ELECTRONICS AND FOR COMMUNICATIONS ELECTRONIC CIRCUITS COMMUNICATIONS Chapter Course Introduction Huynh Phu Minh Cuong hpmcuong@hcmut.edu.vn Department of Telecommunications Faculty of Electrical and Electronics Engineering Ho Chi Minh city University of Technology Dr Cuong HuynhTelecommunications DepartmentHCMUT ELECTRONIC CIRCUITS FOR COMMUNICATIONS Instructor: E-mail: Website: Cuong Huynh, Ph.D hpmcuong@hcmut.edu.vn www.dee.hcmut.edu.vn/vn/bomon/bmvienthong/en.html Textbook: [1] B Razavi, “RF Microelectronics,” Upper Saddle River, Prentice Hall, Second Edition, 2012 [2] T Lee, “Design of CMOS RF Circuits,” Cambridge University Press, Second Edition, 2004 References: [3] J Rogers, C Plett, “Radio Frequency Integrated Circuit Design,” Artech House, 2nd Edition, 2010 [4] F Ellinger, RF Integrated Circuits and Technologies, Springer Verlag, 2008 [5] Telecommunication Circuits And Technology, Andrew Leven [6] Technical Papers Dr Cuong HuynhTelecommunications DepartmentHCMUT ELECTRONICS AND FOR COMMUNICATIONS ELECTRONIC CIRCUITS COMMUNICATIONS Objectives This course provides comprehensive knowledge on basic principles of high frequency circuit designs and illustrate how such circuits are used in communication systems By the end of this course, students can be able to: By the end of this course, students can be able to Understand constitute components of a radio communications system and characteristics of various radio frequency (RF) transceiver architectures for radio communications systems Understand the basic concepts used for the design of radio communications circuits Understand effects of noise and nonlinearity distortion on RF systems and system parameters such as noise figure, input/output referred noise, 1-dB compression point, thirdorder intercept point, sensitivity and dynamic ranges Understand analogue and digital modulation schemes and multiple access techniques Analyze and design electronic circuits for communication systems, including LNA, Mixer, Power Amplifier, Oscillators and Frequency synthesizer Read English textbook and to solve related problems Work as a team to solve a given problem (team project) Dr Cuong HuynhTelecommunications DepartmentHCMUT ELECTRONICS AND FOR COMMUNICATIONS ELECTRONIC CIRCUITS COMMUNICATIONS GRADING: Attendance/Attitude : % Exercise/Homework /Quiz: 20 % You are encouraged to work together with your colleagues on the homework However, each student must turn in an independent write-up No late homework will be graded Mid-term test :30% Closed book One single-side A4 note sheet is allowed Final Exams: 50% Closed book One double-side A4 sheet of notes is allowed Dr Cuong HuynhTelecommunications DepartmentHCMUT ELECTRONIC CIRCUITS FOR COMMUNICATIONS Contents Chapter 1: Introduction to Radio Communication Systems Chapter 2: Modulation and Multiple Access Chapter 3: Transceiver Architectures Chapter 4: Noise and Nonlinear Distortion Chapter 5: Passive Components, Resonators and Impedance Matching Chapter 6: Mixers - Frequency Conversion Circuits Chapter 7: Power Amplifiers Chapter 8: Oscillators Chapter 9: Frequency Synthesizers Dr Cuong HuynhTelecommunications DepartmentHCMUT ... Systems Chapter 2: Modulation and Multiple Access Chapter 3: Transceiver Architectures Chapter 4: Noise and Nonlinear Distortion Chapter 5: Passive Components, Resonators and Impedance Matching Chapter. .. Integrated Circuit Design,” Artech House, 2nd Edition, 201 0 [4] F Ellinger, RF Integrated Circuits and Technologies, Springer Verlag, 200 8 [5] Telecommunication Circuits And Technology, Andrew... Exams: 50% Closed book One double-side A4 sheet of notes is allowed Dr Cuong HuynhTelecommunications DepartmentHCMUT ELECTRONIC CIRCUITS FOR COMMUNICATIONS Contents Chapter 1: Introduction