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"The dynamic nature of meteorological data and the commercial availability of diverse photovoltaic systems, ranging from single-junction silicon-based PV panels to concentrated photovoltaic (CPV) systems utilizing multi-junction solar cells and a two-axis solar tracker, demand a simple but accurate methodology for energy planners and PV system designers to understand the economic feasibility of photovoltaic or renewable energy systems. In this paper, an electrical rating methodology is proposed that provides a common playing field for planners, consumers and PV manufacturers to evaluate the long-term performance of photovoltaic systems, as long-term electricity rating is deemed to be a quick and accurate method to evaluate economic viability and determine plant sizes and photovoltaic system power production. A long-term performance analysis based on monthly and electrical ratings (in kWh/m2/year) of two developed CPV prototypes, the Cassegrain mini dish and Fresnel lens CPVs with triple-junction solar cells operating under the meteorological conditions of Singapore, is presented in this paper. Performances are compared to other conventional photovoltaic systems."

"Penggunaan metode direct untuk MPPT seperti increamental conductance, perturb and orbservation tidak menghasilkan pencarian yang cepat dan berosilasi pada daerah MPP. Perubahan nilai duty yang tetap dari metode tersebutlah yang menghasilkan keadaan tersebut. Sedangkan penggunaan metode PID dapat menghasilkan pencarian lebih cepat dan menghasilkan osilasi lebih kecil tetapi metode ini dikategorikan metode inderect dikarenakan pencarian titik tegangan referensi berdasanakan metode trial and error. Sehingga diajukan penggunaaan metode direct yang lain dengan yang menghasilkan pencarian lebih cepat dan osilasi lebih kecil yaitu penggunaan logika fuzzy. Perancangan dilakukan dengan metode simulasi, yaitu mensimulasikan rangkaian yang akan dipergunakan, rangkaian buck converter, dan beban yang berupa baterai dan mendapatkan nilai masukan jika nilai PWM rangkaian buck converter diubah – ubah. Untuk membandingkan hasil penggunaan algoritma fuzzy, akan disajikan perbandingan jika menggunakan algoritma P&O, hasil didapatkan nilai tanggapan waktu menggunakan algoritma fuzzy lebih cepat dan tunak setelah 347,8246 mikro sekon dibandingkan 608,6962 mikro sekon jika menggunakan algoritma P&O, didapatkan hasil arus tunak pada besar arus 1.6525 Ampere pada sisi keluaran sedangkan dengan menggunakan algoritma P&O akan berosilasi diantara 1.281 Ampere dan 1.689 Ampere, menunjukan bahwa penggunaan algoritma fuzzy manghasilkan hasil yang lebih baik untuk sistem pengecasan baterai dikarenakan terdapat mode constant current pada saat pengisian baterai lithium – ion yang perlu diperhatikan.

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The use of direct methods for MPPT such as increamental conductance, perturb and orbservation does not result in fast and stable power tracking in the MPP region. It is the fixed changes in duty value of the mentioned method that is resulting such situation. Whereas the use of the PID method can produce a much faster power tracking with smaller oscillations, but as this method is categorized as an inderect method the search for the correct voltage refenrece points is still based on the trial and error method.So, it is proposed to use another direct method which could result in much faster power tracking with smaller oscillations, namely the use of fuzzy logic algorithm. The design is carried out by simulation method, namely simulating the circuit to be used, the buck converter circuit, and the load in the form of a battery and obtaining the input and ouput value in reference to PWM value of the buck converter circuit, when the value is varied. To compare the results of using the fuzzy algorithm, a comparison will be presented such when using the P&O algorithm. The end results obtained is that the rise time of using the fuzzy algorithm are much faster and able to reach stedy state condition after just 347.8246 micro seconds compared to 608.6962 micro seconds when using the P&O algorithm, another result is that the current value are stable at 1.6525 Ampere at the battery output side, while using the P&O algorithm it will oscillate between 1.281 Ampere and 1.689 Ampere, indicating that the use of the fuzzy algorithm produces better results for a system with battery load because there is a constant current mode when recharging lithium-ion batteries that need to be noted."

"Dengan adanya perangkat lunak simulasi, maka dapat membuat suatu model sistem sel surya atau disebut dengan photovolotaic simulator agar dapat mempelajari kinerja pengisian baterai, tanpa harus selalu memasangkan baterai dengan sel surya. Saat ini sudah banyak PV simulator dengan berbagai varisi metode dan perumusan. Perangkat lunak semacam ini sangat membantu sekali khususnya pada industri-industri automasi maupun laboratorium karena sifatnya yang mempermudah dalam melakukan perancangan maupun analisa suatu masalah. Penelitian mengenai photovoltaic simulator dengan menggunakan dua komponen perangkat lunak (software). Komponen software pertama menggunakan National Instruments (NI) LABVIEW untuk membuat Model Sel Surya, sementara komponen software kedua menggunakan NI Multisim untuk membuat model Semi Konverter Satu Fasa. Pertama-tama, model matematis dari photovoltaic (sel surya) akan dijelaskan terlebih dahulu. Kemudian, setelah didapat model matematis dari sel surya, Photovoltaic Simulator akan direalisasikan ke dalam LABVIEW selanjutnya membuat rangkaian Semi Konverter Satu Fasa menggunakan Multisim. Photovoltaic Simulator akan mengendalikan konverter menggunakan pengendali IP dengan referensi terhadap model photovoltaic. Sinyal kendali dari pengendali IP dipakai untuk menghasilkan sinyal PWM yang mengatur sudut penyalaan konverter. Masukan berupa irradiansi dan suhu diberikan ke Photovoltaic Simulator, kemudian arus dan tegangan dari konverter akan di umpan balik ke Photovoltaic Simulator. Kesimpulan dari penelitian ini adalah arus dan tegangan konverter mengalami kenaikan saat irradiansi dan suhu meningkat.

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With the simulation software, it is possible to create a model of a solar cell system or called a photovolotaic simulator in order to study battery charging performance, without having to always install a battery with solar cells. Currently, there are many PV simulators with various methods and formulations. This kind of software is very helpful, especially in automated and laboratory industries because of its nature which makes it easier to design and analyze a problem. Research on photovoltaic simulators using two software components. First, software components use National Instruments (NI) LABVIEW to create the Solar Cell Model, while the second software is NI Multisim to create semi converter single phase circuit model. First, the mathematical model of the solar cell will be explained. Then, this mathematical model realized using LABVIEW. Second, creating semi converter single phase circuit model using Multisim. The Photovoltaic Simulator will control the converter using IP controller in the reference of the photovoltaic model. Control signals from IP controller are used to generate PWM signal, which control the triggering angle of the converter. Irradiance and temperature inputs are given to the Photovoltaic Simulator, then the current and voltage outputs from converter will be used as feedbacks to the Photovoltaic Simulator. The result from this research the Voltage and current increase when the Irradiance and temperature inputs increase."

"ABSTRAKDisebabkan lokasinya di iklim tropis, Indonesia memiliki faktor kondisi cuaca yang berbeda dari iklim subtropis sehingga memengaruhi bebarapa indikator evaluasi kinerja sistem fotovoltaik. Salah satu indikator tersebut ialah performance ratio yang dipengaruhi faktor suhu. NREL mengajukan metode perhitungan Weather-Corrected Performance Ratio untuk mengoreksi faktor cuaca suhu dalam menghitung performance ratio pada sistem fotovoltaik. Tetapi, implementasi penggunaan metode ini pada kondisi operasi sistem fotovoltaik pada lingkungan yang sebenarnya, terlebih di daerah tropis belum mendapat perhatian khusus. Selain itu koefisien perubahan daya modul terhadap suhu pada keadaan uji standar STC , yang digunakan pada metode perhitungannya mungkin berbeda jika pada kondisi yang sebenarnya. Penelitian ini dilakukan untuk mengetahui efek implementasi metode weather-corrected performance ratio dan mengetahui karakteristik nilai koefisien perubahan daya modul terhadap suhu sebagai faktor koreksi dalam metode weather-corrected performance ratio, pada kondisi yang sebenarnya di daerah tropis. Melalui pengolahan data sistem fotovoltaik dari data logger didapat bahwa nilai range dari metode weather-corrected performance ratio lebih besar dari metode konvensional, dengan kenaikan maksimum 2,43 . Selain itu diketahui bahwa suhu rata-rata iklim tropis yang lebih tinggi dari subtropis membuat persentase penurunan daya terhadap kenaikan suhu di iklim tropis lebih tinggi dari iklim subtropis.

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ABSTRACT

Indonesia has different weather factors than the subtropical climate that influences the performance indicators of photovoltaic systems. One of them is performance ratio that affected by temperature factors. NREL propose calculation method of Weather Corrected Performance Ratio for correcting factors temperature in calculation performance ratio of photovoltaic systems. However, the implementation of this method on real operating conditions of photovoltaic systems, especially in the tropics has not received special attention. In addition, temperature coefficient of power photovoltaic in Standard Test Condition , used in the calculation method may be different in real operating condition. This study was conducted to determine the effects of weather corrected performance ratio method and to know characteristic of temperature coefficient of power photovoltaic as factors in of weather corrected performance ratio method, in real operating condition, especially in tropics. Through analysis photovoltaic system data from the data logger it is found that the range values of weather corrected performance ratio are greater than conventional methods, with a maximum increase of 2.43 . Moreover it is found that because average temperature of tropical climate is higher than subtropical climate, it makes the percentage of power decrease to rise in temperature in tropical climate is higher than subtropical climate. "

"Industri otomotif terus berkembang di Indonesia, bidang ini terpilih sebagai prioritas lima sektor manufaktur dalam program pemerintah Making Indonesia 4.0. Dengan target menjadi produsen mobil terbesar di ASEAN, berdampak pada pertumbuhan konsumsi listrik sektor otomotif sebesar 6% per tahun pada kuartal IV 2021. Dibutuhkan penambahan kapasitas daya listrik yang selaras dengan komitmen pemerintah untuk beralih ke energi terbarukan. Penerapan Pembangkit Listrik Tenaga Surya (PLTS) terdistribusi di sisi konsumen merupakan salah satu alternatif terbaik untuk penambahan kapasitas daya produsen otomotif yang diharapkan bisa bersaing di kancah internasional sebagai perusahaan berbasis energi bersih. Seperti yang diketahui, investasi PLTS masih menjadi tantangan bagi pelaku industri, maka, model bisnis third-party ownership (TPO) menjadi salah satu solusi alternatif dalam mengatasi masalah tersebut. Tujuan dari penelitian ini adalah menganalisis tekno-ekonomi PLTS terdistribusi dengan odel bisnis TPO dengan tiga skema, yaitu on-grid, stand-alone, dan hybrid, dengan studi kasus pabrik ATPM – S1. Metodologi yang digunakan adalah mendesain kapasitas dan sistem operasi PLTS terdistribusi menggunakan perangkat lunak Homer Pro, lalu menganalisis keekonomian dengan metode cashflow menggunakan 3 skenario tarif (ceiling price setara tarif PLN I-3, variatif, dan floor price yaitu pada saat IRR=WACC), dan performa panel surya. Skema bisnis TPO yang dianalisis dengan solar leasing skema fixed rent (FR) dan performance-based rent (PBR). Hasil penelitian ini menunjukkan bahwa skema on-grid dengan kapasitas PLTS sebesar 204 kWp, beroperasi dari pukul 06.00 s.d. 18.00, dengan nilai investasi sebesar 185.740 USD. Nilai IRR ketiga skenario tarif FR adalah 10,17%, 10,032%, dan 9,24%, sedangkan PBR sebesar 9,305%, 9,168%, dan 8,386%. Skema stand-alone menghasilkan kapasitas PLTS sebesar 1,570 MWp dengan Battery Energy Storage System (BESS) sebesar 9.000 kWh, beroperasi selama 24 jam, dengan nilai investasi 2.803.988 USD. Nilai IRR ketiga skenario tarif FR dan PBR adalah sama sebesar -13,44%, 10,295%, dan 9,24%. Skema hybrid menghasilkan kapasitas PLTS sebesar 800,28 kWp dengan BESS sebesar 4.000 kWh, beroperasi selama 24 jam, dengan nilai investasi 1.376.712 USD. Nilai IRR ketiga skenario FR adalah -3,89%, 10,77%, dan 9,24%, sedangkan PBR sebesar -4,93%, 9%, dan 7,48%. Nilai IRR pada PBR lebih rendah dibandingkan dengan FR, karena pada PBR terdampak degradasi daya panel surya. Skema hybrid dengan skenario 1 memiliki O&M yang selalu di atas pendapatan. Maka, penerapan TPO PLTS terdistrbusi pada ATPM – S1, hanya layak menggunakan skema on-grid solar leasing fixed rent.

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The automotive industry continues to grow in Indonesia, this field was chosen as a priority for the five manufacturing sectors in the government's Making Indonesia 4.0 program. With a target to become the largest car manufacturer in ASEAN, it will have an impact on the growth of electricity consumption in the automotive sector by 6% per year in the fourth quarter of 2021. It is necessary to increase electricity capacity in line with the government's commitment to switch to renewable energy. The application of distributed solar photovoltaic (DSPV) on the consumer side is one of the best alternatives to increase the capacity of automotive manufacturers which are expected to compete internationally as clean energy-based companies. As is well known, PV mini-grid investment is still a challenge for industry players, so the third-party ownership (TPO) business model is an alternative solution to overcome this problem. The purpose of this study is to analyze the techno-economy of distributed solar power with a TPO business model with three schemes, namely on-grid, stand-alone, and hybrid, with a case study of the ATPM – S1 factory. The methodology used is to design the capacity and operating system of distributed PV mini-grid using Homer Pro software, then analyze the economy with the cash flow method using 3 tariff scenarios (the ceiling price is equivalent to the PLN I-3 tariff, varied, and the base price is when IRR = WACC), and solar panel performance. The TPO business scheme analyzed by leasing solar fixed rent (FR) and performance-based rent (PBR) schemes. The results of this study indicate that the on-grid scheme with a PLTS capacity of 204 kWp, operates from 06.00 s.d. 18.00, with an investment value of 185,740 USD. The IRR values of the three FR tariff scenarios are 10.17%, 10.032%, and 9.24%, while the PBR are 9.305%, 9.168%, and 8.386%. The stand-alone scheme produces a PLTS capacity of 1,570 MWp with a Battery Energy Storage System (BESS) of 9,000 kWh, operating for 24 hours, with an investment value of 2,803,988 USD. The IRR values for the three FR and PBR tariff scenarios are the same at -13.44%, 10.295%, and 9.24%. The hybrid scheme produces a PLTS capacity of 800.28 kWp with a BESS of 4,000 kWh, operating for 24 hours, with an investment of 1,376,712 USD. The IRR values of the three FR scenarios are -3.89%, 10.77%, and 9.24%, while the PBR are -4.93%, 9%, and 7.48%. The IRR value for PBR is lower than FR, because PBR inhibits the decrease in solar panel power. The hybrid scheme with scenario 1 has O&M always above revenue. So, the application of TPO PLTS distributed to ATPM – S1, is only feasible to use the fixed rent on-grid solar leasing scheme."

"Dalam rangka mendukung penandatangan Paris Agreement untuk menurunkan emisi gas rumah kaca sebesar 29% di tahun 2030 serta Rencana Umum Energi Nasional (RUEN) menetapkan porsi energi terbarukan minimal 23% dalam bauran energi pada tahun 2025, dibutuhkan adanya alternatif pergantian bahan bakar fosil. Energi surya merupakan salah satu energi terbarukan yang melimpah di Indonesia dan dapat digunakan sebagai sumber listrik melalui pembangkit listrik tenaga surya (PLTS). PLTS terapung merupakan sistem modul surya yang dipasang di atas media yang mengapung pada berbagai jenis permukaan perairan. Danau Universitas Indonesia memiiki potensi yang besar untuk dibangun PLTS terapung, terlebih dapat memecahkan masalah keterbatasan lahan. Penelitian ini membahas tentang analisis risiko investasi PLTS terapung pada seluruh Danau UI, yaitu Danau Agathis, Danau Kenanga, Danau Puspa, Danau Salam, dan Danau Ulin. Berdasarkan hasil perhitungan keekonomian, seluruh Danau UI memiliki nilai NPV positif, IRR diatas 8%, PBP kurang dari 15 tahun, dan PI lebih dari 1. Nilai LCOE yang dihasilkan untuk seluruh Danau UI masih di bawah harga patokan tertinggi sebesar 60% dari harga pembelian tenaga listrik golongan P-2 yang sebesar 8,915 cent/kWh, yaitu berkisar pada 4 cent/kWh, yakni. Hal ini menandakan bahwa proyek ini dikatakan layak untuk dilaksanakan. Untuk mendukung hasil perhitungan keekonomian, dilakukan analisis risiko dengan menggunakan simulasi Monte Carlo. Terlihat bahwa keenam Danau UI memiliki nilai derajat keyakinan terhadap nilai NPV, IRR, PBP, dan PI diatas 75%. Berdasarkan analisis sensitivitas, terlihat bahwa penjualan daya ke PLN dan LCOE merupakan komponen paling berpengaruh pada penelitian ini.

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In order to support the signing of the Paris Agreement to reduce emissions by 29% in 2030, and in alignment with the General Plan for National Energy (RUEN) that sets a minimum of 23% renewable energy in the energy mix by 2025, alternatives are needed to replace fossil fuels. Solar energy is one of the abundant renewable energy sources in Indonesia and can be utilized as an electricity source through photovoltaic solar power plants. Floating solar power plants are systems where solar modules are installed on floating media on various types of water surfaces. The lakes at the University of Indonesia have great potential for the construction of floating solar power plants, especially as a solution to the problem of land scarcity. This study discusses the investment risk analysis of floating solar power plants in all the lakes at UI, namely Lake Agathis, Lake Kenanga, Lake Puspa, Lake Salam, and Lake Ulin. Based on economic feasibility calculations, all of the UI Lakes have a positive NPV, an IRR above 8%, a PBP of less than 15 years, and a PI greater than 1. The resulting LCOE for all UI Lakes are still below the highest price of 60% of the P-2 electricity purchase price of 8.915 cents/kWh, which is around 4 cents/kWh. This indicates that the project is feasible to be implemented. To support the economic feasibility results, a risk analysis was conducted using Monte Carlo simulation. It shows that all of UI Lakes have a degree of freedom above 75% for NPV, IRR, PBP, and PI values. Based on sensitivity analysis, it is evident that power sales to PLN and LCOE are the most influential components in this study."

"This paper presents the outcome of the trend analysis of hydro-meteorological variables in the Niger River and the Benue sub-basins in Nigeria. A non-parametric Mann-Kendall trend test was used to analyse the trends exhibited by the variables. The results revealed that precipitation exhibits insignificant positive trends in five locations, while insignificant negative trends were exhibited in the remaining six locations. This implies that the increase or decrease in precipitation would not be noticeable in all the locations, since the changes are statistically insignificant. The evaporation exhibits a significant positive trend in three locations, while in another three locations it exhibits an insignificant positive trend and also exhibits an insignificant negative trend in the remaining five locations. This is an indication that the incremental change in evaporation would be noticeable in three locations, while the increase or decrease would not be noticed in the remaining eight locations. In the case of minimum and maximum temperature, the trends in almost all the locations, except Ibi, are statistically significant positive. However, the runoff and water level in five locations out of six locations exhibit a significant negative trend. The downward trends exhibited by the runoff and water level in the two sub-basins may be due to the effect of climate variability on the hydro-meteorological variables. The reduction of runoff is an indication of the decrease in water resources in the sub-basins and this can result in low reservoir inflow to the Kainji and Jebba hydropower dams located in the basin."

"Tesis ini membahas tentang pengembangan potensi Energi Baru Terbarukan (EBT) di Indonesia dengan melakukan kajian tekno-ekonomi dari pemasangan energy storage pada sistem photovoltaic yang terhubung ke jaringan interkoneksi Jawa-Bali. Floating Photovoltaic yang berlokasi di bendungan Cirata, Purwakarta tersebut memiliki kapasitas 200 MW dan terhubung ke sub sistem pusat tegangan 150 kV Cirata. Pemasangan energy storage diharapkan mampu meningkatkan fleksibilitas dispatch energi listrik yang dihasilkannya sehingga mampu mendukung sistem pada saat beban puncak. Metode sizing energy storage dengan mempertimbangkan prediksi energi dispatch photovoltaic yang diperkirakan mampu menghasilkan energi listrik sebesar647.11 MWh dalam sehari, serta kebutuhan beban jaringan sub sistem Cirata yang diperkirakan membutuhkan energi sebesar 1.546 MWh untuk proses peak shaving. Untuk selanjutnya perhitungan kapasitas energy storage dan biaya instalasi dari tipe energy storage yang dipilih yaitu baterai tipe lithium ion dan lead acid yang memiliki Levelized Cost of Storage (LCOS) pada kisaran 88.5 Rp/kWh dan 48.6 RP/kWh. Perkiraan load profile dan parameter LCOS tiap skenario digunakan untuk melakukan simulasi dalam software joint Resource Optimization and Scheduler (jROS) untuk mendapatkan perkiraan biaya penggunaan energi listrik pada sub sistem pusat tegangan Cirata. Selanjutnya selisih perhitungan biaya sub sistem tanpa penggunaan energy storage dan dengan penggunaan energy storage digunakan untuk menghitung arus kasdan NPV sebagai parameter ekonomi dari proyek pemasangan energy storage tersebut.

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This thesis discusses the potential development of renewable energy in Indonesia by conducting a techno-economic study on installation of energy storage in photovoltaic systems connected to Java-Bali interconnection network. Floating Photovoltaic 200 MW located at Cirata dam, Purwakarta are connected to the sub-system central voltage 150 kV Cirata. Installation of energy storage is expected to increase the flexibility of electrical energy dispatch generated to support the system at peak load. Sizing method of energy storage by considering the prediction of photovoltaic dispatch energy which is expected to generate 647.11 MWh of electrical energy a day as well as the need of Cirata sub-system network load which is estimated to require energy of 1,546 MWh for peak shaving process. Furthermore, energy storage capacity and installation costs of the selected energy storage types are lithium ion batteries and lead acid which have Levelized Cost of Storage (LCOS) in the range of 88.5 Rp / kWh and 48.6 RP / kWh. Estimated load profile and LCOS parameters of each scenario are used to simulate using

joint software Resource Optimization and Scheduler (jROS) to get the estimated cost of electrical energy usage in the sub-system voltage center of Cirata. Cost difference between systems without the use of energy storage and with the use of energy storage is used to calculate cash flow and NPV as the economic parameters of the energy storage installation project."

"Kebutuhan energi dunia meningkat seiring peningkatan populasi manusia. Dengan semakin berkurangnya sumberdaya tak terbarukan, manusia mulai mencari sumber energi alternatif yang terbarukan dan ramah lingkungan. Salah satu sumber energi yang dipilih ialah energi matahari dengan menggunakan sel fotovoltaik/surya. Salah satu sel jenis sel surya ialah sel surya lapis tipis (thin film solar cell/TFSC). Penelitian ini berfokus pada pembuatan senyawa penyerap CuFeS₂ (CFS) dengan metode ball milling. Dari hasil yang diperoleh, data XRD menunjukkan pembentukan senyawa CuFeS₂ tidak efisien jika hanya menggunakan proses ball milling sehingga diperlukan proses anil. Hasil XRD setelah di anil menunjukkan perbedaan drastis. Dan dari hasil UV-Vis diperoleh waktu optimal penggilingan selama lima jam dan komposisi optimal yaitu komposisi 113 dengan unsur sulfur berlebih. Hasil dari pengujian UV-Vis menunjukkan keunggulan sampel dengan komposisi 113 dengan E_g langsung dan tidak-langsung berturut-turut sebesar 1.895 eV dan 1.206 eV. Hasil tersebut memiliki perbedaan yang signifikan yaitu sebesar 0.1 eV untuk E_g langsung dan tidak-langsung dari hasil yang diperoleh dari sampel dengan komposisi 112.

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The world energy demand is increasing as the human population increase. With the decline in non-renewable resources, people are starting to look for renewable energy sources that are renewable and environmentally friendly. One of the energy sources chosen is solar energy using photovoltaic / solar cells. One type of solar cell is the thin layer solar cell (TFSC). This research focuses on the manufacture of the CuFeS₂ (CFS) absorbent compounds using the ball milling method. From the results obtained, XRD data shows that CuFeS₂ compounds are not efficient if they only use the ball milling process so that an annealing process is needed. The XRD results after annealing showed a drastic difference. And from the UV-Vis results, the optimal grinding time was obtained for five hours and the optimal composition was composition 113 with excess sulfur elements. The results from the UV-Vis test showed the superiority of the sample with a composition of 113 with direct and indirect E_g of 1,895 eV and 1,206 eV, respectively. These results have a significant difference of 0.1 eV for direct and indirect E_g from the results obtained from a sample with a composition of 112."

"Pada skripsi ini, dirancang sebuah simulator sel surya menggunakan buck converter yang kemudian dianalisis menggunakan diagram bode dan TKA. Model statik sel surya digunakan untuk mengimplementasikan karakteristik dari sel surya. Low-pass filter digunakan untuk mengubah model statik sel surya menjadi model dinamik sel surya. Pengendali PI digunakan untuk mengendalikan switch buck converter melalui pulsa-pulsa yang dihasilkan oleh PWM Generator. Sistem dianalisis menggunakan diagram bode terhadap masukannya, yaitu solar irradiance dan suhu sel. Beban, konstanta proportional, dan konstanta integral akan divariasikan untuk menganalisis sistem. Sistem juga dianalisis dengan menggunakan TKA untuk mengetahui seberapa besar batas gain kestabilan sistem. Dari diagram bode yang didapat, sistem terlihat menyerupai sistem orde tiga. Dari TKA, dengan mengubah beban didapat bahwa batas gain kestabilan sistem sangatlah tinggi, sekitar untuk masukan perubahan solar irradiance, dan untuk masukan perubahan suhu sel. Karena nilai tersebut sangatlah tinggi, sehingga sistem dapat dinyatakan robust terhadap perubahan beban dan cenderung stabil.

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This thesis presents a Photovoltaic Simulator Simulation using Buck Converter with analysis using bode diagram and root locus. A PV Static Model is used to implement the characteristics of actual solar cell. A Low-Pass Filter is used to turn the static model of photovoltaic into the dynamic model. PI Controller is used to control buck converter?s switch via PWM Generator. The system is analyzed using bode diagram for its inputs, such as solar irradiance and cell?s temperature. Load, Kp, and Ki will be varied to analyzed the system. Root locus method is used to analyze the maximum gain system. From bode plot, the analyzed system similar to third order system. From root locus, the limits of gain stability system are so high about for solar irradiance input, and for cell?s temperature input, so the system can be declared stable."