Sesouai e-pos sebelumen anuskumentan sempai makalah CEIE 2015 di UM Malang sampai sampai 31 Agustus 2015 dari waktu sari 30 Agustus 2015. It is a great pleasure to inform you that CEIE 2015 Committee is organized by the International University of Malang by the International University of State Review. decided to accept your paper entitled “Power Quality Analysis of Integration Photovoltaic Generator to Three Phase Grid in Variable Solar Irradiance Level” ID Number B-21 for presentation. Click on the following link to submit your complete paper: http://elekro.um.ac.id/ceie/2015/member/.

Visit our website elektro.um.ac.id/ceie/2015 (for registration and payment) or contact us at ceie2015@gmail.com. Visit our website elektro.um.ac.id/ceie/2015 (for registration and payment) and contact us at ceie2015@gmail.com for further information.

Best regards,

Terima kasih telah mengirimkan scan KTM Anda sebagai bukti status Anda sebagai mahasiswa PhD di Institut Teknologi Sepuluh Nopember Surabaya.

CEIE 2015 Committee

Terima kasih telah menghubungi kami Sebelum kami sempat menjawab pertanyaan Anda, total ada 3 orang yang datang ke Malang (2 penulis lainnya). Sedangkan bagi pelamar sebagai pelajar, diperlukan scan KTM sebagai bukti masih berstatus pelajar. Untuk detail pembayaran, silakan lihat link berikut: http://elektro.um.ac.id/ceie/2015/news/id/registration_fee.

Kunjungi website kami di Elektro.um.ac.id/ceie/2015 (untuk registrasi dan pembayaran) dan hubungi kami di ceie2015@um.ac.id untuk informasi lebih lanjut. Koreksi harus dikirimkan ke redaksi Telkomnika (telkomnika@ee.uad.ac.id) dan ceie2015 (ceie2015@um.ac.id) paling lambat tanggal 1 Desember agar tidak dimuat dalam prosedur ceie.

Secara umum

Menurut penilaian TELKOMNIKE, masih ada beberapa hal pada tulisan Anda yang perlu diperbaiki sebelum dimuat di majalah.

Secara khusus

Berdasarkan proses review, makalah Anda diusulkan untuk dipublikasikan di Jurnal Telkomnika/JPH/JPS (lihat lampiran). Makalah ini merupakan hasil seleksi dari 7 (tujuh) makalah lokakarya internasional CEIE 2015 pada tanggal 3 Oktober 2015 di UM Malang, yang diusulkan untuk diterbitkan pada Jurnal Internasional. Oke pak, kirimkan versi Anda secara online nanti. http://journal.uad.ac.id/index.php/TELKOMNIKA/user/register) atau email telkomnika@ee.uad.ac.id.

Saya tidak mendapat penjelasan dari UM Malang (Ibu Siti Sendari) bahwa untuk masuk jurnal telekomunikasi harus online. Tadi saya berinisiatif menanyakan hasil review, mengingat saya sudah menyampaikannya sejak 12 November 2015 dan baru mendapat tanggapan setelah saya bertanya.

Subject:Re: Fw: Amirullah_kirim makalah untuk dimuat di Jurnal Internasional Telkomunika UAD

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Photovoltaic Generator to Three Phase Grid under Variable Solar Irradiance Level" (tidak berhubungan dengan masalah robot). Perihal: Re: Fw: Amirullah_send paper untuk diterbitkan di Jurnal Internasional Telkomunika UAD Telkomunika UAD. Sehubungan dengan jurnal usulan saya, salah satu dari 7 Seminar Jurnal Internasional CEIE Malang pada hari Sabtu tanggal 3 Oktober 2015 yang diusulkan untuk diterbitkan di Jurnal Telkomunika UAD Yokyakarta dengan judul “Analisis Kualitas Daya Integrasi Generator Fotovoltaik ke Jaringan Tiga Fasa pada Tingkat Radiasi Surya Variabel”.

Makalah ini berjudul “Analisis Kualitas Daya Integrasi Generator Fotovoltaik ke Jaringan Tiga Fasa pada Tingkat Penyinaran Matahari Bervariasi” (Amirullah, Ontoseno Penangsang, Adi Soeprijanto) dengan Kode B-21. Tulisan ini merupakan hasil seleksi dari 7 (tujuh) makalah Seminar Internasional CEIE 2015 pada tanggal 3 Oktober 2015 di UM Malang yang diusulkan untuk dipublikasikan di Jurnal Internasional Telkomunika UAD. Judul makalah saya: "Analisis Kualitas Daya Integrasi Generator Fotovoltaik ke Jaringan Tiga Fasa pada Tingkat Penyinaran Matahari Variabel" (B-21).

Terlampir Anda dapat menemukan buku harian saya yang berjudul "Analisis Kualitas Daya Integrasi Generator Fotovoltaik ke Jaringan Tiga Fasa di Bawah Tingkat Radiasi Matahari Variabel" (Amirullah, Ontoseno Penangsang, Adi Soeprijanto) dan alamat kontak penulis (Revisi_Amirullah_di mana alamat Anda) untuk dipublikasikan di Telkomnika Jurnal (undangan khusus). Telkomunika UAD Yokyakarta dengan judul “Analisis Kualitas Daya Integrasi Photovoltaic Generator ke Jaringan Tiga Fasa pada Tingkat Radiasi Matahari yang Bervariasi” (Amirullah, Ontoseno Penangsang, Adi Soeprijanto), saya ingin menanyakan apa hasil penilaian proposal ini oleh redaksi dari majalah tersebut. . Artikel ini merupakan hasil seleksi dari 7 (tujuh) makalah Seminar Internasional CEIE 2015 pada tanggal 3 Oktober 2015 di UM Malang, yang diusulkan untuk dipublikasikan di Jurnal Internasional Telkomunika UAD.

Demikian saya sampaikan bahwa makalah saya yang berjudul: “Analisis Kualitas Daya Generator Fotovoltaik Terintegrasi Dalam Jaringan Tiga Fasa Pada Tingkat Radiasi Matahari Variabel” (Amirullah, Ontoseno Penangsang, Adi. Soeprijanto) telah mendapat status minor revisi ( diterima dengan sedikit revisi) pada Jurnal Telkomnika Universitas Ahmad Dahlan (UAD) Yokyakarta Volume 14 Nomor 1 Edisi Maret 2016 (Scopus Q3) dengan. Paper ini merupakan salah satu dari 7 paper (dari total 83 paper) pada Seminar Internasional CEIE 2015, Universitas Negeri Malang (UM) pada tanggal 3 Oktober 2015 yang diusulkan oleh Komite CEIE untuk dipublikasikan di Jurnal Telkomnika UAD. Kemudian kirimkan bukti pembayaran Anda ke: eyudhana@yahoo.com, sonjannah@gmail.com, eyudhana@yahoo.com cc: tole@journal.uad.ac.id.

Kemudian jurnal tersebut saya kirimkan langsung ke alamat email telkomnika@ee.uad.ac.id dan tole@journal.uad.ac.id. Analisis kualitas daya integrasi generator fotovoltaik dalam jaringan tiga fasa dengan variabel tingkat radiasi matahari (Amirullah Amirullah, Ontoseno Penangsang, Adi . Soeprijanto) http://journal.uad.ac.id/index.php/TELKOMNIKA/article /view /3298 yang akan dimuat di Majalah Internasional Telkomnika Univ.

Power Quality Analysis of Integration Photovoltaic Generator to Three Phase Grid

Electrical Engineering Study Program, Engineering Faculty,

INTRODUCTION

2 three phase industrial and residential distribution network has

THEORY A. Power Quality and Harmonics

3 sources. With the development of microgrid can contribute to

The current characteristics of the diode (ID) are expressed in equation 7, where the value of the saturation current IO is a diode, where VT represents the thermal voltage. Furthermore, using Kirchoff's law, the shunt current Ish is defined in the following equation: Maximum power point tracking (MPPT) produces maximum power under conditions of solar radiation and ambient temperature variation.

The main advantage of this technique is that MPPT research is done independently in environmental conditions, although its use is necessary for current and voltage sensors. On the other hand, the constant voltage method method is used to keep the voltage generated by the PV terminal at a constant value and according to the MPPT line [13]. The passive filter technique is one of the most widely used methods to smooth or reduce harmonics in the electrical network.

In addition to the reduction passive harmonic filter, it can be used to optimize the reactive power in the electrical network. This filter is permanent and once installed it becomes part of the network and must be reshaped to obtain different filter frequencies. The passive filter is still considered the best in a three-phase, four-wire network system.

Shunt filter using passive components and offers better harmonic reduction, especially in harmonics 3, 5 and 7. Economic aspects show that shunt filter is more economical than filter series because both are designed for current harmonics only. In general, the filter capacitor Cf is determined from the reactive power compensation Qc necessary to increase the value of the power factor, which is expressed in the equation:.

5 Filter quality factor Q determines the sharpness of tuning

METHODOLOGY A. Research Method

RESULT AND DISCUSSION

6 Figure 9 shows a graph of the value of harmonics

CONCLUSION

7 VI. ACKNOWLEDGMENT

Low Voltage Distribution Line Length PWM Generator Capacitor DC Link For Each PV Generator Dual Passive Tuned Filter. Phase voltages and network voltage THD in three three-phase grid-connected PV generator integration models No. W/m2) PV-Phase Integration Voltage (V) THDV THDV. The result of the simulation is the grid voltage in the integration of two PV models connected to the three-phase grid (solar radiation of 1000 W m2). i) Before the Double Tuned Passive Filter (ii) After using the Double Tuned Passive Filter (b) PV1+PV2+PV3. i) Before Passive Double Tuned Filter (ii) After using Passive Double Tuned Filter Figure 8.

Harmonic spectrum of the network voltage of phase A on two PV integration models of the connected network (solar radiation 1000 W/m2). Grid harmonic voltage level in three PV integration models connected to a three-phase grid (irradiance from 400 to 1000 W/m2). Results of network current simulation when integrating two PV models connected to a three-phase network (irradiance 1000 W/m2). i) Before filter Passive double tuned (ii) After filter Passive double tuned (b) PV1+PV2+PV3. i) Before filter Passive double tuned (ii ) After filter Passive double tuned.

Harmonic spectrum of current phase A grid on two models of integration of PV connected grid (Radiation of 1000 W/m2). Level of harmonic current grid in three models of integration PV connected to three-phase grid (radiation from 400 to 1000 W/m2).

REGISTRATION PROOF

DISTRIBUTION AUTOMATION WORKSHOP BY WININDO

• Reading the biographical data of speaker 5 minutes 08.15 – 09.00 2) Presentation by speaker 30 minutes
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• Workshop and Question-answer session 120 minutes Closing 1) The wise words and hope of Workshop
• Reading the schedule of workshop LabVIEW and MyDAQ
• Workshop and Question-answer session 90 minutes 3) Closing of workshop session 1 5 minutes

Workshop Session II

• Presentation by speaker and Question-answer session
• Workshop and Question-answer session 90 minutes
• CLosing 1) The wise words and hope of Workshop Participant 5 minutes 15.45 - 16.00 2) Delivery of a memento to the speaker 10 minutes
• Opening 1) Opening and Praying lead by MC 5 minutes 08.00-08.30 2) The Speech from chairman of the electrical
• Reading the schedule of workshop Sharing of Journal International Writing
• Presentation 1) Presentation by speaker and Question- answer session
• Workshop and Question-answer session 75 minutes
• Closing 1) Workshop and Question-answer session 10 minutes 10.45 – 11.00

PARTS OF THE JOURNAL INTERNATIONAL WRITING BY MR. Opening 1) Opening and prayer led by MC 5 minutes The speech of the chairman of the electrical department. 2) The speech of the chairman of the electrical department.

SCHEDULE CEIE 2015

Electrical Engineering Department

HME 3) WSE

Robotic Team 5) Engineering Faculty

08.10-09.30 2) Singing Indonesia Raya 10 minutes

The Speech from chief of committee CEIE 2015

CEIE Videos playback 5 minutes 5) The Speech from dean of

The Speech from rector of Malang State University

Opening CEIE 2015 by Striking Gong

Tanah airku song 2) Heal the world song

Reading the biographical data of Keynote Speaker by

Presentation from Keynote Speaker

Question and answer session 15 minutes

MC on the stage 5 minutes

10.45-12.15 2) Reading the biographical data

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12.30-13.30 2) Moving in front of Graha

Moving to the mosque 15 minutes

Moving to H5 Building 5 minutes

PARARELL SESSION

2 nd floor dan 3 rd floor, Faculty of Engineering

Author 4

Author 8

Checklist for Final Papers

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Power Quality Analysis of Integration Photovoltaic Generator to Three Phase Grid under Variable Solar

Irradiance Level

• Introduction
• Proposed Model of PV Generator System Connected to Three Phase Grid
• Shunt Passive Filter
• Conclusion
• Acknowledgment

Investigated power quality aspects are fluctuation or change and harmonics of voltage and current on eight scenarios PV generator connected to three-phase grid. Power quality analysis of integration photovoltaic generator to three-phase grid under variable solar irradiance level (Amirullah) 3 d. Nominal phase and average voltage harmonic (THDV) grid on three models of integration of PV generator connected to the three-phase grid. W/m2) PV Integration Phase Voltage (V) THDV THDV.

Nominal network phase and mean harmonic current (THDI) in three integration models of PV generators connected to the three-phase network. W/m2) PV Integration Phase Current (A) THDI THDI. Power quality analysis of the photovoltaic generator integrated in the three-phase network under variable solar radiation level (Amirullah) 9. Average harmonics of the voltage network in three PV integration models connected to the three-phase network under the solar radiation level of 400 to at 1000 W/m2.

Without double-tuned passive filter, the largest THD average of grid voltage is generated on the condition of all PV generators connected to the three-phase grid (PV1 + PV2 + PV3) and the radiation level of 800 W/m2 at 4.11%. The smallest average grid voltage THD produced on the condition of the PV generators connected to the grid three-phase (PV1) and the radiation level of 400 W/m2 of 0.03%. The smallest average THD of grid current is produced on the condition of the PV generators connected to the three-phase network (PV1) and the radiation level of 400 W/m2 at 0.00%.

However, if the PV generator connected to the three-phase network constituted more than one generation (PV1+PV2 and PV1+PV2+ PV3), the voltage and current network becomes unstable (fluctuations). At the level of solar radiation, the larger number of PV generators remain connected to the three-phase grid, then the nominal voltage and current THD also increase. Average THD of the voltage and current network is reduced after double-tuned passive filter installed in the three-phase network.