EE 640 Microprocessor System Design (3+0+0) 3
(Mikroişlemcili Sistem Tasarımı)
Design of dedicated purpose microprocessor systems used in electronic instrumentation, control and communications. Design of medium to large size microprocessor systems. Multi-processor system design.

EE 638 Advanced VLSI Design (3+0+0) 3
(İleri Çok Genis Çaplı Tümlesik Devre İleri Tasarım Teknikleri)
Dynamic circuits: clocked static logic, charge leakage, storage and sharing. Dynamic logic: Domino, MODL, LDL, NORA and Zipper CMOS logic. Electronic design automation (EDA). Chip design options: Programmable logic, programmable gate arrays, sea-of-gates and standard cell design. CMOS subsystem design. Testing and design for testability. Student term project

EE 637 Integrated Circuit Design (Tümdevre Tasarımı) (3+0+0) 3
Introduction to device physics, A.C. and D.C. models for integrated circuit transistors, biasing techniques, current and voltage sources and references, design principles for analog circuits such as operational amplifiers, voltage regulators, multipliers. Design principles for digital circuits such as DTL's, ECL's and TTL's.

EE 635 Theory of Electron Devices (Elektronik Aygıtlar Kuramı) (3+0+0) 3
Photo conductivity, photo-emission, light amplification, metal semiconductor diodes, field effect devices, special effects in semiconductors, properties of dielectric materials and magnetic materials.

EE 634 Integrated Electronics (Tümlesik Elektronik) (3+0+0) 3
Types of integrated circuits, physical process employed in the design of integrated circuits, impurity diffusion and diffusion junction properties, oxidation and surface statesthin film deposition and properties; epitaxial growth; passive and active components for integrated electronics; integrated circuit design principles.

EE 633 Computational Aspects of VLSI (3+0+0) 3
(Çok Genis Çaplı Tümleşim Algoritmaları)
Analog circuit simulation, digital circuit simulation and switch level simulation techniques. Physical design of VLSI circuits. Floorphamming, placement, channel routing, global routing, and performance driven routing. Silicon assembly. Silicon compilation for digital VLSI, silicon compilation for analog VLSI.

EE 632 System Design with Microelectronic Devices (3+0+0) 3
(Tüm Devrelerle Sistem Tasarımı)
Classification of linear and digital integrated circuits. Digital system design; logic circuits, dividers, counters and memories, digital communication circuits. Linear system design; radio-TV circuits, power amplifiers, linear communications circuits. Hybrid systems; SAW and digital filters. Microprocessor based intelligent systems.

EE 631 Advanced Electronic Circuits (İleri Elektronik Devreler) (3+0+0) 3
Pulse transformers, transmission lines. Broadband amplifier analysis and design. Sweep generation. Synchronization. Negative resistance devices. Parametric amplifiers. Sampling gates.

EE 540 Advanced Digital Design (İleri Sayısal Tasarim) (3+0+0) 3
Mastering the hardware description language, VHDL (Very high speed integrated circuits Hardware Description Language), for the design specification, simulation, and synthesis) of digital systems and implementing them on FPGAs. Designing complete digital systems starting from the concept, advancing through the simulation, synthesis, and test, by using different styles in VHDL, namely structural, dataflow, and behavioral, for describing the architecture. Implementing designs on FPGAs (mainly Xilinx SpartanII)..

EE 562 Microwaves (Mikro Dalgalar) (3+0+0) 3
Microwave transmission, transmission lines and waveguides. Microwave circuits. Scattering parameters. Microwave resonators. Microwave using ferrites. Generation and amplification of microwaves. Klystrons, magnetrons, traveling wave tubes. Semiconductors in microwaves.

EE 537 Introduction to VLSI Design (3+0+0) 3
(Çok Genis Çaplı Tümlesik Devre Tasarımına Giriş)
Electronic characteristics of logic gates. Fabrication processes for MOS technology. Layout design rules and examples. Electronic characteristics based on geometry. Design verification, Schematic capture, analog/digital simulation. CMOS digital circuits: pads, super buffers, CMOS switch logic. Student term project.

EE 531 Television Engineering (Televizyon Mühendisliği) (3+0+0) 3
Principles of picture transmission. Color fundamentals. Camera tubes. Color television systems. Video signal. Carrier transmission of the video signal. Video recording. Television studio equipment. Transmitters and receivers.

EE 443 Microprocessors (Mikro işlemciler) (3+0+2) 4
Elements of microprocessor systems, hardware and software analysis. Addressing techniques. Input-Output devices. Design of small microprocessor systems. Laboratory. Prerequisites: EE 140, EE 333.

EE 439 Advances Electronics Lab (İleri Elektronik Labaratuarı) (0+0+2) 1
Active filters, phase locked loop (PLL) circuits, counters and dividers, sweep circuits. Function generators, multipliers, comparators and operational amplifier (Op-Amp) characteristics.

EE 438 Design with Integrated Circuits (Tümleşik Devreler ile Tasarım) (3+0+0) 3
Nonlinear Circuit Applications: Voltage comparators, Schmitt triggers, precision rectifiers, analog switches, peak detectors, S/H circuits; signal generators: sine wave generators, multivibrators, IC timers, triangular wave generators, triangular-to-sine wave convertors, sawtooth wave generators, V/F and F/V convertors; D-A and A-D convertors: Basic DAC techniques, Bipolar DAC's, high resolution DAC's, DAC-based AD conversion, parallel A-D techniques, Integrating Type ADC's; logarithmic amplifiers: Log/Antilog amplifiers; Phase-Locked Loops.
Prerequisite: EE 334.

EE 433 Communication Electronics (İletişim Elektroniği) (3+0+0) 3
Active and passive filters. Transistors. RF amplifier analysis and synthesis using Y-parameters. LC and crystal oscillators. PLL's and frequency synthesizers. Linear and exponential modulator and demodulator design.
Prerequisite: EE 334.

EE 432 Digital Electronics (Sayısal Elektronik) (3+0+0) 3
Basic waveshapes and fundamentals of digital electronics. Principles of Metaloxide Semiconductor (MOS) transistor, operation of MOS inverters and gate curcuits (NMOS, CMOS). Principles of bipolar junction transistors (BJT), operation of BJT inverters and gate circuits (TTL, ECL, I2L), semiconductor memories.
Prerequisite: EE 334.

EE 430 Solid State Electronics (Katı Hal Elektroniği) (3+0+0) 3
Introduction to wave mechanics, physical statistics, crystal structure, band theory, relaxation phenomena and electronic conductivity. Application to semiconductors and semiconductor devices.
Prerequisite: EE 333.

EE 338 Electronics Laboratory (Elektronik Labaratuarı) (4+1+0) 4
Cathode ray oscilloscope. Transistor biasing. Single and multistage transistor amplifiers. Measurement of transistor parameters. D.C. power supplies and stabilized circuits. Linear and nonlinear wave shaping. Study of multivibrator circuits. Logic gates. Operational amplifiers.
Prerequisite: EE 327, EE 333.

EE 334 Electronics II (Elektronik II) (4+1+0) 4
Multistage amplifiers; coupling techniques and frequency response; differential amplifiers; high-frequency modeling of transistors, feedback and broadbanding techniques. Analog Integrated Circuits; OpAmp; power amplifiers; filters and oscillators; regulated power supplies.
Prerequisite: EE 333.

EE 333 Electronics I (Elektronik I) (3+1+0) 3
Conduction mechanism in metals and semi-conductors; doping in semi-conductors; p-n junction; diode characteristics and applications; power supplies; bipolar junction. Transistor operation; transistor characteristic; transistor biasing; small-signal modeling and analysis; JFET operation and biasing, MOSFET operation and biasing; FET small-signal modeling and analysis; thyristors and related devices.
Prerequisite: EE 201.