Hasil Pencarian  ::  Simpan CSV :: Kembali

"Makalah ini menguraikan hasil rancang bangun antena untuk meningkatkan bandwidth patch antena dengan teknik proximity-coupling. Susunan antena tersebut terdiri dari dua lapis substrat dimana lapisan atas berfungsi sebagai elemen radiasi dan lapisan bawah digunakan sebagai sistem pencatuan. Saluran pencatu yang ditambah stub berfungsi untuk mengendalikan bagian riil impedansi antenna agar sesuai dengan karakteristik impedansi saluran pencatu. Antena dicatu dengan saluran mikrostrip berbentuk seperti garpu untuk meningkatkan bandwidth yang lebih lebar. Dari hasil pengukuran menunjukan bahwa bandwidth dengan VSWR < 2 adalah 0.98 GHz dan gain sebesar 9.3 dB. Pola radiasi antena adalah 70° pada bidang E dan 80 ° pada bidang H.

---

This paper describes design of antenna for increasing bandwidth of patch antenna by proximity coupling. The antenna structures had two layer substrates where the top layer is used as radiator element and the bottom layer is used for feeding system. The feeding system composed a stub is used to control real impedance antenna for matching to impedance characteristic feeding line. The antenna is fed by microstripline with a fork-like tuning stub for increasing much wider bandwidth. From measurement, obtained bandwidth with VSWR < 2 is 0.98 GHz and the antenna gain is 9.3 dB. The Radiation pattern antenna is 70° for E plane and 80° for H plane.

Key Words : electromagnetic coupled, feeding system, fork-like tuning "

"This paper describes the application of the geometrical theory of diffraction (GTD) method to predict the ground plane effect on the rectangular antenna radiation pattern. In the analysis we used a Matlab Software version 4.2c1 to develop a rectangular microstrip antenna software. The results verify that the antenna radiation pattern is affected significantly by the ground plane."

"Dalam sistem komunikasi, antena memegang peranan yang sangat penting. Oleh karena itu, antena harus memenuhi beberapa persyaratan seperti: gain yang tinggi, polarisasi melingkar dan keterarahan yang baik. Dalam makalah ini, telah didesain sebuah an tena susun microstrip secara linear yang terdiri dari empat elemen berbentuk patch segitiga dengan slot berbentuk silang untuk sistem satelit Quasi-Zenith. Penelitian secara simulasi maupun eksperimen telah dilakukan. Hasil simulasi menunjukkan bahwa 3 dB axial ratio bandwidth diperoleh sebesar 87 MHz (2,569-2,656 GHz) dan melalui hasil pengukuran diperoleh sebesar 96 MHz (2,556-2,652 GHz). Antena susun linear 4 elemen menghasilkan gain sebesar 13,73 dB dan pola radiasi maksimum pada sudut 40 °and -40°. Baik hasil simulasi maupun pengukuran memperlihatkan bahwa kinerja antena telah memenuhi spesifikasi yang diperlukan untuk sistem satelit Quasi-Zenith.

---

In satellite communication system, antenna plays an important role. Therefore, the antenna must meet some requirements, such as high gain, circular polarization, and good directivity. In this paper, a four element linear array triangular patch microstrip antenna with cross slot is designed to be used for Quasi-Zenith satellite system. A simulation study as well as experimental study was carried out. The simulation showed that the 3 dB axial ratio bandwidth of 87 MHz (2.569-2.656 GHz) is achieved while the measured results showed 96 MH z (2.556-2.652 GHz). The linear array of 4 element antenna has a gain of 13.73 dB and maximum radiation pattern at 40° and -40°. Simulation and experiment results show that this antenna has met the characteristic requirements of Quasi-Zenith satellite."

"Makalah ini melaporkan penelitian pada antena mikrostrip segitiga sama sisi dengan menggunakan pengumpan saluran mikrostrip untuk dapat membangkitkan frekuensi ganda dengan menambahkan sepasang celah pada alas segitiga itu. Pengumpanan semacam ini disebut pengumpanan sambatan elektromagnetik.. Antena mikrostrip ini bekerja pada buah frekuensi yang beroperasi di dalam jangkau frekuensi antara 2 GHz dan 4 GHz (daerah frekuensi S band).Dari hasil simulasi terlihat bahwa frekuensi ganda antena mikrostrip segitiga sama sisi ini dapat dibangkitkan dengan lebar celah yang dibuat tetap sebesar 1 mm, sedangkan tinggi celah dapat diubah-ubah dari 10 mm sampai 14 mm dan jarak antar celah dapat diatur, mula-mula 3 mm kemudian 5 mm dan selanjutnya menjadi 7 mm.

---

Design of Generating Dual Frequency Operation for Triangular Microstrip Antenna Using Electromagnetic Coupling. A new design is proposed in this paper by applying a pair of slits using a microstrip feed line. Therefore the microstrip line feeding system is electromagnetically coupled to the patch. The antenna works at two different frequencies in the range from 2 GHz to 4 GHz (S band frequency).The results of the simulation shows that the dual frequency operation can be created when the slit width is 1 mm and the height of the slits ranges from 10 mm to 14 mm with inter slit distance of 3 mm, 5 mm and 7 mm as well."

"This paper will analyze the performance of adaptive slotted ALOHA DS-CDM4 over multipath fading with capture eject to increase throughput transmit data when traffic condition in saturation. To divine intervention we use algorithm to control level change transmission rate use user based on trqffic condition. Adaptive slotted ALOHA DS-CDA/L4 technique is technique access can do adaptation level transmission rate based trams condition. Using protocol access channel adaptive slotted ALOHA DS-CDAM combine between slotted ALOHA and DS-CDMA in wireless communication system. This method may users to do access simultaneously and using efficient spectrum is providential from adaptive slotted ALOHA DS-CDMA Performance of S-ALOHA DS-CDMA decrease on channel fading. To handle throughput decrease because amount bit on transmit packet, so capture effect can use to handle this problem. So effective throughput depend capture probability and probability packet success. From that result throughput adaptive slotted ALOHA DS-CDMA with capture eject on multipath fading channel increase with decrease capture ratio length bit packet and different number of path."

"Throughput S-ALOHA CDM4 using technique of diversities MRC differential detected with L branch antenna has been analyzed Desired signal will be intercepted then combined and also analyzed the influence of co channel interference. By using two different model of fading between desired signal and interference signal, throughput can he analyzed under channel condition of Nakagami/ Nakagami and Rician/Nakagami. MRC diversities and differential detection (DPSK) with L branch antenna are used on receiver to overcome multi path fading interference and to increase the system performance. From the result indicating the use of L branch antenna at receiver make .system throughput becomes better The higher the amount of interference signals the worse throughput system. The bigger Nakagami parameter m, and Rician factor, K, of the desired signal and interference signal the better the throughput."

"Makalah ini menjelaskan hasil rancang bangun dan pengukuran Defected Ground Structure (DGS) pada antena mikrostrip patch segiempat berbentuk huruf S (S-Shaped) berkarakteristik broadband. Bentuk DGS yang digunakan berupa struktur dua dimensi yang dibuat dengan membentuk empat buah slot lingkaran pada ground antena. Hasil pengukuran terhadap antena dengan penggunaan DGS ini dibandingkan dengan antena referensinya yang tanpa menggunakan DGS diperoleh peningkatan gain pada frekuensi disekitar daerah perancangan DGS. Penempatan DGS ini dapat menekan cross polarization sebesar 15 dB dan dapat pula menurunkan nilai return loss sebesar 32,6%.

---

This paper discusses circular shape Defected Ground Structure (DGS) on S-Shaped rectangular patch microstrip antenna with broadband characteristic. The DGS form is two dimensional structure with four circular holes etched on the ground plane. The measurement result of the antenna with DGS compared with the reference antenna without DGS shows the increasing of antenna?s gain at the DGS design frequencies region . This DGS can suppres cross polarization to 15 dB and enhance return loss of antenna to 32,6 %."

"Tulisan ini membahas antena mikrostrip susun dua elemen yang dikembangkan dengan menerapkan defected ground structure (DGS) bentuk trapesium. DGS ini diletakkan pada bidang pentanahan dari substrat dengan posisi diantara kedua elemen antena susun. Hal ini dilakukan agar dapat menekan efek mutual coupling yang timbul pada antena susun. Hasil simulasi dan pengukuran dilakukan dengan membandingkan kinerja antena susun dua elemen tanpa dan dengan DGS.Dari hasil pengukuran antena dengan DGS dibandingkan dengan antena tanpa DGS diperoleh penekanan efek mutual coupling sebesar 7,9 dB, perbaikan nilai return loss sebesar 33,29% yaitu dari -30,188 dB menjadi -40,24 dB dengan pelebaran axial ratio bandwidth sebesar 10 MHz. Pelebaran bandwidth ini diperoleh dari frekuensi kerja 2,63 GHz ? 2,67 GHz pada antena tanpa DGS sedangkan pada antena dengan DGS dari 2,63 GHz ? 2,68 GHz. Pengukuran gain antena juga dilakukan dan diperoleh peningkatan gain sebesar 0,6 dB. Hasil ini menunjukkan penerapan DGS bentuk trapesium ini mampu meningkatkan kinerja antena dibandingkan tanpa DGS.

---

This paper presents a two element microstrip antenna array using trapezium shape defected ground structure (DGS). The DGS is inserted in the ground plane between two elements of antenna array. Insertion of the DGS is intended to suppress the mutual coupling effect produced by antenna array.

Simulation and measurement results were taken and compared between antenna array with and without DGS. Measurement results show that the antenna with DGS compared to antenna without DGS can suppress mutual coupling effect to 7.9 dB, improve the return loss to 33.29% from -30.188 dB to -40.24 dB and axial ratio bandwidth enhancement to 10 MHz. This bandwidth enhancement is achieved from frequency 2.63 GHz ? 2.67 GHz for antenna without DGS and from frequency 2.63 GHz ? 2.68 GHz for antenna with DGS. In addition, the DGS antenna also improved the antenna gain to 0.6 dB. The results show that the implementation of the trapezium DGS can improve the radiation properties of the antenna without DGS."

"Antenna can be one of the largest components in a wireless device; therefore antenna miniaturization can reduce the overall size of wireless devices. One method used to reduce the element size of an antenna is by using metamaterial structures. This paper discusses a Left-Handed Metamaterial (LHM) structure stacked on a two-element microstrip antennas array for miniaturization and gain enhancement at a frequency of 2.35 GHz. To observe the impact of the LHM structure on the antenna, first this paper discuss the design of a conventional rectangular shape microstrip antenna without a LHM structure, then a design of the LHM structure which shows both negative permittivity and negative permeability. This LHM structure is then implemented on a conventional single element microstrip antenna and on a two-element microstrip antennas array. Results and discussion of implementation of the LHM structure on the conventional microstrip antenna is provided in this paper.

The results show that good agreement between simulated and measured results has been achieved. The simulation results show that the antenna works at a frequency of 2.29?2.42 GHz with a bandwidth of 128 MHz (5.4%) and a gain of 8.2 dBi, while the measurements show that the antenna works at a frequency of 2.26?2.41 GHz with a bandwidth of 146 MHz (6.21%) and a gain of 8.97 dBi. In addition, by comparing the substrate dimension for the two element array antennas, with and without the LHM structure, shows a 39% reduction is achieved."