{"http:\/\/lib.itenas.ac.id\/kti\/?p=4314":{"http:\/\/www.w3.org\/1999\/02\/22-rdf-syntax-ns#type":[{"type":"uri","value":"http:\/\/rdfs.org\/sioc\/ns#Post"},{"type":"uri","value":"http:\/\/rdfs.org\/sioc\/types#BlogPost"}],"http:\/\/purl.org\/dc\/elements\/1.1\/title":[{"type":"literal","value":"PERANCANGAN DAN IMPLEMENTASI REFLECTOR ANTENA WIFI DENGAN FREKUENSI 2,4 GHZ"}],"http:\/\/purl.org\/dc\/terms\/identifier":[{"type":"literal","value":"4314","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#integer"}],"http:\/\/purl.org\/dc\/elements\/1.1\/modified":[{"type":"literal","value":"2015-04-28","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#date"}],"http:\/\/purl.org\/dc\/elements\/1.1\/created":[{"type":"literal","value":"2015-04-28","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#date"}],"http:\/\/rdfs.org\/sioc\/ns#link":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?p=4314"}],"http:\/\/rdfs.org\/sioc\/ns#has_creator":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?author=6#account"}],"http:\/\/rdfs.org\/sioc\/ns#has_container":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/#posts"}],"http:\/\/purl.org\/dc\/elements\/1.1\/abstract":[{"type":"literal","value":""}],"http:\/\/purl.org\/rss\/1.0\/modules\/content\/encoded":[{"type":"literal","value":"Saat ini wifi sudah banyak diaplikasikan di berbagai lokasi strategis. Di tempat - tempat tersebut biasanya para pengguna bebas menggunakan akses internet. Bagi yang tempat tinggalnya dekat dengan access point merupakan suatu keuntungan, bagi yang tempat tinggalnya jauh bisa mengakses access point tersebut dengan membangun antena dengan gain yang tinggi sebagai penerima,<\/em>\u00a0karena dengan gain yang tinggi maka jangkauan meningkat,\u00a0<\/em>salah satu contohnya ada antena directional dengan reflector parabola. Pada penelitian ini dirancang dan\u00a0<\/em>d<\/em>iimplementasi antena menggunakan reflector dengan bahan wajan dan kawat. Perancangan dibuat berdasarkan perhitungan rumus secara teoritis terhadap titik fokus reflector dan waveguide<\/em>,<\/em>\u00a0dan diuji dengan kondisi di dalam ruangan dan di luar ruangan. Dari hasil pengukuran dan analis<\/em>is<\/em>, diperoleh gain wajanbolic dan gridbolic sama sebesar 17,065 dBi, sedangkan gain berdasarkan teori sebesar 17,18 dBi. Level sinyal wajanbolic sebesar -40,94 dBm ( indoor ) dan -75,38 dBm\u00a0<\/em><\/em>( outdoor ) lebih besar dibandingkan level sinyal gridbolic sebesar -47,02 dBm ( indoor ) dan -83 dBm<\/em>\u00a0<\/em>( outdoor ). Wajanbolic menangkap 16 access point sedangkan gridbolic 14 access point.\u00a0<\/em>Dengan demikian<\/em>\u00a0wajanbolic lebih unggul dibandingkan gridbolic.<\/em>\r\n\r\n---------------------------------------------------------------------------------------------------------------------------------------------------------------------------<\/em><\/strong>\r\n\r\nCurrently wifi is widely applied in various strategic locations.<\/em>\u00a0In that<\/em>\u00a0place, usually the user is free to use internet access. Those who lived close to the access point is an advantage, for those who have access to their homes far away access point is to build a high gain antenna as a receiver, because when the gain is high then the range increases, there is one example of a directional antenna with a parabolic reflector . In this research, it was designed and implemented the antenna\u00a0 using a reflector with frying pan and wire materials. The design was based on the calculation of the theory formula for the focal point reflector and waveguide, and tested in the indoor and outdoor conditions. From the measurement and analysis, it has obtained where the wajanbolic and gridbolic had the same gain of 17.065 dBi, while based on the theory the gain was 17.18 dBi. The wajanbolic signal levels were -40.94 dBm wajanbolic (indoor) and -75.38 dBm (outdoor), where it was greater than the gridbolic signal levels as -47.02 dBm (indoor) and -83 dBm (outdoor). The wajanbolic capture was 16 access points while that the gridbolic was 14 access point. Thus the wajanbolic better than the gridbolic.<\/em>\r\n\r\n \r\n\r\nDibuat Oleh :\u00a0NUGRAHA YURANDI, LUCIA JAMBOLA, ARSYAD RAMADHAN DARLIS<\/strong>\r\n\r\nKata Kunci :\u00a0Reflector, Wajanbolic, Gridbolic, Acces<\/em><\/strong>s<\/em><\/strong>\u00a0Point<\/em><\/strong>\r\n\r\nKeterangan :\u00a0Diterbitkan pada Jurnal Nasional Tak Terakreditasi, Jurnal Reka Elkomika, ISSN: 2337-439X , Vol.1 | No.3, Februari 2013, Teknik ELektro\u00a0<\/strong>\r\n\r\n \r\n\r\nPERANCANGAN DAN IMPLEMENTASI REFLECTOR ANTENA WIFI DENGAN FREKUENSI 2,4 GHZ<\/strong><\/a>\r\n\r\n ]]>","datatype":"http:\/\/www.w3.org\/1999\/02\/22-rdf-syntax-ns#XMLLiteral"}],"http:\/\/rdfs.org\/sioc\/ns#content":[{"type":"literal","value":"Saat ini wifi sudah banyak diaplikasikan di berbagai lokasi strategis. Di tempat - tempat tersebut biasanya para pengguna bebas menggunakan akses internet. Bagi yang tempat tinggalnya dekat dengan access point merupakan suatu keuntungan, bagi yang tempat tinggalnya jauh bisa mengakses access point tersebut dengan membangun antena dengan gain yang tinggi sebagai penerima,\u00a0karena dengan gain yang tinggi maka jangkauan meningkat,\u00a0salah satu contohnya ada antena directional dengan reflector parabola. Pada penelitian ini dirancang dan\u00a0diimplementasi antena menggunakan reflector dengan bahan wajan dan kawat. Perancangan dibuat berdasarkan perhitungan rumus secara teoritis terhadap titik fokus reflector dan waveguide,\u00a0dan diuji dengan kondisi di dalam ruangan dan di luar ruangan. Dari hasil pengukuran dan analisis, diperoleh gain wajanbolic dan gridbolic sama sebesar 17,065 dBi, sedangkan gain berdasarkan teori sebesar 17,18 dBi. Level sinyal wajanbolic sebesar -40,94 dBm ( indoor ) dan -75,38 dBm\u00a0( outdoor ) lebih besar dibandingkan level sinyal gridbolic sebesar -47,02 dBm ( indoor ) dan -83 dBm\u00a0( outdoor ). Wajanbolic menangkap 16 access point sedangkan gridbolic 14 access point.\u00a0Dengan demikian\u00a0wajanbolic lebih unggul dibandingkan gridbolic.\r\n\r\n---------------------------------------------------------------------------------------------------------------------------------------------------------------------------\r\n\r\nCurrently wifi is widely applied in various strategic locations.\u00a0In that\u00a0place, usually the user is free to use internet access. Those who lived close to the access point is an advantage, for those who have access to their homes far away access point is to build a high gain antenna as a receiver, because when the gain is high then the range increases, there is one example of a directional antenna with a parabolic reflector . In this research, it was designed and implemented the antenna\u00a0 using a reflector with frying pan and wire materials. The design was based on the calculation of the theory formula for the focal point reflector and waveguide, and tested in the indoor and outdoor conditions. From the measurement and analysis, it has obtained where the wajanbolic and gridbolic had the same gain of 17.065 dBi, while based on the theory the gain was 17.18 dBi. The wajanbolic signal levels were -40.94 dBm wajanbolic (indoor) and -75.38 dBm (outdoor), where it was greater than the gridbolic signal levels as -47.02 dBm (indoor) and -83 dBm (outdoor). The wajanbolic capture was 16 access points while that the gridbolic was 14 access point. Thus the wajanbolic better than the gridbolic.\r\n\r\n \r\n\r\nDibuat Oleh :\u00a0NUGRAHA YURANDI, LUCIA JAMBOLA, ARSYAD RAMADHAN DARLIS\r\n\r\nKata Kunci :\u00a0Reflector, Wajanbolic, Gridbolic, Access\u00a0Point\r\n\r\nKeterangan :\u00a0Diterbitkan pada Jurnal Nasional Tak Terakreditasi, Jurnal Reka Elkomika, ISSN: 2337-439X , Vol.1 | No.3, Februari 2013, Teknik ELektro\u00a0\r\n\r\n \r\n\r\nPERANCANGAN DAN IMPLEMENTASI REFLECTOR ANTENA WIFI DENGAN FREKUENSI 2,4 GHZ\r\n\r\n "}],"http:\/\/rdfs.org\/sioc\/ns#topic":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=1"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=3"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=access-point"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=gridbolic"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=reflector"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=wajanbolic"}]},"https:\/\/lib.itenas.ac.id\/kti\/?author=6#account":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?author=6&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?cat=1":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=1&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?cat=3":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=3&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=access-point":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=access-point&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=gridbolic":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=gridbolic&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=reflector":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=reflector&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=wajanbolic":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=wajanbolic&feed=lhrdf&format=json"}]}}