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Since March 2024
Instructor since March 2024
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Mathematics for students aged 7 to 18.
From 28.62 C$ /h
Mathematics at the primary, secondary and pre-university levels.
Mathematics from zero to advanced level.
Geometries.
Problem solving.
Trigonometry.
Solving equations of all types.
Introduction to Matlab.
Guaranteed learning.
Mathematics from zero to advanced level.
Geometries.
Problem solving.
Trigonometry.
Solving equations of all types.
Introduction to Matlab.
Guaranteed learning.
Extra information
You will undoubtedly learn
Location
At student's location :
- Around Bella Vista, Dominican Republic
About Me
I really enjoy seeing students learn, and that's what all my effort and skills acquired as a Telecommunications Engineer are focused on.
I explain the content in different ways so that the student can acquire a view from various angles, and thus not only will they be able to solve the exercises but it will also help them broaden their field of analysis in life in general.
I use simulation programs, achieving exceptional skills in the student.
I explain the content in different ways so that the student can acquire a view from various angles, and thus not only will they be able to solve the exercises but it will also help them broaden their field of analysis in life in general.
I use simulation programs, achieving exceptional skills in the student.
Education
Telecommunications and Electronics Engineer, graduated from the Technological University of Havana, I teach courses in Electrical Circuits, Analog Electronics, Digital Electronics, and Mathematics.
Experience / Qualifications
I have a university degree from the Technological University of Havana. More than 10 years of experience. Postgraduate courses in Systems and Digital Electronics.
Age
Children (7-12 years old)
Teenagers (13-17 years old)
Adults (18-64 years old)
Student level
Beginner
Intermediate
Advanced
Duration
45 minutes
60 minutes
The class is taught in
Spanish
English
Availability of a typical week
(GMT -05:00)
New York
At student's home
Mon
Tue
Wed
Thu
Fri
Sat
Sun
00-04
04-08
08-12
12-16
16-20
20-24
Proteus Software!
Topic 1 Fundamentals of Digital Electronics
Introduction
- What does Digital Electronics study?
- Binary and hexadecimal number systems
- Introduction to switching algebra (logical operators, fundamental theorems)
Combinational logic circuits (Logic level of abstraction)
- Structural description: Logic gates
- Functional description: Truth tables, logical expressions, logical expressions in canonical forms
- Simplification of logical functions using the Karnaugh map method
- Optional combinations. Design criteria: minimum cost and minimum risk.
- Application of De Morgan's theorem in the design of combinational logic circuits with logic gates
Topic 2 Regular Functional Logic Blocks (RTL level of abstraction)
- Definition and classification (combinatorial and sequential)
- Hierarchical approach in digital design
Regular combinatorial functional logic blocks
- Arithmetic (adders, comparators, ALU)
- Data selectors (multiplexers)
Code converters (binary decoder, BCD-7 segment, binary encoder)
- Structural (gate design) and functional description of the functional logic blocks (truth tables, functional tables, logical expressions, timing diagrams)
- Application examples
- Hierarchical design in Proteus
Topic 3 Synchronous State Machines
Synchronous State Machines (MES) Method for CSS Analysis and Design.
- Designing non-regular CSS using the synchronous state machine method.
Topic 1 Fundamentals of Digital Electronics
Introduction
- What does Digital Electronics study?
- Binary and hexadecimal number systems
- Introduction to switching algebra (logical operators, fundamental theorems)
Combinational logic circuits (Logic level of abstraction)
- Structural description: Logic gates
- Functional description: Truth tables, logical expressions, logical expressions in canonical forms
- Simplification of logical functions using the Karnaugh map method
- Optional combinations. Design criteria: minimum cost and minimum risk.
- Application of De Morgan's theorem in the design of combinational logic circuits with logic gates
Topic 2 Regular Functional Logic Blocks (RTL level of abstraction)
- Definition and classification (combinatorial and sequential)
- Hierarchical approach in digital design
Regular combinatorial functional logic blocks
- Arithmetic (adders, comparators, ALU)
- Data selectors (multiplexers)
Code converters (binary decoder, BCD-7 segment, binary encoder)
- Structural (gate design) and functional description of the functional logic blocks (truth tables, functional tables, logical expressions, timing diagrams)
- Application examples
- Hierarchical design in Proteus
Topic 3 Synchronous State Machines
Synchronous State Machines (MES) Method for CSS Analysis and Design.
- Designing non-regular CSS using the synchronous state machine method.
Office automation from scratch.
Mastery of the most up-to-date WINDOWS 11 operating system environment.
WORD, POWERPOINT, EXCEL.
Computer science from scratch.
Complete computer handling.
Proficiency in the WINDOWS 11 environment.
Software Installation.
It reaches the Operating Systems installation.
Mastery of the most up-to-date WINDOWS 11 operating system environment.
WORD, POWERPOINT, EXCEL.
Computer science from scratch.
Complete computer handling.
Proficiency in the WINDOWS 11 environment.
Software Installation.
It reaches the Operating Systems installation.
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