| TSEK25 | Radio Electronics, 4,5 ECTS credits. /Radioelektronik/ |
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Area of Education: Subject area: |
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| Advancement level
(A-D): C
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| Aim: To give fundamental knowledge on radio frequency (RF) transceiver design, from component level to system level, and understanding in performance limitations by means of theory on matching, transmission lines, passive, and active RF components in CMOS technology. |
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| Prerequisites: (valid for students admitted to programmes within which the course is offered) TFFY34 Semiconductor technology D,Y and TSTE15/83 Analog circuits. Note: Admission requirements for non-programme students usually also include admission requirements for the programme and threshhold requirements for progression within the programme, or corresponding. |
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| Organisation: 12 lectures, 6 exercises and 8 h laboratory work. |
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| Course contents: 1. Introduction and superheterodyne architecture. 2. Modeling of on chip inductance and transmission line. 3. Smith chart and S-parameters. 4. Distributed and lumped matching technique. 5. Amplifier specification and bandwidth estimation. 6. Broadband and Tuned high frequency amplifiers. 7. Noise and Low noise CMOS RF amplifier. 8. CMOS RF Mixer. 9. CMOS RF Oscillator. 10. Modulation for digital communications. 11.CMOS RF Power Amplifier. 12. Layout, design flow for a superheterodyne, and mobile system. |
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| Course literature: Thomas H.Lee: The Design of CMOS Radio-Frequency Integrated Circuits, Cambridge University Press, 1998. |
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| Examination: | |||
| Laboratory assignments Hand-in exercises and oral examination |
0,5 p 2,5 p |
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Course language is English. Department offering the course: ISY. Director of Studies: Tomas Svensson Examiner: Jerzy Dabrowski Course Syllabus in Swedish |
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