This course enables students to acquire sufficient understanding of modern electronics to become confident citizens in an increasingly technological world. It also makes students aware of the contributions of Physics to other subject areas such as communications and computer science. Some of the topics covered are: operational amplifier circuits, truth tables, binary arithmetic, design of logic gate circuits, transmission of music/speech by digital methods, multiplexing, fibre optics.
Trident Learning
Search results: 5057
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
- Teacher: Anthony Nurse
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Edwin Gibson
- Teacher: Anthony Nurse
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Edwin Gibson
- Teacher: Anthony Nurse
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Edwin Gibson
- Teacher: Anthony Nurse
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of electronic components. The following topics are covered thoroughly: Vacuum tube fundamentals. Power Supplies. Atomic Structure. Semi-conductors including P-N junction diodes, Bi-Polar Junction Transistors, and Field-Effect Transistors. Thyristors. Transistor amplifier configurations and biasing. Coupling Methods. Power Amplifiers. Specialized semi-conductors.
- Teacher: Edwin Gibson
- Teacher: Anthony Nurse

COURSE DESCRIPTION :
This course teaches the basic principles of applied Electronics required by practically oriented PC technicians. It immerses students in a basic Analog and Digital Electronics knowledge base that will enable them to test and repair a modern computer system and its associated peripherals. This course equips students to work in computer maintenance and repair in the private, commercial and industrial sectors.
GOAL
The goal of this course is to provide each student with enough applied theoretical knowledge and practical working skills in Electronics to competently work on computers and computer related equipment at the Industry Standard Service Level in Barbados, the Caribbean and further afield.
- Teacher: Edwin Gibson
- Teacher: Clement Moseley

COURSE DESCRIPTION :
This course teaches the basic principles of applied Electronics required by practically oriented PC technicians. It immerses students in a basic Analog and Digital Electronics knowledge base that will enable them to test and repair a modern computer system and its associated peripherals. This course equips students to work in computer maintenance and repair in the private, commercial and industrial sectors.
GOAL
The goal of this course is to provide each student with enough applied theoretical knowledge and practical working skills in Electronics to competently work on computers and computer related equipment at the Industry Standard Service Level in Barbados, the Caribbean and further afield.
- Teacher: Edwin Gibson
- Teacher: Clement Moseley
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
This course seeks to familiarise the student with the fundamental concepts and applications of Electronics. The following topics are covered thoroughly: The common emitter amplifier using NPN and PNP bipolar junction transistors- thermal runaway, D.C stabilization, biasing, cut off and saturation, ac operation, coupling, decoupling, bandwidth, R-C coupled amplifier, the load line, transformer coupling, power dissipation. Common base and common collector amplifiers. Photoelectric devices. Field-effect transistors. Diode and Thyristor characteristics. R-C filters, clippers and clampers. IF amplifiers, power amplifiers. Feedback in amplifiers. The operational amplifier. Multi-vibrators and timers. Oscillators. Integrated circuits.
- Teacher: Nicole Codrington
- Teacher: Edwin Gibson
- Teacher: Nicole Codrington