Modern Electrical Engineering (6 Months)

HRODC Postgraduate Training Institute
En Central London (Inglaterra)

Más de $ 9000

Información importante

  • Seminario
  • Advanced
  • Central london (Inglaterra)
  • 360 horas de clase
  • Duración:
    3 Months
  • Cuándo:
    A definir
Descripción

This course is designed for:
Electricians or Linemen, Electrical Contractors, Technicians, Electrical Inspectors, Facilities Maintenance Personnel, Field and Plant Engineers, Electrical Personnel, Machine Operators, Mechanics, Non-electrical Engineers, Operations Personnel who come in contact with control systems and Others with the need to learn the principles and applications of electricity

Información importante

Requisitos: Degree or Relevant Work Experience

Sedes

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Central London
Carburton Street, W1W 5EE, London, Inglaterra
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¿Qué aprendés en este curso?

IT Law
Personnel
IT
Electrical
Logic
Law
systems
Engineering
Electrical Engineering
Capacitance and Inductance
Transient Analysis
Steady-State AC Analysis
Frequency Analysis
Electronic Circuits
Power Systems and Transmission Lines
Logic Circuits
Computer-Based Instrumentation Systems
Principles of Electromechanics
Electric Machines
Electrical Measurement Instruments and Electrical Safety

Temario

Title of Modules:
Module 1 - Essentials of Electrical Engineering and Resistive Circuits
Module 2 - Capacitance and Inductance
Module 3 - Transient Analysis
Module 4 - Steady-State AC Analysis
Module 5 - Frequency Analysis
Module 6 - Electronic Circuits
Module 7 - Power Systems and Transmission Lines
Module 8 - Logic Circuits
Module 9 - Computer-Based Instrumentation Systems
Module 10 - Principles of Electromechanics
Module 11 - Electric Machines
Module 12 - Electrical Measurement Instruments and Electrical Safety

Limited Contents, Concepts and Issues
Module 1 - Essentials of Electrical Engineering and Resistive Circuits
Essentials of Electrical Engineering
  • Introduction
  • Charge and Current
  • Voltage
  • Respective Direction of Voltage and Current
  • Kirchhoff’s Current Law
  • Kirchhoff’s Voltage Law
  • Ohm’s Law and Resistors
  • Power and Energy
  • Independent and Dependent Sources
  • Analysis of Circuits Using PSpice
  • Bias Point Analysis
  • Transient Analysis
  • Resistive Circuits
  • Introduction
  • Resistors in Parallel and Series and Equivalent Resistance
  • Voltage and Current Division/Divider Rules
  • Nodal and Mesh Analysis
  • Special Conditions: Super Node
  • Thevenin/Norton Equivalent Circuits
  • Superposition Principle
  • Maximum Power Transfer
  • Circuits Analysis
Module 2 – Electrical Engineering: Capacitance and Inductance
  • Introduction
  • Capacitors The Relationship Between Charge, Voltage, and Current
  • Power
  • Energy
  • Capacitors in Series and Parallel
  • Series Capacitors
  • Parallel Capacitance
  • Inductors
  • The Relationship Between Voltage and Current
  • Power and Stored Energy
  • Inductors in Series and Parallel
  • Inductors in Series
  • Inductors in Parallel
  • Applications of Capacitors and Inductors
  • Fuel Sensors
  • Vibration Sensors

Module 3 – Electrical Engineering: Transient Analysis
  • Introduction
  • First-Order Circuits
  • RC Circuits
  • RL Circuits
  • DC Steady State
  • DC Steady State for Capacitive–Inductive Circuits
  • Second-Order Circuits
  • Series RLC Circuits with a DC Voltage Source
  • Parallel RLC Circuits with a DC Voltage Source
  • Transient Analysis with Sinusoid Forcing Functions
Module 4 – Electrical Engineering: Steady-State AC Analysis
  • Introduction: Sinusoidal Voltages and Currents
  • Root-Mean-Square (RMS) Values
  • Instantaneous and Average Power
  • Phasors
  • Phasors in Additive or (Subtractive) Sinusoids
  • Complex Impedances
  • The Impedance of a Resistor
  • The Impedance of an Inductor
  • The Impedance of a Capacitor
  • Series Connection of Impedances
  • Parallel Connection of Impedances
  • Steady-State Circuit Analysis Using Phasors
  • Thevenin and Norton Equivalent Circuits with Phasors
  • Thevenin Equivalent Circuits with Phasors
  • Norton Equivalent Circuits with Phasors
  • AC Steady-State Power
  • Average Power
  • Power Factor
  • Reactive Power
  • Complex Power
  • Apparent Power
  • Maximum Average Power Transfer
  • Power Factor Correction
Module 5 – Electrical Engineering: Frequency Analysis
  • Introduction
  • First-Order Filters
  • Transfer Functions
  • Low-Pass Filters
  • Magnitude and Phase Plots
  • Decibels
  • Bode Plot
  • High-Pass Filters
  • Cascaded Networks
  • Second-Order Filters
  • Band-Pass Filters
  • Band-Stop Filters
Module 6 – Electrical Engineering: Electronic Circuits
  • Introduction
  • P-Type and N-Type Semiconductors
  • Diodes
  • Diode Applications
  • Different Types of Diodes
  • AC-to-DC Converter
  • Transistors
  • Bipolar Junction Transistor
  • Transistor as an Amplifier
  • Transistors as Switches
  • Field-Effect Transistors
  • Design of NOT Gates Using NMOS Only for High-Density Integration
  • Design of a Logic Gate Using CMOS
  • Operational Amplifiers
Module 7 – Electrical Engineering: Power Systems and Transmission Lines
  • Introduction
  • Three-Phase Systems
  • Introduction
  • Phase Sequence
  • Y-Connected Generators
  • Y-Connected Loads
  • Δ-Connected Loads
  • Δ-Star and Star-Δ Transformations
  • Power in Three-Phase Systems
  • Comparison of Star and Δ Load Connections
  • Advantages of Three-Phase Systems
  • Transmission Lines
  • Introduction
  • Resistance (R)
  • Different Types of Conductors
  • Inductance (L)
  • Capacitance
  • Transmission Line Equivalent Circuits
Module 8 – Electrical Engineering: Logic Circuits
  • Introduction
  • Number Systems
  • Binary Numbers
  • Hexadecimal Numbers
  • Octal Numbers
  • Boolean Algebra
  • Boolean Inversion
  • Boolean AND Operation
  • Boolean OR Operation
  • Boolean NAND Operation
  • Boolean NOR Operation
  • Boolean XOR Operation
  • Summary of Boolean Operations
  • Rules Used in Boolean Algebra
  • De Morgan’s Theorems
  • Commutativity Rule
  • Associativity Rule
  • Distributivity Rule
  • Basic Logic Gates
  • Sequential Logic Circuits
Module 9 – Electrical Engineering: Computer-Based Instrumentation Systems
  • Introduction
  • Sensors
  • Pressure Sensors
  • Temperature Sensors
  • Accelerometers
  • Strain-Gauges/Load Cells
  • Acoustic Sensors
  • Linear Variable Differential Transformers (LVDT)
  • Signal Conditioniner
  • Analog-to-Digital Conversion
  • Grounding Issues
  • Ground Loops
Module 10 – Electrical Engineering: Principles of Electromechanics
  • Introduction
  • Magnetic Fields
  • Magnetic Flux and Flux Intensity
  • Magnetic Field Intensity
  • The Right-Hand Rule
  • Forces on Charges by Magnetic Fields
  • Forces on Current-Carrying Wires
  • Flux Linkages
  • Faraday’s Law and Lenz’s Law
  • Magnetic Circuits
  • Magnetomotive Force
  • Reluctance
  • Mutual Inductance and Transformers
  • Mutual Inductance 539
  • Transformers
  • Different Types of Transformers

Module 11 – Electrical Engineering: Electric Machines
  • Introduction
  • DC Motors
  • Different Types of DC Motors
  • Speed Control Methods
  • DC Generators
  • Different Types of DC Generators
  • AC Motors
  • AC Generators
  • Special Types of Motors
  • How Is the Most Suitable Motor Selected?
Module 12 – Electrical Engineering: Electric Measurement Instrument and Electrical Safety
  • Electric Measurement Instrument and Electrical Safety
  • Electrical Measurement Instrument
  • Introduction
  • Measurement Errors
  • Basic Measurement Instruments
  • Time Domain and Frequency Domain
  • The Oscilloscope
  • The Spectrum Analyzer
  • The Function Generator
  • Electrical Safety
  • Introduction
  • Electric Shock
  • Electromagnetic Hazards
  • Arcs and Explosions
  • The National Electric Code

Información adicional

HRODC Postgraduate Training Institute is registered with the UK Registry of Learning Providers (UKRLP) of the Department for Business, Innovation and Skills (BIS), formerly Department of Innovation, Universities and Skills (DIUS). Its registration number is 10019585 and can be verified at http://www.ukrlp.co.uk/