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Abstrak :
With the growth of optical communications using Low toss optical. fibers. the need for an optical switching system that exchanges optical. signals without any optoelectric and electro optic converter may arise. In this study, an experimental model of sliding prism switch using planar micro lens array has been constructed. The performance of the constructed switching device was studied by measuring insertion Loss. coupling efficiency and cross talk. The experiment shows that the measured results of insertion losses that is 6 and 7 dB are greater than the theoretically calculation that is 1.3 dB. The modulated signal has been measured as we t t ; the shape of the signal does not change after passing through the switch and on the other hand the amplitude of the output signal. is tower than the input signal due to the transmission Loss. I t is concluded that the experimental model of sliding prism demonstrate the potential application of planar micro lens in optical switch device.

Abstrak :
Pada penelitian ini, dirancang sebuah triple-band bandpass filter (BPF) menggunakan hairpin Tri Section Step Impedance Resonator (TSSIR), yang dapat bekerja pada frekuensi 1400 MHz, 2400 MHz dan 3800 MHz secara bersamaan, dirancang, dibuat dan dievaluasi. Proses perancangan dan simulasi menggunakan perangkat lunak Advanced Design System (ADS). Bandpass Filter (BPF) yang dirancang menggunakan konfigurasi hairpin TSSIR yang dibuat pada Printed Circuit Board (PCB) FR-4 dengan nilai permitivitas 4.6, ketebalan substrat 1.6 mm dan loss tangent 0.002. Parameter yang digunakan saat perancangan ialah Insertion Loss, Return Loss, VSWR dan Bandwidth. Hasil simulasi Return Loss memiliki nilai -30.156 dB, -20.607 dB, dan -17.287 dB dan hasil fabrikasi pada penelitian ini memiliki nilai Return Loss sebesar dan -15.007 dB, -10.467 dB, dan -10.047 dB. Sedangkan nilai hasil simulasi Insertion Loss sebesar -0.682 dB, -0.855 dB, dan -1.262 dB dan hasil fabrikasi pada penelitian ini memiliki nilai Insertion Loss sebesar -2.236 dB, -2.983 dB dan -12.067 dB. Sehingga pada perancangan kali ini bandwidth pada frekuensi tengah yang ketiga (3800) MHz tidak memenuhi target disebabkan  adanya perbedaan nilai konstanta dielektrik substrat yang memiliki nilai pada rentang 4.6-4.9 pada tempat fabrikasi sehingga terjadinya pergeseran frekuensi tengah dan tidak tercapainya parameter yang diinginkan. ......In this research, a triple-band bandpass filter (BPF) was designed using a hairpin Tri Section Step Impedance Resonator (TSSIR), which can work at 1400 MHz, 2400 MHz and 3800 MHz simultaneously, was designed, fabricated and evaluated. The design and simulation process uses the Advanced Design System (ADS) software. The Bandpass Filter (BPF) was designed using a TSSIR hairpin configuration made on a Printed Circuit Board (PCB) FR-4 with a permittivity value of 4.6, a substrate thickness of 1.6 mm and a loss tangent of 0.002. The parameters used when designing are Insertion Loss, Return Loss, VSWR and Bandwidth. The results of the Return Loss simulation have values of -30,156 dB, -20,607 dB, and -17,287 dB and the fabrication results in this study have Return Loss values of and -15,007 dB, -10,467 dB, and -10,047 dB. While the insertion loss simulation results are -0.682 dB, -0.855 dB, and -1.262 dB and the fabrication results in this study have insertion loss values of -2.236 dB, -2.983 dB and -12.067 dB. So that in this design the bandwidth at the third center frequency (3800) MHz does not meet the target due to differences in the dielectric constant values of the substrate which have values in the range 4.6-4.9 at the fabrication site resulting in a shift in the middle frequency and the desired parameters are not achieved.

Abstrak :
ABSTRAK
Skripsi ini membahas tentang rancang bangun sistem receiver pada payload komunikasi IiNUSAT (Indonesian Inter University Satelite) yang mempunyai orbit LEO (low earth orbit) sun synchrounous dengan ketinggian 700 Km, payload komunikasi dengan jenis regenerative, sistem receiver dengan jenis superheterodyne, dan frekuensi kerja 145.95 MHz. Pembahasan akan dilakukan lebih spesifik pada low noise amplifier (LNA) dan bandpass filter (BPF). LNA dan BPF disimulasikan dengan menggunakan perangkat lunak advanced design system (ADS). LNA mempunyai spesifikasi kelas A dengan menggunakan komponen aktif bipolar transistor junction (BJT) 2SC5006 yang dirancang dengan menggunakan smith chart dan mempunyai hasil simulasi gain 22.8 dB serta noise figure 1.2 dB pada frekuensi 145.95 MHz. Hasil fabrikasi LNA menunjukan pergeseran frekuensi kerja menjadi 70.279 MHz. Bandpass filter mempunyai tipe butterworth orde lima yang dirancang dengan metode insertion loss dan mempunyai nilai bandwidth 20 MHz serta insertion loss dB pada frekuensi 145.95 MHz. Hasil fabrikasi BPF menunjukan pergeseran frekuensi kerja menjadi 120.264 MHz. Adanya perbedaan hasil simulasi dan hasil fabrikasi disebabkan oleh bentuk dan deviasi komponen pasif serta saluran transmisi dan diskontinuitas saluran transmisi yang menyebabkan pengaruh pada respon frekuensi yang dihasilkan karena terdapat reaktansi parasitik berupa komponen pasif induktor dan kapasitor pada rangkaian ekuivalen keduanya. Hasil simulasi untuk rangkaian gabungan LNA dan BPF menunjukan nilai gain 22.6978 dB yang menunjukan LNA dapat menanggulangi loss pada sistem receiver termasuk insertion loss pada BPF.

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ABSTRACT
Receiver system on payload communication of IiNUSAT (Indonesian Inter University Satelite) has sun synchrounous LEO (low earth orbit) with 700 Km altitude, regenerative payload communication, superheterodyne receiver, and 145.95 MHz operating frequency. Study will be done specifically on low noise amplifier (LNA) and bandpass filter (BPF). Advanced design system (ADS) software is used to simulate LNA and BPF. Low noise amplifier (LNA) with class A specification and 2SC5006 bipolar junction transistor (BJT) active component is designed with smith chart and shows simulation results of 22.8 dB gain and 1.2 dB noise figure at 145.95 MHz operating frequency. Fabrication result of LNA showed a shift in operating frequency of 70.279 MHz. Bandpass filter (BPF) with five orde butterworth type is designed with insertion loss method and shows simulation results of 20 MHz bandwidth and dB insertion loss at 145.95 MHz operating frequency. Fabrication result of BPF showed a shift in operating frequency of 120.264 MHz. The difference on simulation and fabrication result are caused by not only the shape and deviation of passive components but also transmission lines and discontinuity of transmission lines which has parasitic component of inductor and capacitor in their equivalent circuit. Simulation result on combination of LNA and BPF circuit is 22.6978 dB gain which show that LNA can compensate loss in receiver system, including insertion loss in BPF.