N-M11 Digital Electronics Fundamentals Module

2.3.3.- DIGITALE ELEKTRONIK 14.2.1.3.- DIGITALE ELEKTRONIK
DIGITAL ELECTRONICS FUNDAMENTALS MODULE - N-M11

INNOVATIVE SYSTEME

With Digital Electronics Fundamentals Module, "N-M11", designed by EDIBON, numbering systems, logic circuits, TTL gates, CMOS, Boolean algebra, etc. can be studied.

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ICAI

Interaktive Computerunterrichtssoftware
EMSK

EDIBON Development KIT for Circuits Simulation, Powered by NI LabVIEW™

ÄHNLICHE NEUIGKEITEN

Completion of the Small Laboratory Equipment Repair Course
Completion of the Small Laboratory Equipment Repair Course
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...
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ALLGEMEINE BESCHREIBUNG

Digital systems are systems for processing, treatment or transmission of information, in which such information is limited to take values in a discrete set. These signals (whose magnitude can only take one value from a discrete set of values) are the digital signals. Unlike analog systems, in digital systems the devices that constitute them will function as switches.

With Digital Electronics Fundamentals Module, "N-M11", designed by EDIBON, numbering systems, logic circuits, TTL gates, CMOS, Boolean algebra, etc. can be studied.

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

Numbers systems:

  1. Voltage measurement in a circuit of sources.
  2. Faults study in the source circuit.
  3. Theoretical/practical exercises.

Logical circuits:

  1. Logical Diode.
  2. Fault study in sources.
  3. Logic with transistor and diodes.
  4. Faults study in transistor/diode circuit.
  5. Theoretical/practical exercises.

TTL gates:

  1. Basic function gates.
  2. Faults study in TTL circuit.
  3. Faults study in Logic Gates.
  4. Theoretical/practical exercises.

CMOS gates:

  1. Basic function gates.
  2. Faults study in CMOS circuit.
  3. Theoretical/practical exercises.

Boolean Algebra and logical functions:

  1. Study of use of circuit#3 (TTL logical gates).
  2. Theoretical/practical exercises.

Open collector gates:

  1. Study of the use of circuit#5 (Open collector gates).
  2. Theoretical/practical exercises.

Others types of integrated gates:

  1. Study of simple operations with a Schmitt Trigger inverter.
  2. Operation study of a three-state buffer.
  3. Study of the fault in the circuit#7 (Three-states).
  4. Theoretical/practical exercises.
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MEHR PRAKTISCHE ÜBUNGEN FÜR DAS GERÄT

  1. JK Flip-Flop.
  2. Control of Data Bus.
  3. Several other exercises can be done and designed by the user.

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