Buy ELEKTRONİK ELEMANLARI by Duran Leblebici (ISBN: ) from Amazon’s Book Store. Everyday low prices and free delivery on eligible. Undergraduate. Studies Electrical Engineering, Elektronik, and Solar Energy. Papers · Duran Leblebici ELEKTRONIK ELEMANLARmore. by Birol şentürk. Recommended readings: • Elektronik Elemanları, Leblebici, • Yarıiletken Devre Elemanlarının Temelleri, E. Yang (Çeviri: Leblebici Y.),
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Explains the structure of semiconductors and their mechanism of current flow. Explains the structure and doping of n-type and p-type semiconductors. Calculates the resistance and drift current of semiconductors. Calculates the diffusion current in semiconductors. Explains the operation principle of semiconductor diodes, calculates diode current.
Explains the operation principle of p-n junction diode. Calculates the current for the ideal and non-ideal diodes. Expresses the operation principles of Zener, photo-diode and light emitting diodes LED. Explains the operation of diode rectifier circuits.
Explains elektroik operation principle of bipolar transistors and makes the designs of elektrojik transistors circuits. Explains the operation principle of bipolar transistors. Calculates the base and collector current of a bipolar transistor. Draws the small signal equivalent circuit of a bipolar transistor. Identifies the different bipolar transistor amplifier configurations and analyzes these circuits. Designs the single stage bipolar transistor amplifiers. Explains the operation principles and applications of semiconductor switching components.
Explains the operation principles and applications of semiconductor switching components such as thyristor, triac, diac etc.
Designs simple switching circuits in which switching components are used. Explains the maximum ratings of semiconductors and the necessary measures taken not to exceed these limits. Explains how to protect the semiconductors from excess voltage and current. Calculates the necessary heatsink calculations for semiconductors.
Effect of the temperature. Analysis and design of MOS and Bipolar transistor switches. To be successful in this course, a continuous study is recommended. Before joining the class, the students must study given materials personally. There may be unscheduled quizzes at the end of some classes. In case of late submission of assignments, there will be a 5-point-penalty for each day overdue.
The homework which is delayed more than a week will not be accepted. For a better engagement, after the class, the students should be able to solve all the given problems, by studying together and by consulting the lecturer. The aim of this course is to equip the students with the required knowledge and skills about the physical principles of the operation of electronic circuit components, the analysis and design of simple electronic circuits.
This course includes the topics such as semiconductors, semiconductor diodes, field-effect transistors MOSFETthe operation principle and biasing of field-effect transistors, the use of field-effect transistors as amplifiers, bipolar transistors, the operation principle and biasing of bipolar transistors, the use of bipolar transistors as amplifiers, semiconductor switch elements, the limit value and protection of semiconductors.
Draws the equivalent circuits of a diode. Designs the diode rectifier circuits.
Designs diode rectifier circuits. Analyses the thermal circuits. Have sufficient background both in mathematics and science and in engineering disciplines related to their own discipline. Have the sufficient knowledge about mathematics, sciences and engineering about of their own disciplines; have the competence to use theoretical and applied knowledge of these disciplines for modelling and solving engineering problems. Determine, define, formulize and solve complicated Electronic and Communication Engineering problems, with this aim select and apply proper analytical methods and modelling.
Leblebici, Duran [WorldCat Identities]
The competence of designing a system that fulfills special requirements under real limitations and situations of a complicated system, process, device or product; with this aim the student ekektronik the competence of apllying modern design methods. Select and use modern techniques and equipments required for Elektronics and Communications Enginnering applications.
Be aware of the necessity for lifetime learning, follow developments in science and technology and constantly renew themselves. Access information and literature research and use databases and other information sources.
Establish an effective written and leemanlar communication in a foreign language at least at the level of B1 in European Language Portfolio.
Use the required computer software and information and communication technologies at least with an advanced level of European Computer Driving Licence. Have knowledge about applications in the business life like project, risk and change mangement; consciousness about interpreneurship, innovation and leblebicii. Have knowledge about health, environment and safety at universal and social level in engineering fields and about juridical results of engineering resolutions.
Be conscious about professional and ethical responsibility.