On December 1st, the Repair Course for Small Laboratory Equipment, taught by our engineers at the EDIBON facilities, was completed, lasting 4 days.
The attendees, (Laboratory technicians and maintenance of the Rey Juan Carlos University of Madrid) had the opportunity to perform multiple...
N-M6 Oscillators Module
INNOVATIVE SYSTEME
With the Oscillators Module, "N-M6", designed by EDIBON, the different oscillators can be studied: RC and LC network oscillators, Wein bridge, Colpitts, Hartley and the astable multivibrator.
Erweiterungen
ÄHNLICHE NEUIGKEITEN
ALLGEMEINE BESCHREIBUNG
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 it back into the input producing a positive feedback.
In short, the oscillator is an electronic stage which, being supplied with a DC voltage, produces at its output a periodic signal, which may be roughly sinusoidal, or square, or sawtooth, or triangular, etc. The essence of the oscillator is to "create" a periodic signal by itself, without any signal having to be applied to the input.
With the Oscillators Module, "N-M6", designed by EDIBON, the different oscillators can be studied: RC and LC network oscillators, Wein bridge, Colpitts, Hartley and the astable multivibrator.
In addition, faults can be simulated in most of the circuits under study. The student must investigate what is happening in the circuit and why it is not working properly. These faults simulations can be of several types from damage components to a hypothetical incorrect circuit assembly.
ÜBUNGEN UND GEFÜHRTE PRAKTIKEN
GEFÜHRTE PRAKTISCHE ÜBUNGEN IM HANDBUCH ENTHALTEN
RC and LC Nets Oscillators:
- RC net oscillator.
- LC net oscillator.
- Faults study with RC and LC Net oscillators.
- Theoretical/practical exercises.
Wien bridge oscillator:
- Wien Bridge.
- Faults study in the Wien bridge oscillator.
- Theoretical/practical exercises.
Colpitts oscillator. Hartley oscillator:
- Colpitts oscillator.
- Hartley oscillator.
- Faults study with the Colpitts oscillator.
- Theoretical/practical exercises.
Astable multivibrator:
- Astable multivibrator.
- Faults study with an Astable multivibrator.
- Theoretical/practical exercises.
555 Timer:
- Astable multivibrator.
- Faults study of 555 timer.
- Theoretical/practical exercises.
MEHR PRAKTISCHE ÜBUNGEN FÜR DAS GERÄT
- Several other exercises can be done and designed by the user.
ERGÄNZENDE AUSRÜSTUNG
14.2.1.6.- LEISTUNGSELEKTRONIK
LIEBA
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...
14.2.1.2.- ANALOGE ELEKTRONIK
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...
14.2.1.2.- ANALOGE ELEKTRONIK
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...