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"Skripsi ini membahas perancangan dan simulasi power amplifier yang beroperasi pada channel 87 yaitu frekuensi 860 MHz dengan menggunakan transistor push-pull dan Saluran mikrostrip yang berfungsi sebagai pengganti induktor. Rangkaian input matching dan output matching dirancang khusus agar beresonansi pada frekuensi tersebut. Tujuan dari perancangan ini adalah mencapai VSWR ± 1, S21 pada nilai antara 8-11 dB dan S11 dan S22 dibawah -10 dB. Spesifikasi penting untuk perancangan power amplifier ini antara lain: daya keluaran 100 mWatt, daya masukan 5 - 20 mWat, arus drain yang kecil dengan tegangan supply 25 Volt, memenuhi standar kestabilan (K > 1), dan return of loss (ROL < -10 dB). Transistor yang digunakan yaitu TPV7025, sebuah transistor silikon frekuensi tinggi tipe NPN. Rancangan ini disimulasikan menggunakan program Advanced Design System (ADS).

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This thesis discusses specific frequencies on channel 87 is 860 MHz simultaneously is designed. This amplifier using a transistor pushpull there and a microstrip line that serves as a substitute for an inductor. The input matching and output matching circuit is designed with a special matching network which resonates at two frequencies.

The objective of this design is to achieve VSWR ± 1, S21 at a point range 8-11 dB and S11 and S22 below -10 dB for both frequencies. The other important specification for this dual band high power amplifier is: 100 mWatt output power, 5 - 20 mWatt input power, low drain flow with 25 Volt supply voltage, fulfill the stability standard (K > 1), and return of loss (ROL < -10 dB). The transistor used is TPV7025, a NPN silicon high frequency transistor. The design is simulated with Advanced Design System (ADS) software."

"ABSTRAKKebutuhan akan komunikasi dan transfer data berkembang pesat di beberapa dekade terakhir. Untuk mendapatkan data transfer yang lebih tinggi, perlu ditentukan peletakan antena yang tepat pada suatu sistem nirkabel. Pada tulisan ini, kami melakukan pengukuran propagasi di lingkungan iklim tropis dan pada rentang UHF ndash; S Band dengan melakukan pengukuran variasi jarak dari 10 m ndash; 100 m pada frekuensi 800 MHz, 1.8 GHz, 2.4 GHz, dan 3.3 GHz.Hasil pengukuran dibandingkan dengan nilai perhitungan dengan model-model propagasi seperti Free-Space Loss, Okumura-Hata urban dan Okumura-Hata suburban. Kemudian dianalisa untuk mengetahui pengaruh jarak terhadap kuat medan yang diperoleh. Setelah dilakukan pengukuran dan perhitungan, nilai daya yang diterima menurun seiring dengan jarak yang bertambah dan hal ini berlaku pada setiap frekuensi. Terdapat beberapa penyimpangan saat pengukuran karena pengaruh dari lingkungan sekitar. Dari kuat medan yang diperoleh tersebut dilakukan perhitungan kapasitas kanal Shannon yang kemudian dianalisa untuk mengetahui pengaruh dari kuat medan terhadap kapasitas kanal. Nilai kapasitas kanal yang diperoleh menurun seiring dengan menurunnya nilai kuat medan yang diperoleh. Hasil ini dapat digunakan untuk mengetahui kapasitas kanal maksimum dengan memperhatikan konfigurasi antena terbaik berdasarkan daya yang diterima.

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ABSTRACTCommunication and data transfer demands are growing fast in last few decades. To obtain a higher data transfer, it is necessary to determine proper antenna placement in a wireless system. In this paper, we conduct a propagation measurements in tropical environments and UHF S Band frequency by conducting distance variation from 10 m ndash 100 m at frequency 800 MHz, 1.8 GHz, 2.4 GHz, and 3.3 GHz.The measurement results were compared with the calculation result which has been calculated using propagation models such as Free Space Loss, urban Okumura Hata and suburban Okumura Hata. The result were analyzed to determine the effect of distance to the field strength obtained. After measurement and calculation, the received power level decreases as the distances increases and this applies to every frequency. There are several deviations during measurement due to the influence of the surrounding environment. Shannon channel capacity were calculated using the field strength obtained. The result were analyzed to determine the effect of field strength to channel capacity. The value of obtained channel capacity decreases as the field strength value obtained decreases. This result can contribute to determine the maximum channel capacity by considering an optimum antenna configuration based on received power levels."

"[ABSTRAKPerkembangan bisnis dan martketing yang sangat cepat mendorong naiknyakebutuhan akan media telekomunikasi yang reliable, menarik, dan dinamis. Metodedalam penyebaran informasi yang populer digunakan saat ini adalah penyiaran. Dimanapenggunaan spektrum frekuensi radio untuk keperluan penyiaran mengacu pada definisilayanan penyiaran pada peraturan radio ITU. Layanan penyiaran adalah suatu serviskomunikasi radio dimana transmisinya ditujukan untuk penerimaan langsung olehmasyarakat umum. Penyiaran televisi lebih sering digunakan sebagai sarana penyebaraninformasi dibandingkan dengan radio, karena dapat menyampaikan informasi secara jelasdengan suara dan gambar. Semakin luas daerah jangkauan siaran suatu stasiun TV, makaakan semakin banyak manfaat yang dapat dirasakan karena informasi dapat diterimadengan baik oleh masyarakat.Terdapat dua stasiun TV swasta di Bandung yang akan melakukan perluasanwilayah ke kota yang berdekatan, yaitu di kota Garut dan Sukabumi denganmenambahkan repeater baru serta menaikkan daya pancarnya. Kedua stasiun TV swastadi Bandung tersebut menempati kanal 42 dan 44. Kedua stasiun TV tersebut merupakanpemancar TV analog dan akan menggunakan kanal yang sama pada kota Garut danSukabumi. Kedua stasiun TV analog ini memiliki kanal bersebelahan dengan stasiun TVanalog dan stasiun TV digital. Penambahan repeater baru dan menaikkan daya pancarnyadapat memungkinkan terjadinya interferensi kanal bersebelahan. Untuk mengatasi haltersebut, maka dibuat sebuah aturan bahwa kuat medan penerimaan televisi siaran UHFpada lokasi titik pengujian atau pengukuran setiap wilayah layanan dibatasi paling besar70 dBμV/m untuk band V.Skripsi ini bertujuan untuk menganalisis simulasi daya pancar untuk perluasanwilayah siaran TVdari Bandung ke Garut dan Sukabumi, dengan menentukan pola radiasidan menaikan daya pancar repeater baru dengan batasan rasio proteksi agar daerahjangkauan dan populasi di kota Garut dan Sukabumi terlayani. Hasil dari simulasidiperoleh daya pancar pada kanal 42 dan 44 di kota Garut sebesar 42 dBW denganantena 4-1 dan daya pancar pada kanal 42 dan 44 di kota Sukabumi sebesar 38,3 dBWdengan antena 730 372. Dengan penggunaan daya pada masing-masing pemancartersebut telah memenuhi wilayah cakupan yang terlayani pada kota Garut dan Sukabumidan pemancar yang digunakan tidak menginterferensi kanal yang bersebelahan. Namunterdapat beberapa wilayah yang tidak tercakup sinyal pancar karena kontur wilayah yangbergunung-gunung.Kata kunci : interferensiABSTRACTThe rapid growth of various business and marketing leads to the needs of reliable,attractive, and dynamic telecommunication media. Broadcasting is one of the popularmedia which ever used in centuries. In the practical utilities, the broadcasting services usea particular radio spectrum frequency with respect to the ITU-T standard. Thebroadcasting services provide the essential informations which are directly served to thepublic user. Broadcasting is rather used to publicize the information than the radio due toits perceptibility through the sound and image repsentations. Consequently, the larger thecoverage area of the broadcasting services the more advantages can be obtained becausethe informations can be delivered properly to the user.In this final project, there are two private television provider where both arelocated in Bandung. Theirs location are alongside cities which are Garut and Sukabumi.In order to broaden their coverage area, they increased the number of repeater and thelevel of power used by the transmitter respectively. Unfortunately, this method leads to anadjacent channel interference. In order to withstand this effect, policies are made to limitthe usage of the bandwidth. For every service area the allocation is set to be at amaximum of 70 dBμV/m for V band.This final project is aimed to analyze the power used by the transmission tobroaden the coverage area of the television services from Bandung to Garut andSukabumi. The radiation patterns enhancement and the increase of transmitted power bythe new repeaters are used. As a result, it is proved that for Garut and Sukabumi the 42dBW and 38,3 dBW are appropriate with the use of the 4-1 and 730-372 antennasrespectively in the 42nd and 44th channels. In the attained transmitted power, the adjacentchannel interference can be evaded. In case of the extending the coverage area, there arestill some particular areas which are delicate to overcome due to its geograhical contourwhich are mainly mountains.;The rapid growth of various business and marketing leads to the needs of reliable,attractive, and dynamic telecommunication media. Broadcasting is one of the popularmedia which ever used in centuries. In the practical utilities, the broadcasting services usea particular radio spectrum frequency with respect to the ITU-T standard. Thebroadcasting services provide the essential informations which are directly served to thepublic user. Broadcasting is rather used to publicize the information than the radio due toits perceptibility through the sound and image repsentations. Consequently, the larger thecoverage area of the broadcasting services the more advantages can be obtained becausethe informations can be delivered properly to the user.In this final project, there are two private television provider where both arelocated in Bandung. Theirs location are alongside cities which are Garut and Sukabumi.In order to broaden their coverage area, they increased the number of repeater and thelevel of power used by the transmitter respectively. Unfortunately, this method leads to anadjacent channel interference. In order to withstand this effect, policies are made to limitthe usage of the bandwidth. For every service area the allocation is set to be at amaximum of 70 dBμV/m for V band.This final project is aimed to analyze the power used by the transmission tobroaden the coverage area of the television services from Bandung to Garut andSukabumi. The radiation patterns enhancement and the increase of transmitted power bythe new repeaters are used. As a result, it is proved that for Garut and Sukabumi the 42dBW and 38,3 dBW are appropriate with the use of the 4-1 and 730-372 antennasrespectively in the 42nd and 44th channels. In the attained transmitted power, the adjacentchannel interference can be evaded. In case of the extending the coverage area, there arestill some particular areas which are delicate to overcome due to its geograhical contourwhich are mainly mountains.;The rapid growth of various business and marketing leads to the needs of reliable,attractive, and dynamic telecommunication media. Broadcasting is one of the popularmedia which ever used in centuries. In the practical utilities, the broadcasting services usea particular radio spectrum frequency with respect to the ITU-T standard. Thebroadcasting services provide the essential informations which are directly served to thepublic user. Broadcasting is rather used to publicize the information than the radio due toits perceptibility through the sound and image repsentations. Consequently, the larger thecoverage area of the broadcasting services the more advantages can be obtained becausethe informations can be delivered properly to the user.In this final project, there are two private television provider where both arelocated in Bandung. Theirs location are alongside cities which are Garut and Sukabumi.In order to broaden their coverage area, they increased the number of repeater and thelevel of power used by the transmitter respectively. Unfortunately, this method leads to anadjacent channel interference. In order to withstand this effect, policies are made to limitthe usage of the bandwidth. For every service area the allocation is set to be at amaximum of 70 dBμV/m for V band.This final project is aimed to analyze the power used by the transmission tobroaden the coverage area of the television services from Bandung to Garut andSukabumi. The radiation patterns enhancement and the increase of transmitted power bythe new repeaters are used. As a result, it is proved that for Garut and Sukabumi the 42dBW and 38,3 dBW are appropriate with the use of the 4-1 and 730-372 antennasrespectively in the 42nd and 44th channels. In the attained transmitted power, the adjacentchannel interference can be evaded. In case of the extending the coverage area, there arestill some particular areas which are delicate to overcome due to its geograhical contourwhich are mainly mountains.;The rapid growth of various business and marketing leads to the needs of reliable,attractive, and dynamic telecommunication media. Broadcasting is one of the popularmedia which ever used in centuries. In the practical utilities, the broadcasting services usea particular radio spectrum frequency with respect to the ITU-T standard. Thebroadcasting services provide the essential informations which are directly served to thepublic user. Broadcasting is rather used to publicize the information than the radio due toits perceptibility through the sound and image repsentations. Consequently, the larger thecoverage area of the broadcasting services the more advantages can be obtained becausethe informations can be delivered properly to the user.In this final project, there are two private television provider where both arelocated in Bandung. Theirs location are alongside cities which are Garut and Sukabumi.In order to broaden their coverage area, they increased the number of repeater and thelevel of power used by the transmitter respectively. Unfortunately, this method leads to anadjacent channel interference. In order to withstand this effect, policies are made to limitthe usage of the bandwidth. For every service area the allocation is set to be at amaximum of 70 dBμV/m for V band.This final project is aimed to analyze the power used by the transmission tobroaden the coverage area of the television services from Bandung to Garut andSukabumi. The radiation patterns enhancement and the increase of transmitted power bythe new repeaters are used. As a result, it is proved that for Garut and Sukabumi the 42dBW and 38,3 dBW are appropriate with the use of the 4-1 and 730-372 antennasrespectively in the 42nd and 44th channels. In the attained transmitted power, the adjacentchannel interference can be evaded. In case of the extending the coverage area, there arestill some particular areas which are delicate to overcome due to its geograhical contourwhich are mainly mountains., The rapid growth of various business and marketing leads to the needs of reliable,attractive, and dynamic telecommunication media. Broadcasting is one of the popularmedia which ever used in centuries. In the practical utilities, the broadcasting services usea particular radio spectrum frequency with respect to the ITU-T standard. Thebroadcasting services provide the essential informations which are directly served to thepublic user. Broadcasting is rather used to publicize the information than the radio due toits perceptibility through the sound and image repsentations. Consequently, the larger thecoverage area of the broadcasting services the more advantages can be obtained becausethe informations can be delivered properly to the user.In this final project, there are two private television provider where both arelocated in Bandung. Theirs location are alongside cities which are Garut and Sukabumi.In order to broaden their coverage area, they increased the number of repeater and thelevel of power used by the transmitter respectively. Unfortunately, this method leads to anadjacent channel interference. In order to withstand this effect, policies are made to limitthe usage of the bandwidth. For every service area the allocation is set to be at amaximum of 70 dBμV/m for V band.This final project is aimed to analyze the power used by the transmission tobroaden the coverage area of the television services from Bandung to Garut andSukabumi. The radiation patterns enhancement and the increase of transmitted power bythe new repeaters are used. As a result, it is proved that for Garut and Sukabumi the 42dBW and 38,3 dBW are appropriate with the use of the 4-1 and 730-372 antennasrespectively in the 42nd and 44th channels. In the attained transmitted power, the adjacentchannel interference can be evaded. In case of the extending the coverage area, there arestill some particular areas which are delicate to overcome due to its geograhical contourwhich are mainly mountains.]"

"Dalam mengalokasikan spektrum frekuensi radio untuk kebutuhan layanan siaran TV digital dan aplikasi terestrial lainnya dalam hal ini adalah layanan mobile broadband ada beberapa faktor yang harus dipertimbangkan yang secara umum dibagi menjadi 2 (dua), yaitu faktor atau variabel yang berupa aspek teknis dan aspek non-teknis, dalam hal ini adalah aspek potensi bisnis dari kedua layanan tersebut.Dalam tesis ini akan untuk menentukan alokasi spektrum frekuensi radio pada pita Ultra High Frequency (UHF) untuk kebutuhan siaran TV digital terrestrial dengan metode optimasi dengan program linier yang bertujuan untuk menentukan nilai optimum dari potensi pendapatan di industri layanan siaran TV digital terestrial dan mobile broadband. Hasil dari optimasi tersebut mengalokasikan spektrum frekuensi sebesar 192 Mhz untuk kebutuhan layanan siaran TV digital terestrial dan 112 Mhz untuk kebutuhan layanan mobile broadband.

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In allocating the radio frequency spectrum for digital TV terrestrial broadcasting service needs and other terrestrial applications in this regard is the mobile broadband services there are several factors to consider are generally divided into 2 (two), the technical non-technical aspects, in this case is the aspect of the business potential of these services. This thesis will determine the allocation of radio frequency spectrum in the Ultra High Frequency (UHF) band for digital terrestrial TV broadcasting by the optimization method with a linear program that aims to determine the optimum value of potential revenues in the industry of digital terrestrial TV broadcasting and mobile broadband services.Results of the optimization is the allocation of the frequency spectrum at 192 MHz for digital TV terrestrial broadcasting services and 112 MHz for mobile broadband service needs."

"ABSTRAKUntuk menilai performa dari sistem komunikasi tanpa kabel, salah satu yang sangat diperlukan adalah menghitung kemampuan dalam memperoleh informasi. Performa dari beberapa sistem ditentukan oleh kapasistas kanal dari sistem tersebut. Tentunya, semakin besar kapasitas kanal dari sebuah sistem akan semakin baik sistem tersebut dimana kemampuan untuk memperoleh informasi akan semakin besar. Kebutuhan akan kapasitas kanal yang maksimal tentunya sangat mendasar mengingat akan kebutuhan manusia akan komunikasi yang terus meningkat. Pada tesis dibahas tentang analisis kapasitas kanal menggunakan pengukuran propagasi gelombang pada frekuensi UHF- S Band dengan karakterisasi ketinggian. Analisis ini bertujuan untuk mengetahui besar kapasitas kanal pada beberapa ketinggian yang diukur. Perhitungan kapasitas kanal menggunakan persamaan yang merepresentasikan kapasitas kanal, yaitu teorema kapasitas kanal Shannon Shannon channel capacity theorem .Pengukuran dilakukan pada frekuensi 800 MHz, 1800 MHz, 2400 MHz dan 3300 MHz di lingkungan Fakultas Teknik Universitas Indonesia. Pengukuran dilakukan dengan meletakan antena penerima dengan ketinggian yang tetap yaitu 2 m sedangkan antena penerima diletakan pada ketinggian 1 m, 2 m, 5 m, 10 m, dan 15 m. Pada masing masing frekuensi dilakukan pengukuran dengan tiga kondisi yaitu dengan menghadapkan antena ke atas, ke tengah dan ke bawah.Hasil pengukuran kemudian diolah dan dianalisa untuk melihat pengaruh variasi ketinggian penempatan antena pengirim dan penerima terhadap kapasitas kanal. Dengan melihat keseluruhan hasil perhitungan kapasitas kanal dari hasil pengukuran pada masing masing frekuensi, dapat kita ketahui bahwa kapasitas kanal akan menurun ketika antena pengirim diletakan semakin tinggi dari permukaan tanah. Dengan kata lain, kapasitas kanal terbesar adalah ketika antena pengirim ditempatkan lebih dekat ke tanah.

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ABSTRACTTo assess the performance of a wireless system, one needs to quantify its ability to handle information. Typically, the performance of such systems is Characterized in terms of the channel capacity. Obviously, the greater the channel capacity of a system, the better the system where the ability to obtain information will be greater. The need for maximum channel capacity is certainly very fudamental, because the human need for communication is immediately increase. This thesis discusses about Analysis of Channel Capacity Through Wave Propagation Measurement in UHF S Band Frequency WIth High Characterization. This analysis aims to determine the capacity of the canal at some high measurement. Calculation of channel capacity uses an equation representing channel capacity, which is Shannon channel capacity theorem.The measurements are made at frequencies of 800 MHz, 1800 MHz, 2400 MHz and 3300 MHz in the Faculty of Engineering Universitas Indonesia. The measurement is done by placing the receiving antenna with a fixed height of 2 m while the receiving antenna is placed at 1 m, 2 m, 5 m, 10 m, and 15 m. At each frequency is measured with three conditions that is by facing the antenna up, to the middle and down.The results of these measurements will be processed and analyzed to see the effect of high variations in the placement of the transmitter and receiver antenna to channel capacity. By looking at the overall calculation of channel capacity from measurement results on each frequency, we can know that the channel capacity will decrease when the transmitter antenna is placed higher. In other words, the largest channel capacity is when the transmitter antenna is placed closer to the ground."

"Digitalisasi teknologi penyiaran sudah menjadi suatu keharusan dengan semakin berkurangnya ketersediaan kanal frekuensi seiring meningkatnya permintaan kanal oleh stasiun-stasiun TV baru. Skripsi ini membahas metode yang digunakan dalam merencanakan alokasi kanal pada sistem televisi digital di Indonesia yang menggunakan basis teknologi DVB-T. Penggunaan perangkat lunak CHIRPlus_BC digunakan untuk memodelkan propagasi gelombang radio yang dipancarkan seluruh stasiun pemancar di 14 wilayah layanan yang terletak di provinsi DKI Jakarta, Banten dan Jawa Barat. Perancangan distribusi frekuensi kanal ini diawali dengan menentukan seluruh parameter transmisi terbaik untuk memberikan keseimbangan antara proteksi data, laju data serta kemungkinan fitur yang dapat dilayani. Berikutnya pembentukan kelompok frekuensi dan menentukan kontur wilayah yang diakhiri dengan menentukan besarnya kontur wilayah layanan berdasarkan kuat pancar dan tinggi antena agar terhindar dari interferensi co-channel dan adjacent channel. Langkah terakhir adalah penentuan kanal transisi sebagai fasilitas penampung stasiun yang bentrok dengan TV analog existing selama proses transisi. Hasil yang diharapkan berupa wilayah layanan DVB-T yang jelas dan pembagian kanal yang optimal dengan interferensi minimum untuk setiap wilayah layanan. Dari hasil perancangan ini maka selanjutnya hasil distribusi frekuensi ini dapat diimplementasikan secara utuh ataupun parsial dalam menentukan masterplan pertelevisian digital, dan dapat digunakan sebagai patokan dalam penggunaaan kanal-kanal sekitar yang akan dipergunakan untuk teknologi digital untuk telekomunikasi ataupun penyiaran lainnya.

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Digitalization in broadcasting technology is a solution for limited frequency resources that is becoming less as the demand of new channel assignment is increasing. This thesis will concentrate on method that is used to plan channel allocation on digital broadcasting in Indonesia that is based on DVBT technology. Broadcast modelling software called CHIRPlus_BC is used on this project to help modeling the propagation of radio-frequency wave broadcasted by transmitter at all 14 service areas located in three provinces: DKI Jakarta, Banten and Jawa Barat.

The first step taken in designing channel allocation is determining the best transmission parameter that may give the best trade-off in data rate, data protection as well as available features. Thus all channels available are divide into three frequency reuse groups and contours of every service area then can be calculated, where the size of coverage area is determined by transmitting power and height of the transmitter. This stage is crucial as the protection ratio of cochannels and adjacent-channels interference must be kept to maintain best quality service.

The assigment of transition channel is the last finisihing touch to provide backup during migration periode if one channel is already occupied by existing analog TV broadcaster. Process above will result in exact range of each service area and optimum channel distribution with minimum interfernce occurance.

Analysis and design described in the thesis thus can be implemented completely or partially in creating the master plan of digital television. They might be helpful as milestone in assigning neighbouring channel for other digital telecomunication or broadcasting technology."

"Daerah layanan (coverage area) dari suatu stasiun pemancar televisi merupakan daerah dimana sinyal yang dipancarkan oleh stasiun pemancar dapat diterima dengan baik, dengan ukuran nilai yang sesuai dengan standar tertentu. Dalam hal ini mengacu pada standar nilai yang telah ditentukan oleh Direktorat Jendral Pos dan Telekomunkasi. Pola radiasi dari antena pemancar dapat membentuk suatu bentuk pola daerah layanan pada daerah geografis wilayah pemancar. Penentuan daerah layanan bagi stasiun televisi swasta ditentukan dalam segi bisnis atau target pasar. Hal tersebut dilakukan dengan survey pasar dengan tujuan untuk melihat daerah mana yang mempunyai potensi pasar yang bagus, pembangunan ekonomi yang baik dan populasi penduduknya. Langkah-langkah dan pertimbangan-pertimbangan untuk penentuan hal-hal yang terkait dengan pembangunan stasiun pemancar dibahas dalam tulisan ini. Mulai dari penentuan penggunaan frekuensi kerja transmisi, penentuan lokasi tempat dibangunnya stasiun pemancar, besarnya daya pancar pemancar, ketinggian menara dan antena pemancar yang dipergunakan. Dari Tugas Akhir ini dapat disimpulkan bahwa penentuan lokasi, besar daya pancar, pengarahan antena, dan ketinggian menara sangat menentukan daerah layanan yang akan dicakupi. Penentuan hal-hal tersebut juga terkait dengan efisiensi anggaran."

"ABSTRAKUpaya percepatan migrasi penyiaran televisi dari analog ke dijital di Indonesia harus mempertimbangkan banyak perspektif guna mendapatkan hasil kajian yang komprehensif dan bahan kajian akademis yang pemanfaatan hasil penelitiannya dapat digunakan oleh pihak-pihak yang terkait seperti Kementerian Kominfo RI, Lembaga Penyiaran Publik, Lembaga Penyiaran Swasta dan para stakeholder terkait. Pada penelitian ini, analisis dampak penyiaran dijital yang digunakan adalah analisis STEP.Dalam hal dampak sosial, hal ini dapat diamati pada masyarakat yang semakin tercerahkan dan tercerdaskan oleh adanya baik konten-konten menarik maupun informasi yang beragam dan inovatif. Dalam hal dampak teknologi, frekuensi yang digunakan pada penyiaran televisi dijital semakin efisien, sedangkan sisa frekuensinya lainnya dapat digunakan untuk digital dividend. Selain itu, untuk menikmati siaran dijital masyarakat perlu membeli perangkat set top box.Dalam hal dampak ekonomi, pemerintah mendapatkan pendapatan yang besar dari pemanfaatan optimalisasi digital dividend. Selain itu, industri penyiaran akan tumbuh, penyedia konten juga akan berkembang dan pada akhirnya akan ada banyak lapangan pekerjaan yang tersedia akibat tumbuhnya industri penyiaran yang menggerakkan ekonomi kreatif di Indonesia. Dalam hal dampak kebijakan, pemerintah memberikan jaminan bagi masyarakat untuk mendapatkan siaran dijital yang berkualitas, dengan kualitas video dan audionya setara dengan HD. Pembuatan peraturan terkait dengan Standard Operational Prosedur penyiaran televisi dijital memberikan kepastian hukum kepada para pelaku usaha industri penyiaran, sehubungan dengan standarisasi konten penyiaran dijital dan kebijakan-kebijakan lainnya.Dalam hal dampak biaya, pemerintah menghitung biaya langsung yang menjadi tanggungjawabnya, biaya bersama yang bisa ditanggung bersama antara pemerintah dengan para pelaku industri penyiaran, dan biaya umum yang harus disediakan oleh masing-masing para pelaku industri penyiaran. Dalam hal dampak feasibility, hal ini terkait dengan pemanfaatan frekuensi penyiaran televisi dijital serta opportunity cost adanya pengembangan teknologi terbaru. Dalam hal dampak acceptability, kepiawaian pemerintah dalam mengakomodir semua kepentingan para pihak terkait (stakeholder), sehingga pengimplementasian penyiaran televisi dijital di Indonesia dapat diterima oleh semua pihak dan tentunya masyarakat Indonesia secara umum.

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ABSTRACTEfforts to accelerate the migration of television broadcasting from analog to digital in Indonesia must consider many perspectives in order to obtain comprehensive study results and academic study materials which can be used by related parties such as the Ministry of Communication and Information Technology, Public Broadcasting Agency, Private Broadcasting Agency and relevant stakeholders. In this study, the analysis of the impact of digital broadcasting used is the STEP analysis.In terms of social impact, it can be observed in communities that are increasingly enlightened and educated by the presence of both interesting content and diverse and innovative information. In terms of technological impact, he frequency used in digital television broadcasting is more efficient, while the remaining frequency can be used for digital dividends. In addition, to enjoy digital broadcasting, the public needs to buy a set top box device.In terms of economic impact, the government gets a large income from the utilization of digital dividend optimization. In addition, the broadcasting industry will grow, content providers will also develop and in the end there will be many jobs available due to the growth of the broadcast industry which drives the creative economy in Indonesia. In terms of policy impacts, the government guarantees the public to get quality digital broadcasts, with video and audio quality equivalent to HD. Regulations relating to Standard Operational Procedures for digital television broadcasting provide legal certainty to broadcasting business agents, in relation to the standardization of digital broadcasting content and other policies.In terms of cost impact, the government calculates the direct costs that are its responsibility, the joint costs that can be shared between the government and broadcasting industry agents, and general costs that must be provided by each broadcasting industry agents. In terms of feasibility impacts, it is related to the utilization of digital television broadcasting frequency and opportunity cost for the development of the latest technology. In terms of acceptability, it can be seen by the government's expertise in accommodating all the interests of related parties (stakeholders), so that the implementation of digital television broadcasting in Indonesia can be accepted by all parties and of course the Indonesian people in general."