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"Disk contains: Impedance-matching with LSM and RCDM -- Examples for using LSM and RCDM."

"Antena aktif yang merupakan integrasi antara antena gelombang mikro dengan perangkat aktif seperti amplifier telah mendapat perhatian yang luas pada beberapa tahun belakangan ini. Pada umumnya, penempatan elemen aktif yaitu transistor microwave dalam rangkaian terintegrasi microwave (Microwave Integrated Circuit, MIC) dibuat pada saluran transmisi microstrip. Pada tesis ini dibahas mengenai rancangan microwave power amplifier sebagai elemen aktif dari antena yang dibuat dengan memakai rangkaian penyesuai saluran transmisi coplanar waveguide. Keuntungan utama yang diharapkan dapat diperoleh dengan pemakaian coplanar waveguide antara lain; interkoneksi komponen pada rangkaian lebih mudah karena hanya bagian permukaan dari struktumya yang diperlukan, memberikan kemudahan dalam memperluas rangkaian pada bidang atas substrat sehingga sangat sesuai digunakan pada rangkaian terintegrasi microwave.Transistor microwave yang dipakai pada rancangan amplifier ini adalah GaAs MeSFET tipe NE 76084 yang memiliki potensi tidak stabil (potentially unstable) pada frekuensi 5 GHz, dan kondisi ini umumnya dihindari dalam rancangan microwave amplifier. Sekalipun transistor tersebut berpotensi tidak stabil, pada tesis ini diperlihatkan realisasi rancangan microwave amplifier dengan membuatnya menjadi stabil melalui pemilihan koefisien refleksi beban yang sesuai.Perancangan dilakukan dengan bantuan perangkat lunak CAD untuk amplifier, AutoCAD dan perangkat keras mesin cetak quick circuit. Pengukuran terhadap beberapa parameter seperti power gain, bandwith, return loss dan VSWR dilakukan pada rancangan akhir amplifier dengan frekuensi operasi 5 GHz.

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Active antennas which are integration between microwave antenna and an active device such as amplifier have found wide interest in the past few years. Mostly, the placement of active element (i.e. microwave transistor) in microwave integrated circuit (MIC) made on microstrip transmission line. This paper describes the design of microwave power amplifier as an active part of active antenna implemented on coplanar waveguide. With the design proposed here, the main advantage which may be expected from the proposed coplanar waveguide compared to microstrip line is based on the fact, that network interconnection is easily obtained. It structure's necessary only on the surface side of the substrate, allowing planar circuits on the top side to be extended and thus making it compatible with microwave integrated-circuit.

The amplifier investigated in this paper utilized GaAs MeSFET (NE 76084) which is potentially unstable can be realized by the proper selection of the load reflection coefficient. This condition must, therefore, be avoided for the design of microwave amplifier.

The amplifier was designed using several tools such as CAD for amplifier and Auto CAD software, and Quick-circuit machine. Measured result of power gain, VSWR and bandwidth of the amplifier operating in 5 GHz are given."

"This book presents a seamless and unified scheme for automating very complicated calculations required to design, evaluate performance characteristics of, and implement broadband and narrow band impedance matching sub-circuits. The results of these automated calculations (the component values of the impedance matching sub-circuit) are formatted as text SPICE(Simulation Program with Integrated Circuit Emphasis) input netlists. Readers then immediately can use any available SPICE simulator to measure the performance characteristics (DC response, transient response, frequency response, RMS power transferred from source to load, reflection coefficient insertion and transmission loss, ans standing wave ratio – SWR). The text SPICE netlist can be edited easily to fine-tune the performance characteristics, and perform design space exploration and “what-if” type of analyses.- Presents details of a coherent, logical and seamless scheme to design and measure the performance characteristics of both broad and narrow band impedance matching sub-circuits;- Relieves the designer from having to manually do complex, multi-step(therefore error-prone and time-consuming) calculations, especially those related to broadband impedance matching sub-circuit design;- Provides SPICE input netlists, which enable readers to use any available SPICE simulator to estimate the performance characteristics."