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Printed circuit board design for mixer characterisation

Printed circuit board design for mixer characterisation / Rajkumar Pushpanathan
Dalam projek prasiswazah ini, papan litar bercetak (PCB) untuk pencampur penukar tinggi Telah direka untuk berfungsi pada frekuensi RF2.5GHz dengan menggunakan cip MAX2671dari MAXIM. Rekabentuk ini adalah berdasarkan model kit penilaian MAX2671 sebagai rujukan. Em pat kaedah penting digunapakai dalam merekabentuk PCB ini, iaitu padanan impedans, penen tuan lebar jalur kuprum, rekabentuk susun atur PCB dan pengekstrakan elemen parasit (RLC). Rangkaian padanan berbentuk L dilakukan dengan menggunakan komponen tergumpal untuk memadankan PCB ini terhadap ciri impedans 50 Ω. Pulangan kehilangan, S11, yang diperoleh adalah lebih kurang -27 dB. Memandangkan projek ini ada kaitan dengan signal frekuensi radio (RF), lebar laluan penghantaran yang diperoleh ialah 1.84 mm dengan menggunakan papan RO3003. Susun atur PCB direka dengan menggunakan topologi rekabentuk 2 lapisan me mandangkan litar ini hanya memerlukan 11 biji komponen sahaja dan oleh sebab itu, dimensi PCB yang diperoleh ialah 52.1×48.76 mm. Elemen parasit yang wujud dalam laluan mikrostrip diekstrak. Keputusannya, nilai kapasitan dan aruhan yang diperoleh mempunyai perbezaan se banyak 8 hingga 39 % apabila nilai kiraan masing-masing dibandingkan dengan nilai simulasi yang sepadan. Hal ini menunjukkan bahawa elemen parasit memang wujud walaupun frekuensi yang digunakan hanya 2.5 GHz dan oleh sebab itu, kesan RLC dalam papan RF mesti dititikber atkan. _______________________________________________________________________________________________________ In this undergraduate project, a PCB for an upconverter mixer is designed to operate at RF frequency of 2.5 GHz using MAXIM’s MAX2671 chip. The design is based on MAX2671 evaluation kit model as the reference. Four important methods have been used in designing the PCB which are characteristic impedance matching, copper trace width determination, PCB layout design and parasitic elements (RLC) extraction. An L-section matching network using lumped components is done to match the PCB to characteristic impedance of 50 Ω. The return loss, S11, obtained is about -27 dB. Since this project is related to RF signals, the transmission line width is found to be 1.84 mm by using RO3003 board. The PCB layout is designed using 2-layer design topology since the circuit requires only 11 components and thus the dimension of the PCB is 52.1×48.76 mm. The parasitic elements that exist in the microstrip line are extracted. As a result, capacitance and inductance is found to have between 8 to 39% difference when their respective calculated values are compared with the equivalent simulated values. This shows that parasitic elements do exist although the frequency used is only 2.5 GHz and therefore the effect of RLC in RF boards must be considered.
Contributor(s):
Rajkumar Pushpanathan - Author
Primary Item Type:
Final Year Project
Identifiers:
Accession Number : 875004786
Barcode : 00003096406
Language:
English
Subject Keywords:
upconverter mixer; MAXIM’s MAX2671 chip; parasitic elements
First presented to the public:
6/1/2012
Original Publication Date:
3/9/2018
Previously Published By:
Universiti Sains Malaysia
Citation:
Extents:
Number of Pages - 85
License Grantor / Date Granted:
  / ( View License )
Date Deposited
2018-03-09 16:28:27.115
Date Last Updated
2019-01-07 11:24:32.9118
Submitter:
Mohd Jasnizam Mohd Salleh

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