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School of Engineering and Informatics (for staff and students)

Radio to Optical Frequency Engineering (H6109)

Radio to Optical Frequency Engineering

Module H6109

Module details for 2021/22.

15 credits

FHEQ Level 6

Pre-Requisite

Analogue Communication and Propagation

Module Outline

Radio Frequency (RF) circuits are the fundamental building blocks in a vast array of consumer electronics and wireless communication devices. Fibre optic communications is the backbone of the internet and enabler also from mobile communication systems. Using a combination of theory and practice, and drawing on industry-grade software tools and hardware, this modules provides insight into the principles of operation, together with guidance to developing RF circuit designs as well as fundamental principles and design of fibre optics. It introduces established high frequency circuit design techniques along with a coverage of electromagnetic transmission to millimetre wave and optical frequencies. Key concepts of broad and narrow band small signal amplifiers, mixers, and high-efficiency broadband power amplifier design are taught, together with the underlying mathematical models, complemented by PCB design, fabrication and laboratory implementation

Topics covered include:

• high frequency devices and equivalent circuit models
• the Smith chart
• two-port systems
• S-parameters
• biasing
• linearity
• stability and matching
• RF noise
• RF circuits PCB software design
• RF circuit PCB implementation and measurements
• high frequency measurements using vector network analyser
• fundamentasl and design of waveguides
• fundamentals and design of optical fibres.

AHEP4 Learning outcomes: C1, C2, C6, C12, M1, M2, M6, M12

Library

Ludwig, R. and Bretchko, P., RF Circuit design: Theory and Applications, Prentice Hall 2000, ISBN 0-13-095323-7
Bowick, C. RF Circuit Design, Newnes, 1997, 075069946-9
Pozar, D.M, Microwave Engineering, 3rd ed. , Wiley, 2005, ISBN 0-471-44878-8
Olver, A.D. Microwave and Optical Transmission Wiley 1992 047193416

Module learning outcomes

Apply fundamental knowledge and principles of radio to frequency (RF) and optical circuits to design of RF circuits, waveguides and fibre communication networks.

Analyse and design RF circuit matching networks using Smith Charts

Perform stability analysis of RF two-port systems and design stable and low-noise RF amplifiers

Use software laboratory, industry-grade PCB design tools and HW prototyping appropriate programming language to design and evaluate low-noise RF amplifier circuits.

TypeTimingWeighting
Unseen ExaminationSemester 2 Assessment70.00%
Coursework30.00%
Coursework components. Weighted as shown below.
ReportT2 Week 4 33.00%
ReportT2 Week 10 67.00%
Timing

Submission deadlines may vary for different types of assignment/groups of students.

Weighting

Coursework components (if listed) total 100% of the overall coursework weighting value.

TermMethodDurationWeek pattern
Spring SemesterLaboratory2 hours00111111000
Spring SemesterLecture2 hours11111111111

How to read the week pattern

The numbers indicate the weeks of the term and how many events take place each week.

Prof Maziar Nekovee

Assess convenor
/profiles/410738

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School of Engineering and Informatics (for staff and students)

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