Purwahyudi, Bhayangkara University Surabaya

Electrical Engineering Study Program

References

. A Kiswantono, E Prasetyo, A Amirullah, 2019, Comparative performance of mitigation voltage sag/swell and harmonics using DVR-BES-PV system with MPPT-Fuzzy Mamdani/MPPT-Fuzzy Sugeno, International Journal of Intelligent Engineering and Systems 12 (2), 222-235

. M Rizal-Alfariski, M Dhandi, A Kiswantono, 2022, JTECS: Jurnal Automatic Transfer Switch (ATS) Using Arduino Uno, IoT-Based Relay and Monitoring Sistem Telekomunikasi Elektronika Sistem Kontrol Power Sistem.

. AFZ Fauzi, A Kiswantono, S Saidah, 2021. Power Outage Sensing Device based on IOT for Service Quality Evaluation in the PLN Distribution System, ELKHA Jurnal Teknik Elektro Universitas Tanjungpura 13 (2), 155-160

. HD Paminto, A Kiswantono, 2021, RANCANG SIMULASI SISTEM OTOMATIS ATS-AMF MENGGUNAKAN AUTOMATION STUDIO, Aisyah Journal Of Informatics and Electrical Engineering 3 (1)

. Irfan Mahrubi, Jusuf Bintoro, Wisnu Djatmiko. “Rancang Bangun Solar Charge Controller Menggunakan Syncronous Non-Inverting Buck-Boost Converter Pada Panel Surya 50 Watt Peak (Wp) Berbasis Arduino Nano V3.0”.

. Seema, Bhim Sighn, 2017. Intelligent control of SPV-battery-hydro based microgrid.

. Needhu Varghese, Reji P. 2016. Battery charge controller for hybrid stand alone system using adaptive neuro fuzzy inference system.

. Nupur Khera, Nancy Rana, Narendiran S, Sarat Kumar Sahoo, Balamurugan M, S. Prabhakar Karthikeyan, I. Jacob Raglend. 2016. Design of charge controller for solar PV systems.

. P Hermawan, A Kiswantono, 2020, Rancang Bangun Automatic Transfer Switch (ATS) Dan Automatic Main Failure (AMF) Berbasis Arduino Uno R328P Pada Prototipe Pembangkit Listrik Tenaga Bayu (PLTB) 220VAC SinarFe7 3 (1)

. Pankaj Khatri. 2018. Overvoltage Protection Circuit(Online). https://circuitdigest.com/electronic-circuits/overvoltage-protection-circuit.Diakses 23 Agt. 2020.

. Sourav Gupta, 2019.Overcurrent Protection Using Op Amp (Online).

https://circuitdigest.com/electroniccircuits/overcurrent-protection-circuit-using-op-amp. Diakses 24 Agt. 2020.

. Windy Dankoff. How Charge Controller Work(Online). https://www.altestore.com/howto/how-charge-controllers-work-a3/.Diakses 22 Agt. 2020.

. Y Hermanto, A Kiswantono, 2021, Prototype Monitoring Electricity System 220v of Wind Power Plant (PLTB) based on the Internet of Things, IOTA Internet of Things and Artificial Intelligence Journal 1 (3).

Picture in here are illustration from public domain image (License) or provided by the author, as part of their works
Published
2023-04-20
 
Section
Electrical Power Engineering