Gaziantep University

GAZİANTEP UNIVERSITY

Türkçe
Prof.Dr. ARİF NACAROĞLU
HOMEPAGEFACULTY OF ENGINEERINGDEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
Teaching Experience
Undergraduate and Graduate Courses (That you give) During the Period of Last Two Years
Lessons

EEE 201-202 Circuit Analysis I-II

EEE 403 Digital Filters EEE406 Analog Filters

EEE 500, EEE 501, EEE 581, EEE 507

EEE 403 Digital Filters

Course Book: Digital Filters (Andreas Antoniou)

Subjects:

  • Types of discrete time signals
  • The digital filter as a system
  • Characterization of digital filters
  • Digital filter networks
  • Introduction to time domain analysis
  • Convolution summation
  • Stability
  • State space analysis
  • Discrete time transfer function and stability
  • Frequency domain analysis
  • Direct realization
  • Direct canonic realization
  • State space realization
  • Cascade realization
  • Parallel realization
  • Topological properties
  • Implementation
  • Realizability constraints
  • Invariant impulse response method
  • Modified invariant impulse response method
  • Matched z-transformation method
  • Bilinear transformation method
  • Delay equalization
  • Zero phase filters
  • Amplitude equalization
  • Constant delay filters
  • Frequency response
  • Location of zeros
  • Design using the Fourier series
  • Number representation
  • Number quantization
  • Coefficient quantization
  • Low sensitivity structures
  • Product quantization
  • Introduction to DSP Applications
  • Sampling-frequency conversion
  • Adaptive Digital Filters
  • Two dimensional digital filters

EEE 406 Analog Filter Design

Course Book: Active and Passive Analog Filter Design (L. P. Huelsman)

Subjects

  • Network functions
  • Properties of network functions
  • Types of filters
  • Frequency and Impedance denormalization
  • Magnitude approximation – The maximally flat characteristics
  • Magnitude approximation – The equal-ripple characteristics
  • Magnitude approximation – Inverse Chebyshev characteristics
  • Magnitude approximation – The elliptic characteristics
  • Transformation of the complex frequency
  • Phase approximation
  • Relative sensitivity
  • Function sensitivity
  • Q and wn sensitivities
  • Synthesis of LC driving point functions
  • Poles of transfer functions
  • Other properties of transfer functions
  • Synthesis of transfer functions using lossless ladders
  • Zero shifting in transfer function synthesis
  • Single amplifier filters
  • Low pass single amplifier filters
  • Band pass and high pass single amplifier filters
  • Infinite gain single amplifier filters
  • Possitive and negative feedback
  • Higher order filters
  • The state variable (KHN) Filters
  • Other multiple amplifier filters
  • Operational transconductance amplifiers
  • Switched capacitor filters
  • FDNR and negative impedances, impedance convertors.
Design ~GAÜN WebTeam