1,726,638 research outputs found

    Kompas Digital Berbasis Mikrokontroler ATMega 8535

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    Tugas Akhir discuss about problem "ATMega Microcontroller Based Digital Compass 8535". This tool is used to know the direction of the wind. By using Microcontroller ATMEGA 8535, hmc5883l compass sensor 9v battery as power supply, an LCD, and regulator 7805. Microcontroller ATMega 8535 has inputs that can process the magnetic field of sensors hmc5883l into the direction of the wind. Hmc5883l sensor serves as a detector of magnetic field values that will be processed into the direction of the wind by ATMega 8535 microcontroller which then results will be displayed through the LCD.49 HalamanKertas Karya Diplom

    Kompas Digital Berbasis Mikrokontroler ATMega 8535

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    Tugas Akhir discuss about problem "ATMega Microcontroller Based Digital Compass 8535". This tool is used to know the direction of the wind. By using Microcontroller ATMEGA 8535, hmc5883l compass sensor 9v battery as power supply, an LCD, and regulator 7805. Microcontroller ATMega 8535 has inputs that can process the magnetic field of sensors hmc5883l into the direction of the wind. Hmc5883l sensor serves as a detector of magnetic field values that will be processed into the direction of the wind by ATMega 8535 microcontroller which then results will be displayed through the LCD.49 HalamanKertas Karya Diplom

    TRANSMITTER PADA ROBOT EXCAVATOR MELALUI HANDPHONE BERBASIS MIKROKONTROLLER ATMEGA 8535

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    Excavator robot by mobile phone based on mikrokontroller ATMega 8535 is a miniature robot which worked like the real excavator. Building of this tool to make a robot is able to controlled by handphone, handphne is used for controller for moving of a robot. Brain of robot are used mikrokontroller ATMega 8535 made in ATMEL which done aritmatic operational and logic for control PD (Proposional-Derivative). A requesting from transmitter/handphone will receive by receiver and then DTMF MT8870D sill transform logic signal from transmitter become C languge based on programe at mikrokontroller AVR ATMega 8535. IC ATMega 8535 will working, and send a request to driver relay and make motor DC be movement same as instruction from user handphone and give request activity on robot what it have to do. (Key word: Excavator Robot, ATMega 8535

    Waterpass Digital Menggunakan Sensor Accelerometer Berbasis Mikrokontroler AT Mega 8535

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    In this final project addressed the issue entitled "WATERPASS DIGITAL ACCELEROMETER SENSOR USING MICROCONTROLLER AT MEGA 8535". This tool is used to measure the elevation / peil an activity field for calibration activities, calibration and re-calibration Where This thesis uses the accelerometer sensor, the AT Mega 8535 microcontroller, LED output and 2x16 as a current source Sebai 9V battery. AT Mega 8535 microcontroller input has shaped sensor, accelerometer sensor will detect the tilt of a field then display the measurement results on LCD.35 HalamanKertas Karya Diplom

    GAS DRYER DESIGN FOR VERMICELLI USING MICROCONTROLLER ATMEGA 8535

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    The purpose of this research is designing a gas dryer for vermicelli using a microcontroller ATmega 8535 that can overcome the obstacles in the drying department. The microcontroller ATmega 8535 used to regulate the temperature of the drying chamber. This tool design is made to compare between conventional dryer and a theoritical gas dryer in the factory. The method used in this paper is field study in the factory. Based on the experience then theoritical gas dryer design from the factory’s datas. A microcontroller Atmega 8535 is added to the dryer to easier the dryer operation. The result of the theoritical gas dryer design for vermicelli using a microcontroller ATmega 8535, showed a faster time drying for 131,04 kg of vermicelli need 47,72 minutes at a temperature of 40- 55° C

    IMPLEMENTATION PID IN THE SYSTEM CONTROL SPACE HEATER BASED MICROCONTROLLER ATMega 8535

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    Final project aims to make hardware and software space heaters as a PID control system automatically controls heating control room and to know the performance of PID control applications using microcontroller ATmega 8535. In designing the PID implementation In Space Heater Control System Based Microcontroller ATMega 8535. The author uses several hardware components that support the operation of this instrument, namely a temperature sensor LM35, optotriac MOC 3021, TRIAC BT136, microcontroller ATMega 8535, as well as a heated indoor measuring 30cm x 30cm x 30cm. For authors use software components to help codevision AVR C programming language, while the facility in microcontroller ATMega 8535 used is the external interrupt 0, timer 0, timer 1, and ADC. With the above design of this tool may be run according to expectations. Performance of PID control system to control this whole space heaters can work well. Results of testing and discussion of PID parameters, shows the value of the temperature within the ideal temperature range hatch eggs. So this tool with the PID parameters such as testing, it can be used or applied as an egg incubator. Keywords: PID Control, Space Heaters, Microcontroller ATmega 853

    Rancang Bangun System Pendingin Menggunakan Thermoelektrik Berbasis Mikrokontroler Atmega 8535

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    Pada Tugas Akhir ini Penulis membahas masalah yang berjudul “Rancang Bangun System Pendingin Menggunakan Thermoelektrik Berbasis Mikrokontroller ATMEGA 8535. Alat ini berfungsi untuk mengubah temperature suhu yang ada di dalam ruang. Dalam hal ini simulasi dilakukan dengan menggunakan Mikrokontroller ATMega 8535, sensor suhu LM 35, PSA, dan LCD.114 HalamanKertas Karya Diplom

    APLIKASI PENGAMAN SEPEDA MOTOR BERBASIS MIKROKONTROLER ATMEGA 8535

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    Berdasarkan hasil pengujian dan analisa data pada alat ini dapat disimpulkan bahwa; 1. Pengaman Sepeda Motor menggunakan saklar sentuh pada CDI dan Klakson dan juga menggunakan Microkontroler ATmega 8535 berjalan dengan baik. 2. Angka 5 dan 0 untuk menghidupkan Autosafe dan Angka A dan 7 untuk Mematikan. 3. Angka yang di masukkan melalui Keypad adalah sebanyak 4 angka pada angka-angka tertentu yang digunakan untuk menaktifkan atau menonaktifkan alarm melalui Microkontroler ATmega 8535

    Perancangan Alat Ukur Arus dan Daya Berbasis Mikrokontroler ATMega 8535

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    The electric power gauge has been made based digital power metre AVR microcontroller ATMega 8535 using current sensor in the from of ACS 712 a number of 5 amperes grading DC voltage,microcontroller AVR ATMega 8535 with ADC(Analog to Digital Converter) in it, and also using LCD 2 x 16 characters it can measure and display the electrical power of a household electronic appliances. ACS 712 current sensor with a maximum output a number of 5 amperes and server to detect AC current flowing in the load and provide AC voltage output which is then converted into DC voltage. Internal ADC microcontroller AVR ATMega 8535 server to convert the output voltage of current sensor into digital data then can be processed and displayed on the LCD. The series of minimum system microcontroller AVR ATMega 8535 and the LCD display are controlled by a program that is created through AVR studio software using the downloader ISP for AVR ATMega 8535. Based on the testing and calibration that has been done to measure the electric obtained an average yield of 4.3214% percentage error rate measurement accuracy of 95.67%.48 HalamanKertas Karya Diplom

    FILTER DIGITAL BERBASIS MIKROKONTROLER ATMega 8535

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    Tujuan pembuatan proyek akhir ini dimaksudkan untuk mengetahui proses pengolahan sinyal digital (PSD) menggunakan mikrokontroler Atmega 8535 sebagai komponen utamanya. Salah satu cabang dari pengolahan sinyal digital adalah filter digital. Dalam teknik audio, filter merupakan bagian utama dalam pengolahan sinyal. Minimnya pengetahuan mahasiswa dalam hal pengolahan sinyal digital yang mendorong saya untuk membuat Filter Digital berbasis Mikrokontroler ATmega 8535 ini. Filter digital berbasis mikrokontroler ATmega 8535 ini dibuat sebagai simulasi proses pemfilteran digital maupun pengolahan sinyal. Prinsip kerja dari alat ini adalah sinyal analog yang masuk akan dikonversi dulu ke dalam bentuk data digital/biner. Proses ini dilakukan oleh ADC yang berfungsi untuk mengkonversi dari sinyal analog ke dalam data biner. Setelah terdapat data biner, maka program akan mengolah sinyal digital tersebut menurut rumus (orde, frekuensi) yang telah ditentukan. Untuk mendapatkan sinyal analog lagi yang telah diolah dengan program maka diperlukan tambahan berupa PWM. Cara untuk mendapatkan sinyal analog kembali adalah mencampur data digital dengan PWM. Keluaran dari mikrokontroler ini adalah data berupa data digital yang telah tercampur dengan PWM. Untuk menghilangkan PWM dari keluaran mikrokontroler ini maka, PWM difilter dengan sebuah filter analog biasa. Hasil penyaringan ini lah, data sinyal analog yang telah siap diperdengarkan oleh user. Dari hasil perancangan dan pembuatan alat, filter digital berbasis mikrokontroler ATmega 8535 ini dapat mengolah sinyal secara low pass filter (LPF) dengan metode Infinite Impuls Respons (IIR). Dengan menekan tombol-tombol pemilihan frekuensi dan orde mulai dari 224Hz (orde 2), 448Hz (orde 2), 330Hz (orde 3), 350Hz (orde 1), 700Hz (orde 1), 1500Hz (orde 1), maka didapatkan berbagai variasi filter digital. Kata Kunci : Pengolahan sinyal digital, Filter digital, mikrokontroler ATmega 853
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