Courses Given 

 

• ELE 415 Analog Integrated Circuits

 

Basic building blocks: current and voltage sources, supply voltage and temperature independent biasing. Basic amplifier structures. Operational amplifiers: basic structures, basic performance parameters. Integrated oscillator structures. Analog multipliers. Analog MOS building blocks: Current sources, amplifier stages. MOS operational amplifiers, OTAs, current conveyors, analog multipliers, oscillators, D/A and A/D converters.

 

http://www2.itu.edu.tr/~kuntman/lisans/elh415/at2002/analogicerik.htm

 

 

• ELE 428 Industrial Electronics

 

Linear and nonlinear applications of operational amplifers: Current sources, AC-DC converters, function generators, comparators, Schmitt trigger, oscillator applications. Analog building blocks: OTA applications, instrumentation amplifiers. PLL applications. Power Supplies: Design with linear regulator ICs, switched mode power supplies. Power MOSFET and its applications: Switching properties, safe-operation area, driver circuits, amplifiers, bridge operation. Sensors; temperature, moisture, pressure, deplacement, light intensity sensors.

 

http://www2.itu.edu.tr/~kuntman/lisans/elh426/end.htm

 

 

• ELE 509E Current-Mode Analog Circuit Design

 

Introduction. Bipolar and MOS current mirrors. Current-mode circuits: The translinear principle, multipliers and dividers, the translinear cross-quad, minimum and maximum functions, trigonometric functions. Current-mode building blocks: The current conveyor, current followers, current-mode feedback amplifiers, operational floating conveyor, current-mode operational amplifiers. Dynamic current mirrors and some applications. Current-mode circuit applications: Current integrators, switched current filters, current-mode analog/digital and digital/analog converters (ADC, DAC), current copier circuits and their applications.

 

http://www2.itu.edu.tr/~kuntman/Y_lisans/ele509e/ele509e.htm

 

 

• ELE 517 Modeling of Semiconductor Components and Devices

 

Modeling concept. Modeling of the junction diode: Static and dynamic parameters. SPICE diode model. Modelling of the BJT. Ebers-Moll equations; EM1 EM2 and EM3 models, Gummel-Poon model, SPICE BJT model. Modified EM model. JFET models. MOSFET models: SPICE Level-1, Level-2, Level-3 and Level-4 models, MOSFET models with extended accuracy. Macromodels: Op-Amp., Comparator, operational transconductance amplifier (OTA), Current Conveyor, Analog Multiplier Macromodels. Measurement of model parameters.

 

http://www2.itu.edu.tr/~kuntman/Y_lisans/ele517/eelist.htm

 

 

• ELE 512 Advanced  Analog IC Design

 

Basic relations characterizing MOS behaviour. Basic MOS subcircuits: Diode connection, current sources, reference voltage sources, Amplifier stages, CMOS operational amplifiers, CMOS OTA design, CMOS current conveyors, Design of CMOS analog multipliers. Design of CMOS oscillators: s-C oscillators, CMOS relaxation oscillators, CMOS OTA-C oscillators, current-conveyor based RC oscillators. Analogue signal processing: s-C filters, CMOS OTA-C active filters, current-conveyor based RC filters. Analog circuit blocks for subthreshold operation.

 

http://www2.itu.edu.tr/~kuntman/Y_lisans/ele512/ileriltd.htm