As evidence of our departmental laboratories and equipment, the laboratories used for education and research purposes in our department, the equipment in these laboratories and the experiments performed are given with their current images, respectively.

Circuit Lab 1-Circuit Lab 2

In this laboratory, students of the department practically implement basic electrical circuits. In order to carry out the experiments of the students, there are 13 digital oscilloscopes (2 channels, 50MHz bandwidth), 13 function generators (functional output: sinusoidal, trapezoidal, square wave, AM modulation output, frequency adjustable: DC-1MHz, amplitude adjustable: 0-14V), 13 DC power supplies (2 channels, 0-30V voltage, 0-6A current adjustable) and 14 digital multimeters in this laboratory.

Use of machinery and equipment in Circuit Lab 1 and Circuit Lab 2;

Series and Parallel Resistance Circuit Applications

Applications Involving Node and Loop Current Analysis Methods

Applications Involving Thevenin-Norton Theorems and Maximum Power Transfer

Applications Involving the Superposition Principle

Applications Involving Natural Responses of RL and RC Circuits

Applications Involving Step Responses of RL and RC Circuits

Applications Involving Natural Responses of Parallel R-L-C Circuits

Applications Involving Unit Step Response of Parallel R-L-C Circuits

Applications Involving Natural and Unit Step Response of Series R-L-C Circuits

Applications Involving Frequency, Amplitude and Phase Measurements in Basic AC/RC Circuits

Applications to Implement Basic AC/RC Circuits, Series AC RLC Circuits, Parallel RLC Circuits

Power Analysis Applications in AC Circuits

Passive Filter Applications

Electronics Laboratory

In this laboratory, they practically implement the basic electronic circuits of the department. In order to perform the working experiments, there are 13 digital oscilloscopes (2 channels, 50MHz bandwidth), 13 function generators (functional output: sinusoidal, trapezoidal, square wave, AM modulation output, frequency adjustable: DC-1MHz, amplitude adjustable: 0-14V), 13 DC power supplies (2 channels, 0-30V voltage, 0-6A current adjustable) and 14 digital multimeters in this laboratory.

Diode Characteristic Applications

Rectifier Circuit Applications

Clipper and Clamper Circuit Applications

Transistor Characteristic Applications

BJT Transistor DC Bias Applications

AC Analysis Applications of Transistor Amplifier

Applications of Obtaining Characteristic Curves of JFET,

555 Integrated Circuit Applications

Series and Parallel Voltage Regulator Applications

Double Stage Amplifier Circuit Applications

Inverting Amplifier (inverting amplifier) ​​and Non-inverting Amplifier (non-inverting amplifier) ​​Applications

Summing Amplifier and Subtracting Amplifier Applications

Op-amp Application as Derivative (differentiator) Circuit Applications

Measurement (Instrumentation) Circuit Applications

Band Pass Filter Circuit Applications

Square Wave Oscillator Circuit Applications with 555 Integrated Circuit

Logic Circuits Laboratory

In this laboratory, students of the department learn the concepts required for the hardware of all systems from simple digital circuits to computer systems, and gain the necessary hardware and design skills for analysis and design.

In order to carry out the experiments of the students, they use both the devices in the circuit laboratory and various integrated circuits for design. For example, 7404 (Not Gate), 7408 (And Gate), 7432 (Or Gate), 7400 (NAND Gate), 7486 (EXOR Gate), LED, Resistor, Switch, Jumper.

The following applications are carried out using the machinery and equipment in Circuit Laboratory 1 and Circuit Laboratory 2 and using the mentioned integrated circuits:

Implementation Applications of AND, OR, NOT, NAND, NOR, EXOR Gates with Integrals

Applications for Learning De’ Morgan Theorem

Applications for Implementing a Logic Function with Logic Gates and Finding the Simplest Form of a Digital Circuit with Boolean Algebra

Applications for Representing Logic Functions with Gates

Applications for Simplifying Logic Expressions with the Help of Karnough Maps

Encoder and Decoder Applications

Applications for Defining R-S, J-K, D, T FLIP-FLOPs

Applications for Implementing a Floating Light Digital Circuit Using D FLIP-FLOPs

Electrical Machines laboratory

In the Electrical Machines laboratory, students gain general knowledge and experience by performing basic electrical machinery experiments. The following materials are used in the electrical machinery laboratory:

Single and three-phase transformer

Series, shunt and compound wound DC motor

Series, shunt and compound wound DC generator

Single-phase induction motor

Three-phase squirrel cage asynchronous motor

Three-phase slip-ring asynchronous motor

Three-phase salient pole synchronous motor

Three-phase salient pole synchronous generator

In this laboratory;

Applications of Neutral Axis Shifting and Determination of Brush Location in DC Machines

Applications of Idle and Load Operation of Foreign Excited D.C. Shunt Dynamo,

D.C. Shunt Motor Load Operation Applications

Application for Single Phase Transformer No Load Operation and Finding Transformation Ratio

Application for Measuring Primary-Secondary Circuit Resistances of Single Phase Transformer

Application for Short Circuit Test of Single Phase Transformer and Investigation of Copper Losses

Application for Single Phase Transformer Load Operation, Regulation and Efficiency

Applications for Parallel Connection of Single Phase Transformer

Applications to Find the Characteristics of a Single Phase Transformer Without Label Information

Applications to Examine the Loaded Operation of a Three Phase Transformer

Studies to Find the Connection Groups of a Three Phase Transformer

Applications of Torque-Speed ​​Characteristics of D.C Motor

Applications of Load Operation of D.C Shunt Motor with D.C. Controller

Applications of Empty Operation of D.C Compound Dynamo are being carried out.

Asude Ağartan Microprocessor Laboratory

In this laboratory, basic microprocessor and controller experiments can be performed with Intel 8051 microprocessor and Microchip PIC microcontroller experiment sets. In this laboratory,

MC04 Experiment Set is used.

In this laboratory;

Usage Applications of LED Indicators and Portals

Usage of Buttons and Testing of Logic Status Applications

Loop Editing, Time Delay and Subroutine Applications

Applications of Examination of Counters with Conversion Tables

LCD Display, Keypad and Sensor Applications

Interrupt Applications in PIC 16F877 Microcontroller

Timer Applications in PIC 16F877 Microcontroller

Capture/Compare/PWM Module Applications

Serial Communication Applications in PIC 16F877 Microcontroller are performed.

 Antenna Laboratory

There are 2 Amitec brand basic antenna sets with 86-860 MHz transmitter and receiver frequency range and 1 Amitec brand advanced antenna set with 0.005-2 GHz transmitter and receiver frequency range. In the laboratory where 25 different antennas are available, measurements such as radiation diagram, gain and return loss can be obtained.

Telecommunications Laboratory

In this laboratory, experiments on basic communication techniques are carried out. In order for students to carry out experiments, there are a total of 5 experimental sets and 5 digital oscilloscopes in the communication laboratory. Circuits for each communication technique are available in these experimental sets.

In this laboratory, basic microprocessor and controller experiments can be carried out with Intel 8051 microprocessor and Microchip PIC microcontroller experimental sets. Note: Asude Ağartan is a colleague of ours who lost her life in an unfortunate traffic accident while she was a student in our department (24.09.2009 - we will not forget you).

PLC Laboratory

There are 6 Siemens S7-1200 PLC training sets in our laboratory. Basic PLC experiments are carried out.

Research Laboratories: 

Photonics and Laser Technologies Research Laboratory

Wireless Communication Technologies Research Laboratory (KITLab)