Karakteristik motor DC menjadi hal mutlak yang perlu diketahui dalam proses pengendalian kecepatan penggerak elektrik. Konverter pengemudian elektrik yang sedang berkembang yaitu Interleaved Boost Converter. Pengendali fuzzy logic merupakan kendali yang efektif diterapkan banyak sistem linier maupun nonlinier dengan waktu operasi yang cepat. Hasil penerapan aplikasi motor DC berupa penyiram kecambah dapat berfungsi dengan baik pada variasi nilai setpoint kecepatan yang mana perubahan nilai tegangan keluaran berbanding lurus dengan perubahan kecepatan motor DC (30 Volt sd. 60 Volt ≈ 800 Rpm sd 1500 Rpm). Hal ini dapat membantu para petani kecambah dalam melakukan penyiraman biji kecambah secara otomatis seiring dengan perubahan suhu sekitar tanpa khawatir biji kecambah rusak.

S. Kumari and S. K. Swain, “Optimal Control based PID tuning for control of Four Quadrant Chopper fed DC Motor,” in Technologies for Smart-City Energy Security and Power (ICSESP), 2018, pp. 1–6.

N. Pimkumwong and M. S. Wang, “An Online Artificial Neural Network Speed Estimator for Sensorless Speed Control of Separately Excited DC Motor,” in International conference on electrical engineering/electronics, computer, telecommunications and information technology, 2018, pp. 37–40.

M. Sahana, S. Angadi, and A. B. Raju, “Speed Control of Separately Excited DC Motor Using Class A Chopper,” in International conference on circuit, controls, communications and computing, 2016, no. 1, pp. 1–6.

N. Pothi, “Flux-weakening Control Strategy of Separately Excited DC Machine Utilizing Voltage Regulation for Modifying Field Current,” in International conference on control and robotics engineering, 2017, pp. 160–164.

M. A. H. Azman, J. M. Aris, Z. Hussain, A. A. A. Samat, and A. M. Nazelan, “A Comparative Study of Fuzzy Logic Controller and Artificial Neural Network in Speed Control of Separately Excited DC Motor,” in International conference on control system, computing and engineering, 2017, no. November, pp. 24–26.

S. N. Thanh, C. N. The, and H. H. Xuan, “Improved Performance of a Sensorless DC Motor Control using Fuzzy Logic,” in International conference on intelligent and advanced systems, 2014.

A. P. Y. Waroh, “Analisa dan Simulasi SistemPengendalian Motor DC,” J. Ilm. Sains, 2014.

A. W. Ibrahim, T. W. Widodo, and W. T. Supardi, “Sistem Kontrol Torsi pada Motor DC,” Indones. J. Electron. Instrumentations Syst., vol. 6, no. 1, 2016.

N. Nugroho and S. Agustina, “Analisa Motor DC ( Direct Current ) sebagai Penggerak Mobil Listrik,” J. Mikrotiga, vol. 2, no. 1, pp. 28–34, 2015.

M. N. Yuski et al., “Rancang Bangun Jangkar Motor DC ( The Rotor of DC Motor Design ),” Berk. Sainstek, vol. 2, pp. 98–103, 2017.

A. Afrin and M. R. Ahmed, “Design, Improvement & Analysis of Solar Based Three-Stage Interleaved Boost Converter for BLDC Motor,” 2019 Int. Conf. Electr. Comput. Commun. Eng., no. 1, pp. 1–5, 2019.

S. Nahar, “Performance Analysis of Solar MPPT ( InC Algorithm ) Based Three Phase Interleaved Boost Converter using Coupled Inductor for Brushless DC Motor,” 2018 Int. Conf. Adv. Electr. Electron. Eng., pp. 1–4, 2018.

A. Ghosh, S. B. Santra, M. K. Maharana, and P. Biswal, “Torque Ripple and Efficiency Optimization of a Novel Boost Converter fed BLDC Motor Drive,” in International Conference on computational of power, energy, information and communication, 2016, pp. 344–349.

P. Karthika, A. B. M, P. Ayyappan, C. K. Sidharthan, and V. R. Rajakumar, “PV Based Speed Control of Dc Motor Using Interleaved Boost Converter With Sic MOSFET and Fuzzy Logic Controller,” in International conference on communication and signal processing, 2016, pp. 1826–1830.

I. M. Oise, U. H. Diala, G. N. Ezeh, and R. Opara, “Evaluation of Transient Response of a Separately Excited DC Motor under No-Load Condition,” in International conference on emerging and sustainable technologies for power and ICT in a developing society, 2013, pp. 258–262.

A. Narendra, N. V. Naik, and N. Tiwary, “PV fed Separately Excited DC Motor with a Closed Loop Speed Control,” 2018 IEEE 8th Power India Int. Conf., pp. 1–4, 2018.

M. S. Aftab and F. Aftab, “A Neuro-Adaptive Inverse Speed Control Mechanism for Separately Excited DC Motor with Nonlinearities,” inInternational conference on latest trends in electrical engineering and computing technologies, 2017, no. 1.

X. Liang, C. Zhang, S. Srdic, and S. M. Lukic, “Predictive control of a series-interleaved multicell three-level boost power-factor-correction converter,” IEEE Trans. Power Electron., vol. 33, no. 10, pp. 8948–8960, 2018, doi: 10.1109/TPEL.2017.2780244.

A. Tiwari, O. Jaga, and S. S. Soni, “Sliding Mode Controller Based Interleaved Boost Converter for Fuel Cell System,” in Recent Development in control, automation and power engineering, 2017, vol. 3, pp. 3–7.

N. Shaji and D. S. K, “Fuzzy Controlled Power Factor Correctionin AC/DC Interleaved Boost Converter,” Int. Conf. Circuit, Power Comput. Technol. [ICCPCT], pp. 165–173, 2016.

M. S. Gunawan, “Rancang Bangun Alat Penyiram Tanaman Otomatis Menggunakan Sensor Kelembaban Tanah,” J. Electr. Technol., vol. 1099, pp. 13–17, 2019.

S. Purwanti, Nurlina, and B. Gunawan, “Implementasi Teknologi Kreatif Dalam Mewujudkan Umkm Produktif Melalui Program Kemitraan Masyarakat ( PKM ) ( Kelurahan Kertajaya , Kecamatan Gubeng Kota Surabaya ),” J. Pengabdi. Masy., vol. 04, no. 01, pp. 49–54, 2019.

S. Riyadi, “Peran Motor Listrik pada Transportasi Ramah Lingkungan,” J. Prax., vol. 1, pp. 13–23, 2018.

H. Abu-rub, A. Iqbal, and J. Guzinski, High Performance Control of AC Drives with Matlab/Simulink Models. John Wiley & Sons, 2012.

M. A. Mazta, A. S. Samosir, and A. Haris, “Rancang Bangun Interleaved Boost Converter Berbasis Arduino,” J. Rekayasa dan Teknol. Elektro, no. 1, 2016.

S. Triyani and S. K. Risandriya, “Kendali Kecepatan Motor DC Berbasis Fuzzy Setting Point pada Labview,” J. Appl. Electr. Eng., pp. 6–11, 2018.