TLT-8507 Communication Circuits & Modules - 2, 9 cr
Sami Sipilä, Nikolay Tchamov
|Lecture times and places||Target group recommended to|
2. Attending at least 80% of the lectures.
3. Attending all exercises.
4. Developing all homeworks.
5. Completing all laboratory exercises.
Completion parts must belong to the same implementation
A core course that widens the theoretical and practical knowledge of an Integrated RF Circuit Designer and brings it to the demands of the M.Sc. level. Lectures deliver the theoretical analysis and specifics of major importance building blocks of RF integrated circuits. Auditorium exercises apply the theory on main importance building sub-blocks, using hand-held analysis, introduction and further training on the CAD software tools of CADENCE for RF-Design. Laboratory exercises are also an essential part of the whole course. The students will investigate in simulations and by experiments the blocks and the structure of modern Low-Noise Amplifier and 4T/1L-type LC VCO system, using RF measurement laboratory devices, such as Spectrum and Network Analyzers.
|Content||Core content||Complementary knowledge||Specialist knowledge|
|1.||Analyzing the concepts in major types of Wireless GHz range transceivers to derive the key points for planning their monolithic CMOS implementation. Superheterodyne and homodyne receivers and their implementation problems. System specifications effect on LNA and VCO specifications.|
|2.||CAD models for BJT/HBT and MOS transistors at GHz range. Single and multi-transistor amplifiers.|
|3.||State-of-art LNAs: Parameters, analysis, optimization. Large/small-signal linearity and linearization techniques. Semi-symbolic analysis of RF Circuits: 5 GHz LNA as a case study.|
|4.||State-of-the-art Oscillators; LC-, RC- and Ring-oscillators. Double Cross-coupled VCO operation, features and design. Oscillator satellite blocks, such as buffers, AGC, as well bias blocks and their effect on the performance.|
|5.||PLL and its sub-blocks; Frequency dividers by master-slave latch and its kick-back noise. Analog multiplier and Gilbert cell. GHz-range Sample-and-Hold Amplifiers. Switching Capacitor circuits and oversampling. Noise-shaping technique.|
Numerical evaluation scale (1-5) will be used on the course
|Type||Name||Author||ISBN||URL||Edition, availability, ...||Examination material||Language|
|Book||Analysis and Design of Analog Integrated Circuits||Gray, Hurst, Lewis, Mayer||0-471-32168-0||4th||English|
|TLT-8207 Communication Circuits & Modules - 1||Obligatory|
The course will replace TLT-8506 Communications Circuits and Modules II.
|Description||Methods of instruction||Implementation|
|Implementation 1|| Lectures
Contact teaching: 0 %
Distance learning: 0 %
Self-directed learning: 0 %