Main Article Content
Abstract
Abstrak
Nowadays induction heating has become one of the people's choices in the heating process both in industry and households. Induction heating technology is also growing. But the electrical quantities that change with the temperature changes in the induction heating process must also be analyzed. To make induction heating, we need a device that is capable of producing large electrical energy. This tool uses a 12 Volt DC voltage, strong current 10 ampere and with a 120 watt input power. This induction heater is made using a half bridge inverter which generates heat through waves at high frequencies. The resonant frequency used is 25kHz. From the test obtained an average temperature increase of 134.5 ° C at the 600th second with a paper clip load and with a voltage of 3.33 Volts, a current of 0.15 A, a power of 0.56 watts, and a heat of 19.5J, and a test with a load nails obtained an average temperature of 136 ° C at 360 seconds with a voltage of 4.54 V, a current of 0.27 A, power of 1.12 watts, and a heat of 33.6J
Kata kunci : Pemanas Induksi, frekuensi, suhu, Solenoide.
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References
- REFERENSI
- R.Ismail, Jamari, M. Tauviqirrahman, dan A. Syakur, 2010, Pengembangan dan Penerapan Mesin Pemanas Induksi untuk Pengerasan Permukaan Roda Gigi Produk UKM. Laporan Akhir Tahun Hibah Strategis Nasional DIKTI, 2010.
- Rio dery Alem, Eny. 2015 Inverter frekuensi tinggi sebagai pemanas piringan logam dengan metode induksi pada aplikasi pemanas roti Universitas Diponegoro : Semarang
- Mahardika, T. (2012).Perancangan Inver-ter Full Bridge Resonansi Seri Frekuensi Tinggi Untuk Aplikasi Induction Cooker.Semarang Universitas Diponegoro.
- Zhulkarnaen, Y. (2014) Perancangan dan Pembuatan Pemanas Induksi De-ngan Metode Pancake Coil Ber-basis Mikrokontroller Atmega 8535. Malang: Universitas Bra- wijaya.
- V. Rudnev, D. Loveless, R. Cook dan M. Black, 2003, Handbook of Induction Heating, Marcel Dekker Inc., USA.
- E. Bowyer, 1987, Practical Heat Treating, American Society for Metal (ASM), Ohio, US.
- Taufik, Ardian Ramadhana. 2015, Perancangan Inverter Jembatan Penuh dengan filter seri- paralel Frekuensi tinggi untuk aplikasi lampu led, Universitas Diponegoro : Semarang
- Noviansyah, R. (2012). Pemanas Induksi (Induction Heating) Kapasitas 200 Watt. Cimanggis: Universitas Gunadarma.
- Rachmadi, T. (2014) Realisasi Modul Inver-ter Full Bridge Menggunakan MOSFET IRFP460 Pada Aplikasi Pemanas Induksi Semarang: Universitas Diponegoro.
- Raharjo, P. (2013). Rancang Bangun Pemanas Induksi Berkapasitas 600 W Untuk Proses Perlakuan Panas dan Perlakuan Permu-kaan. Surakarta: Universitas Se-belas Maret (UNS).
- N. Mohan and T. M. Undeland, Power Electronics: Converters, Applications, and Design, 2nd ed. United States of America: John Wiley and Sons, Inc., 1989.
- Zuhal. 1988. Dasar Tenaga Listrik Dan Elektronika Daya. PT Gramedia Pustaka Utama: Jakarta
- Rashid, Muhammad H. 1993. Power Electronics Circuit, Devices, and Applications, Second Edition,. Prentice-Hall International: London
- Roberts, M.R MC. 2009. Getting Started With Arduino. USA
- Yohan Fajar Sidik, F. Danang Wijaya, Eka Firmansyah. 2013 Sinusoidal Pulse Width Modulation Berbasis Lookup Table untuk Inverter Satu Fase Menggunakan 16- Bit Digital Signal Controller
- Bijoyprakash Majhi. 2012 Analysis of Single- Phase SPWM Inverter. Department of Electrical Engineering National Institute of Technology, Rourkela
- Rencono A. Wati. 2000. Desain Dan Analisa Pemanas Induksi. UKS: Semarang
References
REFERENSI
R.Ismail, Jamari, M. Tauviqirrahman, dan A. Syakur, 2010, Pengembangan dan Penerapan Mesin Pemanas Induksi untuk Pengerasan Permukaan Roda Gigi Produk UKM. Laporan Akhir Tahun Hibah Strategis Nasional DIKTI, 2010.
Rio dery Alem, Eny. 2015 Inverter frekuensi tinggi sebagai pemanas piringan logam dengan metode induksi pada aplikasi pemanas roti Universitas Diponegoro : Semarang
Mahardika, T. (2012).Perancangan Inver-ter Full Bridge Resonansi Seri Frekuensi Tinggi Untuk Aplikasi Induction Cooker.Semarang Universitas Diponegoro.
Zhulkarnaen, Y. (2014) Perancangan dan Pembuatan Pemanas Induksi De-ngan Metode Pancake Coil Ber-basis Mikrokontroller Atmega 8535. Malang: Universitas Bra- wijaya.
V. Rudnev, D. Loveless, R. Cook dan M. Black, 2003, Handbook of Induction Heating, Marcel Dekker Inc., USA.
E. Bowyer, 1987, Practical Heat Treating, American Society for Metal (ASM), Ohio, US.
Taufik, Ardian Ramadhana. 2015, Perancangan Inverter Jembatan Penuh dengan filter seri- paralel Frekuensi tinggi untuk aplikasi lampu led, Universitas Diponegoro : Semarang
Noviansyah, R. (2012). Pemanas Induksi (Induction Heating) Kapasitas 200 Watt. Cimanggis: Universitas Gunadarma.
Rachmadi, T. (2014) Realisasi Modul Inver-ter Full Bridge Menggunakan MOSFET IRFP460 Pada Aplikasi Pemanas Induksi Semarang: Universitas Diponegoro.
Raharjo, P. (2013). Rancang Bangun Pemanas Induksi Berkapasitas 600 W Untuk Proses Perlakuan Panas dan Perlakuan Permu-kaan. Surakarta: Universitas Se-belas Maret (UNS).
N. Mohan and T. M. Undeland, Power Electronics: Converters, Applications, and Design, 2nd ed. United States of America: John Wiley and Sons, Inc., 1989.
Zuhal. 1988. Dasar Tenaga Listrik Dan Elektronika Daya. PT Gramedia Pustaka Utama: Jakarta
Rashid, Muhammad H. 1993. Power Electronics Circuit, Devices, and Applications, Second Edition,. Prentice-Hall International: London
Roberts, M.R MC. 2009. Getting Started With Arduino. USA
Yohan Fajar Sidik, F. Danang Wijaya, Eka Firmansyah. 2013 Sinusoidal Pulse Width Modulation Berbasis Lookup Table untuk Inverter Satu Fase Menggunakan 16- Bit Digital Signal Controller
Bijoyprakash Majhi. 2012 Analysis of Single- Phase SPWM Inverter. Department of Electrical Engineering National Institute of Technology, Rourkela
Rencono A. Wati. 2000. Desain Dan Analisa Pemanas Induksi. UKS: Semarang