Elektrotechnika i elektronika: dla studentów wydziałów nieelektrycznych. Front Cover. Władysław Opydo. Wydaw. Politechniki Poznańskiej, – pages. Elektrotechnika teoretyczna: Obwody liniowe i nieliniowe · Read more · Elektrotechnika i elektronika: dla studentów wydziałów nieelektrycznych. Read more. Władysław Opydo is the author of Elektrotechnika i elektronika dla studentów wydziałów nieelektrycznych ( avg rating, 1 rating, 0 reviews, published.
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Student knows basic law of DC cicuits. Laboratory, 15 hours more information Lecture, 30 hours more information. Student is able to define the active power, reactive and apparent power in the nieelektrkyw current circuits.
Student is able to use laws to description of electric circuits. Induction motors — one and three phase: Education module contain basic problems of electrical engineering and electronics.
elekrtonika The ways of veryfing every mentioned outcome of teaching. Sources of electric energy — types, current-voltage characteristics. Acquiring the knowledge of the fundamentals of electrical engineering. Student can designate basic characteristics of diodes and bipolar transistor.
DC motors — types, construction, principle of operation. Student knows properties of p-n function.
Władysław Opydo (Author of Elektrotechnika i elektronika dla studentów wydziałów nieelektrycznych)
Power and work of electric current. Basics of creating circuit diagrams and printed circuit boards. Transformers — construction, principle of operation, types, application. The power and energy of the electric current, Joule’s law, selection of the cross section area of electrical cable. Student knows properties of sinusoidal variable voltages and currents, types of power. The syllabus – Basic concepts of electrical engineering.
Power in three-phase circuits.
Practice in calculations of AC circuits. Application elektrogechnika complex numbers to description the sinusoidal variable parameters. Student can define and name the physical properties of the basic elements of electrical circuits. Course descriptions are protected by copyright. Elektrotechnika, WSiP, Warszawa Student knows the basics of creating charts phasor.
Student knows the conditions of magnetic field generation. The student is able to build a simple electric circuit using logic nieeleotrykw. Student can explain the principles of operation and define the parameters of the transformer and three-phase induction motor.
Electromagnetic induction — induction effect, self-inductance, mutual inductance. Acquisition of skills in the calculation of the DC and AC circuits. Skip to main menu Skip to submenu Skip to content. Power in AC circuit. Student knows types of electrical receivers.
Examples of branched AC circuits and their description. Power supply, half-wave and full-wave Graetz’s rectifier, ripple filtering. Generation of sinusoidal variable voltage. Becoming acquainted with the characteristics and performance of basic electrical and electronic systems.
RLC elements in AC circuits. Bruce Carter, Elektronima Mancini – Wzmacniacze operacyjne: Student is able to describe and explain the energy dependences in simple electrical circuit. Student knows basic properties of amplifiers. Student nieeelktrykw able to identify and explain the types and properties of semiconductor devices and describe the principle of the pn junction, the rectifier and voltage regulator. The student knows the basics of building and programming microcontrollers.
Student knows optoelectronic components and can determine their basic characteristics. Student knows semiconductor components diodes, transistors, thyristors, triacs. The student knows the basics of creating circuit diagrams of electrical and electronic equipment.
Paul Horowitz, Winfield Hill. Student can measure basic electric parameters. Practice in calculations of DC circuits. Solving methods of linear branched DC circuits — examples. The student who completed the module. Student knows basic types of machines and kinds of work. Student is able to define the basic concepts and laws of electricity.
Assessment methods and assessment criteria:. Electrostatic field, voltage, capacitors. Application of three-phase circuits.