Inovasi Desain dan Simulasi Function Generator Dengan Integrasi Microcontroller
Abstract
This paper discusses the innovation design and simulation of the function generator. The design uses the Atmega16 microcontroller and Integrated Circuit (IC) DAC0808, ATmega16, and LF351. The design and simulation were implemented at the Electrical Laboratory of the PGRI Banyuwangi University as a practical reference. The function generator test uses a frequency range of 30 Hz to 200 KHz with three waveforms of sine, pulse and ramp. The simulation results show that a sine wave is obtained at a frequency of 1 KHz and a period of 1120 us. Pulse waves are obtained at a frequency of 1 KHz and a period of 1150 us, while a ramp wave with a frequency of 1 KHz and a period of 1150 us. This proves that the function generator can generate signal waves at a frequency of 1 KHz with varying periods.
References
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[22] M. Kollam, “Design And Implemation Of An Enhanced Dds Based Digital Modulator For Multiple Modulation Schemes,” Int. J. Smart Sens. Adhoc Network., no. December, pp. 102–107, 2011.
[23] J. Tierney, C. M. Rader, and B. Gold, “A Digital Frequency gnthesizer,” Ieee Trans. Audio …, vol. 1, no. 1, pp. 48–57, 1971.
[24] A. J. Salazar, G. Bahubalindruno, G. R. Locharla, H. S. Mendonça, J. C. Alves, and J. M. Da Silva, “A Study on Look-up Table Based Sine Wave Generation,” Rec 2011, no. February 2011, p. 4, 2011.
[25] T. Guo, K. Tang, and Y. Zheng, “A 1GHz configurable chirp modulation direct digital frequency synthesizer in 65nm CMOS,” Proc. - IEEE Int. Symp. Circuits Syst., vol. 2021-May, no. Cm, pp. 13–16, 2021.
[26] ATmel, “Datasheet ATmega16,” 1984.
[27] Atmel, “Datasheet LF351 Operational Amplifier,” 1997.
[28] Atmel, “ATMega 8535,” Datasheet, pp. 1–112, 2006.
[29] H. Su and S. Chen, “Multi-Channel PWM Signal Generation Method and Its Application on Robot Toy Control,” Proc. 8th WSEAS Int. Conf. SIGNAL Process. Robot. Autom. Multi-Channel, vol. 2, no. 1, pp. 25–30, 2015.
[30] T. T. M. B. Simulink, M. Aswan, and A. Hidayatno, “Pewujudan tapis digital bandpass iir menggunakan dsk tms320c6713tm,” pp. 320–325.
[2] A. R. Darlis, P. Trisapto, and L. Jambola, “Perancangan Dan Realisasi Sistem Pentransmisian Short Message Dan Sinyal Digital Pada Modulator Demodulator ( Modem ) Binary Phase Shift Keying ( BPSK) Berbasis Matlab 7.4.,” J. Itenas Rekayasa, vol. 17, no. 1, pp. 1–12, 2013.
[3] B. Fatkhurrozi, I. Nawawi, and Sudaryanto, “Rancang Bangun Audio Generator Untuk Frekuensi 20 Hz-10 KHz Berbasis Mikrokontroler AT89S52,” J. Penelit. Inov., vol. 32, no. 2, pp. 47–65, 2009.
[4] E. Nurraharjo, “Rangkaian Pembangkit Gelombang dengan menggunakan IC XR-2206,” Teknol. Inf. Din. J., vol. 18, no. 1, pp. 24–29, 2013.
[5] N. Wibarasta, “Pembangkit Gelombang Sinus , Segitiga Dan Kotak Menggunakan CPLD/FPGA,” Universitas Sanata Dharma Yogyakarta, 2010.
[6] N. S. Aminah and Jamzuri, “Desain Signal Generator Untuk Uji Kelistrikan Tubuh,” Pros. Semin. Nas. Fis. dan Pendidik. Fis., vol. 2, no. 1, pp. 246–256, 2013.
[7] R. A. Rahim, T. C. Heng, S. Sulaiman, and M. S. A. Manaf, “Pc Controlled Function Generator Using Direct Digital Synthesis ( Dds ) Technology for Electrical Capacitance Tomography,” J. Teknol., vol. 45, no. D, pp. 19–39, 2006.
[8] Tektronix, Signal Generator Fundamentals, vol. 1, no. 1. 2009.
[9] E. Mathew, S. Karamchandani, and T. D. Biradar, “Mobile function generator using Android,” Procedia Comput. Sci., vol. 49, no. 1, pp. 229–234, 2015.
[10] Z. Budiarso and W. Hadikurniawati, “Rekayasa Sistem Kendali Generator Sinyal XR-2206 Berbasis Arduino UNO R3,” Teknol. Inf. Din., vol. 19, no. 2, pp. 101–111, 2014.
[11] W. Aji and Sunardi, “Perancangan dan Simulasi Generator Fungsi Berbasis Proteus,” Simp. Nas. Teknol. Terap., vol. 4, no. 1, pp. 78–85, 2016.
[12] R. i Sudjoko and M. Margono, “Rancang Bangun Sistem Kendali Berbasis Logika Fuzzy pada Pengendalian Eksitasi Generator Sinkron,” J. Penelit., vol. 2, no. 4, pp. 242–248, 2017.
[13] X. Zhang, T. Qu, D. Yin, and Y. Liu, “Design and Implementation of PWM Generator Based on OMAP-L138,” IOP Conf. Ser. Mater. Sci. Eng., vol. 381, no. 1, 2018.
[14] F. Firdaus, R. Chadri, and N. Nasrullah, “Rancang Bangun Generator PWM Berbasis Mikrokontroler AVR ATmega,” Elektron J. Ilm., vol. 12, no. 2, pp. 61–66, 2020.
[15] S. A. Wibowo, S. H. Pramono, and M. Julius, “Desain 8 bit R3R Ladder Digital to Analog Converter,” J. EECCIS, vol. 6, no. 2, pp. 131–138, 2012.
[16] Semiconductor, “DAC0808 8-Bit D / A Converter 8-Bit D / A Converter,” 2001.
[17] T. Sutikno, N. R. N. Idris, I. M. Alsofyani, A. Jidin, and L. L. Raj, “FPGA based five-phase sinusoidal PWM generator,” PECon 2012 - 2012 IEEE Int. Conf. Power Energy, vol. 1, no. December, pp. 314–318, 2012.
[18] B.-G. Goldberg, Digital frequency synthesis demystified : DDS and fractional-N PLLs. 1999.
[19] Khairunnisa and Y. Indrasary, “Simulasi Akuisisi Data Sinyal Audio,” J. Simantec, vol. 5, no. 2, pp. 76–84, 2016.
[20] W. A. Kharisma and H. N. Isnianto, “Pembangkit Gelombang Terprogram Menggunakan DDS AD9851 Berbasis Mikrokontroler 18F4550,” J. Rekayasa Elektr., vol. 11, no. 1, pp. 8–14, 2014.
[21] I. Wayan Suwika Adnyana, T. Zubaidah, and C. M. Mustiko Okta, “Perancangan Dan Analisis Sistem Transfer Daya Listrik Tanpa Kabel Dengan Kumparan Multilayer Yang Bekerja Pada Frekuensi Rendah Design And Analysis Of Wireless Power Transfer By Multilayer Coils In Low Frequencies,” vol. 3, no. 2, pp. 161–172, 2016.
[22] M. Kollam, “Design And Implemation Of An Enhanced Dds Based Digital Modulator For Multiple Modulation Schemes,” Int. J. Smart Sens. Adhoc Network., no. December, pp. 102–107, 2011.
[23] J. Tierney, C. M. Rader, and B. Gold, “A Digital Frequency gnthesizer,” Ieee Trans. Audio …, vol. 1, no. 1, pp. 48–57, 1971.
[24] A. J. Salazar, G. Bahubalindruno, G. R. Locharla, H. S. Mendonça, J. C. Alves, and J. M. Da Silva, “A Study on Look-up Table Based Sine Wave Generation,” Rec 2011, no. February 2011, p. 4, 2011.
[25] T. Guo, K. Tang, and Y. Zheng, “A 1GHz configurable chirp modulation direct digital frequency synthesizer in 65nm CMOS,” Proc. - IEEE Int. Symp. Circuits Syst., vol. 2021-May, no. Cm, pp. 13–16, 2021.
[26] ATmel, “Datasheet ATmega16,” 1984.
[27] Atmel, “Datasheet LF351 Operational Amplifier,” 1997.
[28] Atmel, “ATMega 8535,” Datasheet, pp. 1–112, 2006.
[29] H. Su and S. Chen, “Multi-Channel PWM Signal Generation Method and Its Application on Robot Toy Control,” Proc. 8th WSEAS Int. Conf. SIGNAL Process. Robot. Autom. Multi-Channel, vol. 2, no. 1, pp. 25–30, 2015.
[30] T. T. M. B. Simulink, M. Aswan, and A. Hidayatno, “Pewujudan tapis digital bandpass iir menggunakan dsk tms320c6713tm,” pp. 320–325.
Published
2023-05-12
How to Cite
MULYADI, Adi; AMIN, Muhammad Zainal Roisul; ABDI, Muchlis.
Inovasi Desain dan Simulasi Function Generator Dengan Integrasi Microcontroller.
Jurnal Arus Elektro Indonesia, [S.l.], v. 9, n. 1, p. 21-26, may 2023.
ISSN 2443-2318.
Available at: <https://jurnal.unej.ac.id/index.php/E-JAEI/article/view/35067>. Date accessed: 27 july 2024.
doi: https://doi.org/10.19184/jaei.v9i1.35067.
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