Description

Explore with this Postgraduate certificate the wide possibilities offered by the development of Applied Electronics in the field of Engineering”

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The 20th century is technologically marked by analog electronic systems, which allowed the arrival of televisions in homes, video recorders, audio recorders or the first computers. However, the improvement of technology and tools has made possible the development of digital electronics. Thanks to it, there is now a higher quality of data and information storage.

The digital concept is already present in all economic sectors, including industry, which has been able to take advantage of each of the advances obtained to optimize productivity. This progress in turn has driven the need for engineering professionals with well-founded knowledge in this area, both for the design of new devices and to solve any technical problem in their equipment. That is why this academic institution has created this program, which offers the graduate the most essential information on circuits, systems, and components that make up the Analog and Digital Electronics.

A university program that will provide students with knowledge that will allow them to advance in their professional careers in just 6 weeks. For this purpose, it has a syllabus that provides a theoretical-practical approach in this field and is complemented with video summaries, detailed videos, specialized readings or case studies. All this is prepared by a teaching team specialized in electronics.

The professional is, therefore, facing an excellent opportunity to progress through a university education provided in a convenient and 100% online format. Students only need a computer, tablet, or cell phone with an Internet connection to access the content hosted on the Virtual Campus. In addition, thanks to the Relearning system, you will reduce the hours dedicated to memorization and will flow much more smoothly through this university education.

This program allows you to delve into logic functions and combinational circuits whenever you wish, from your computer"

This Postgraduate certificate in Analog and Digital Electronics contains the most complete and up-to-date program on the market. The most important features include: 

  • Practical case studies are presented by experts in Physics
  • The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
  • Practical exercises where the self-assessment process can be carried out to improve learning
  • Its special emphasis on innovative methodologies
  • Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments 
  • Content that is accessible from any fixed or portable device with an Internet connection

Boost your professional career with a Postgraduate certificate that provides you with intensive learning on Analog and Digital Electronics”

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational program, as well as renowned specialists
from leading societies and prestigious universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.

Become a much more competitive engineering professional by mastering Analog and Digital Electronics"

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TECH adapts to you and that is why it has designed a 100% online Postgraduate certificate, with no fixed timetables and flexible schedules"

Syllabus

The syllabus that makes up this Postgraduate certificate has been designed by a specialized teaching team, which has integrated in 150 teaching hours the most up-to-date knowledge on Analog and Digital Electronics. A content also comprised of innovative multimedia material, which will lead you to delve in a much more dynamic way in analog systems, devices, amplifiers or MOS digital circuits. Also, thanks to the Relearning system, you will be able to reduce the hours of study and memorization so frequent
in other courses. 

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You will get all the knowledge you need about Applied Electronics through the content hosted on our virtual platform"

Module 1. Analog and Digital Electronics

1.1. Circuit Analysis

1.1.1. Element Constraints
1.1.2. Connection Constraints
1.1.3. Combined Constraints
1.1.4. Equivalent Circuits
1.1.5. Voltage and Current Division
1.1.6. Circuit Reduction

1.2. Analog Systems

1.2.1. Kirchoff's Laws
1.2.2. Thévenin's Theorem
1.2.3. Norton's Theorem
1.2.4. Introduction to Semiconductor Physics

1.3. Devices and Characteristic Equations

1.3.1. Diode
1.3.2. Bipolar Transistors (BJTs) and MOSFETs
1.3.3. Pspice Model
1.3.4. Characteristic Curves
1.3.5. Regions of Operation

1.4. Amplifiers

1.4.1. Amplifier Operation
1.4.2. Equivalent Circuits of Amplifiers
1.4.3. Feedback
1.4.4. Frequency Domain Analysis

1.5. Amplification Stages

1.5.1. BJT and MOSFET Amplifier Function
1.5.2. Polarization
1.5.3. Equivalent Small-Signal Model
1.5.4. Single-Stage Amplifiers
1.5.5. Frequency Response
1.5.6. Connection of Amplifier Stages in Cascade
1.5.7. Differential Torque
1.5.8. Current Mirrors and Application as Active Loads

1.6. Operational Amplifier and Applications

1.6.1. Ideal Operational Amplifier
1.6.2. Deviations from Ideality
1.6.3. Sinusoidal Oscillators
1.6.4. Comparators and Relaxation Oscillators

1.7. Logic Functions and Combinational Circuits

1.7.1. Information Representation in Digital Electronics
1.7.2. Boolean Algebra
1.7.3. Simplification of Logic Functions
1.7.4. Two-Level Combinational Structures
1.7.5. Combinational Functional Modules

1.8. Sequential Systems

1.8.1. Concept of Sequential System
1.8.2. Latches, Flip-Flops and Registers
1.8.3. State Tables and State Diagrams: Moore and Mealy Models
1.8.4. Synchronous Sequential Systems Implementation
1.8.5. General Structure of a Computer

1.9. MOS Digital Circuits

1.9.1. Inverters
1.9.2. Static and Dynamic Parameters
1.9.3. Combinational MOS Circuits

1.9.3.1. Step Transistor Logic
1.9.3.2. Implementing Latches and Flip-Flops

1.10. Bipolar and Advanced Technology Digital Circuits

1.10.1. BJT Switch. BTJ Digital Circuits
1.10.2. TTL Transistor-Transistor Logic Circuits
1.10.3. Characteristic Curves of a Standard TTL
1.10.4. Emitter-Coupled Logic Circuits ECL
1.10.5. Digital Circuits with BiCMOS

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Enroll in a degree that gives you the knowledge you need to develop digital circuits with BiCMOS"

Postgraduate Certificate in Analog and Digital Electronics.

Applied electronics is the branch of electrical engineering that focuses on the application of electrical and electronic theory in the creation of electronic systems and devices. It is a broad and constantly evolving field that encompasses the design, construction, testing and implementation of electronic systems and equipment in a variety of applications.

Applied electronics works primarily with electronic components, such as diodes, transistors, resistors, capacitors and inductors, which are used in the design and construction of electronic circuits. These circuits can be as simple as a switch or as complex as a computer or cell phone.

Applied electronics is used in a wide range of applications, such as consumer electronics like televisions, cell phones, music players, as well as industrial devices, such as process control systems, sensors, actuators, among others.

The process of designing and building electronic systems and devices typically begins with a detailed analysis of application requirements and constraints. Based on these requirements, components are designed and relevant devices and materials are selected. Simulation and testing of the design is performed using specialized software tools, followed by real-life implementation of the system or device.

Applied electronics is based on fundamental principles of physics and mathematics, making it a highly technical and specialized field. Professionals in applied electronics often work in multidisciplinary design teams to develop solutions and products that meet the requirements of customers and end users.

Ultimately, applied electronics is a critical field for many areas of our modern life, and allows us to have increasingly sophisticated and advanced electronic systems. This course focus on the detailed study of the practical application of electrical and electronic theory in the creation of electronic systems and devices.