2.3.- THEORETICAL - PRACTICAL FUNDAMENTALS

The electronics fundamentals are the set of knowledge aimed at providing the student with a solid base to analyze and understand the general operation of the most common electronic circuits, and the individual function of the electronic components that compose them.

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Acquiring a good theoretical basis in a discipline as specialized as electronics is a necessary step for the subsequent design and development of complex electronic systems. Because electronics is also a branch of engineering, much of the theoretical concepts have a direct practical application, which greatly facilitates the comprehension of the concepts by the electronics student if the theoretical classes are taught with an associated practical example.

The electronics fundamentals cover a wide variety of topics, among them the analysis of electronic circuits (using equations and procedures such as Ohm's law, Kirchhoff's circuit laws, Thévenin's theorem, the superposition theorem, the transformation of the analyzed circuit to a simpler equivalent circuit, etc.), the study of basic components (resistors, inductors, capacitors, transistors of different technologies, diodes, thyristors, logic gates, etc.) and a set of circuits grouped by functionality (voltage power supply and current power supply, low-pass and high-pass filters, amplifier circuits, resistive circuits, different transistor polarization circuits, introduction to digital circuits, logic circuits, etc.).

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THEORETICAL - PRACTICAL FUNDAMENTALS UNITS
Showing 1-12 of 31 item(s)
BASIC ELECTRONICS AND ELECTRICITY LABORATORY - LIEBA
  • LIEBA
Available
14.2.1.6.- POWER ELECTRONICS
LIEBA
Basic Electronics and Electricity Laboratory
We present a flexible and modular-based system for learning basic electronics, basic electricity and circuit theory. The advantage given by this learning and teaching system is that the student establishes his own rhythm, thus rendering...
DIRECT CURRENT (DC) CIRCUITS MODULE - N-M1
  • N-M1
Available
14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS
N-M1
Direct Current (DC) Circuits Module
For the correct understanding of electronics it is necessary to know some fundamental laws and theorems such as Ohm’s Law, Kirchhoff’s Laws and other simple theorems of initiation to D.C. circuits.With Direct Current (D.C.) Circuits Module,...
ALTERNATING CURRENT (AC) CIRCUITS MODULE - N-M2
  • N-M2
Available
14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS
N-M2
Alternating Current (AC) Circuits Module
In contrast to DC, which always has the same direction and sense, in AC the flow of electrons changes direction periodically with a frequency of 50 or 60 Hz (depending on the country).With Alternating Current (AC) Circuits Module, "N-M2", designed...
ELECTRIC NETWORKS MODULE - N-M16
  • N-M16
Available
14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS
N-M16
Electric Networks Module
After studying the basic knowledge of electrical networks, we must understand and investigate the dependence between current and voltage applied to different electrical devices.With the Electric Networks Module, "N-M16", designed by EDIBON, it is...
ELECTROMAGNETISM MODULE - N-M17
  • N-M17
Available
14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS
N-M17
Electromagnetism Module
Electromagnetism is the interaction between electric charges. It is described in terms of charges interacting between of electric and magnetic fields.With the Electromagnetism Module, "N-M17", designed by EDIBON, the operation of electromagnetic...
THREE-PHASE CIRCUITS MODULE - N-M18
  • N-M18
Available
14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS
N-M18
Three-phase Circuits Module
Three-phase voltage is essentially a system of three alternating voltages, coupled (all 3 are produced simultaneously in a generator) and 120º out of phase with each other (i.e. one third of the period).The Three-phase Circuits Module, "N-M18",...
OSCILLATORS MODULE - N-M6
  • N-M6
Available
14.2.1.2.- ANALOG ELECTRONICS
N-M6
Oscillators Module
Oscillators operation is usually very similar in all of them: the oscillating circuit produces an oscillation, then the amplifier increases it and finally the feedback network takes a part of the energy from the oscillating circuit and introduces...
OPERATIONAL AMPLIFIERS MODULE - N-M7
  • N-M7
Available
14.2.1.2.- ANALOG ELECTRONICS
N-M7
Operational Amplifiers Module
Operational amplifiers are compact, active, linear and high-gain devices designed to provide the desired transfer function. An operational amplifier consists of an electronic circuit having two inputs and one output. The output is the difference...
ANALOG/DIGITAL CONVERTERS MODULE - N-M60
  • N-M60
Available
2.3.3.- DIGITAL ELECTRONICS
N-M60
Analog/Digital Converters Module
Most of the "information" generated in the world by various physical phenomena has a strong analogical character. This means that the information undergoes a continuous variation within certain limits determined over time. Of course, there is also...
FILTERS MODULE - N-M8
  • N-M8
Available
14.2.1.2.- ANALOG ELECTRONICS
N-M8
Filters Module
An electronic filter is an element that allows electrical signals to pass through it, at a specific frequency or frequency ranges while preventing the passage of others, being able to modify both, their amplitude and phase. It is a device that...
DIGITAL/ANALOG CONVERTERS MODULE - N-M61
  • N-M61
Available
2.3.3.- DIGITAL ELECTRONICS
N-M61
Digital/Analog Converters Module
Digital/analog conversion happens when you want to recover or re-obtain a digital signal that has been processed and we want to regenerate it. A signal that has been sampled, for example, a temperature signal and we need to return it to the...
DIGITAL SYSTEMS & CONVERTERS MODULE - N-M10
  • N-M10
Available
14.2.1.3.- DIGITAL ELECTRONICS
N-M10
Digital Systems & Converters Module
Generally, an analog to digital converter is an electronic device that converts an analog voltage input to a digital number.digital number. The digital output can use different coding schemes, such as binary, although some non-electrical or...
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