Level 2 Engineering Electronics and Computer Control Technologies BTEC

This subject is broken down into 41 topics in 7 modules:

  1. Electrical and Electronic Principles 8 topics
  2. Digital Electronics 6 topics
  3. Engineering Materials 6 topics
  4. Computer Control Systems 6 topics
  5. Computer-Aided Design (CAD) 5 topics
  6. Engineering Mathematics and Science 5 topics
  7. Engineering Maintenance and Practices 5 topics
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  • 7
    modules
  • 41
    topics
  • 15,399
    words of revision content
  • 1+
    hours of audio lessons

This page was last modified on 28 September 2024.

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Engineering Electronics and Computer Control Technologies

Electrical and Electronic Principles

Circuit Foundations

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Circuit Foundations

Circuit Foundations

Basics of Electrical Circuits

  • Understand that an electrical circuit is an uninterrupted path for electricity to flow, composed of a power source, conductive path, and a device such as a lamp that operates on electrical power.
  • Learn that voltage (V) is the electrical force that drives an electric current between two points, while current (I) represents the rate at which electrical charge flows, measured in Amperes (A).
  • Remember that resistance (R), measured in Ohms (Ω), opposes the flow of current.

Series and Parallel Circuits

  • Get to grips with series circuits where components are arranged end-to-end, current is the same across all components, but voltage divides in direct relation to the resistances.
  • Learn about parallel circuits where components are side-by-side, voltage remains constant, but the current is divided across components.
  • Understand that if one component in a series circuit fails, the circuit breaks, but in parallel circuits, other components continue to function.

Ohm’s Law

  • Remember that Ohm’s Law defines the relationship between voltage, current, and resistance in an electrical circuit, expressed by the formulae V=IR.
  • Understand the implications of Ohm’s Law on circuit design and function.

Measuring Electricity

  • Learn to measure current in series using an ammeter, introduced into the circuit itself.
  • Understand that voltage is measured in parallel with the component using a voltmeter.
  • Learn how to utilise a multimeter to measure resistance, current, and voltage.

Conducive and Insulating Materials

  • Know the difference between conductors (materials that permit free movement of electrons and thus, electricity) and insulators (materials that restrict electron movement).
  • Remember common conductors encompass silver, copper, and aluminium while common insulators include rubber, glass, and plastic.
  • Learn the purpose of resistors in controlling current flow within circuits to protect components from damage.

Electrical Power and Energy

  • Understand that electric power (measured in watts, W) is product of voltage and current (P=VI). It is the rate at which electrical energy is transferred or converted.
  • Learn that electrical energy (measured in joules, J) is the work done in moving a charge in the presence of an electric field.
  • Grasp the concept of efficiency, the proportion of electrical energy converted into useful output power.

Course material for Engineering Electronics and Computer Control Technologies, module Electrical and Electronic Principles, topic Circuit Foundations

Engineering Electronics and Computer Control Technologies

Computer Control Systems

Analog and Digital Signal Processing

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Analog and Digital Signal Processing

Understanding Analog and Digital Signal Processing

  • Signals are categorized into analog and digital. Analog signals are continuous in nature and change smoothly over time, whereas digital signals are discrete and non-continuous.

  • Analog Signal Processing operates directly on the analog signals. It is mostly used for signals that exist in analog format such as sound, light, or radio waves.

  • As technology advanced, Digital Signal Processing (DSP) became more prevalent. It involves the use of mathematics and computation to manipulate signals.

Key Elements of Analog Signal Processing

  • Amplification is an essential aspect of analog signal processing, used to increase the magnitude of the signal.

  • Filtering is used to alter the spectral content of a signal. It can be used to isolate certain frequencies and eliminate others, such as removing noise from a signal.

  • The modulation process enables the encoding of source data onto a carrier signal, allowing data transmission over varying distances.

Key Elements of Digital Signal Processing

  • In DSP, the analog signals are first converted into a digital format through a process known as analog-to-digital conversion.

  • The converted signals can then be processed, which involves mathematical operations such as addition, subtraction, multiplication, and division.

  • Once the signals are processed, they can be converted back to analog form if needed viadigital-to-analog conversion.

Comparison of Analog and Digital Signal Processing

  • Unlike analog signals, digital signals are less susceptible to noise and therefore offer higher precision and quality in processing.

  • Digital Signal Processing, unlike its analog equivalent, can be easily programmed for flexible and more complex operations.

  • Analog signal processing, however, is useful in real-time operations where a negligible delay is required. It is also often simpler and cheaper to implement.

Importance and Application of Signal Processing

  • Signal processing is prevalent in numerous areas such as telecommunications, radar, and sonar systems, speech recognition, medical imaging, and the music industry.

  • It's fundamental to understanding and solving real-world problems in areas ranging from wireless communication to acoustics, and from radar to biomedicine.

Challenges in Signal Processing

  • Interference and noise are some of the main challenges in signal processing, as they can disrupt and deteriorate the signal quality.

  • For Digital Signal Processing, a lack of precise digital representation of some analog signals can lead to distortion and signal loss.

Course material for Engineering Electronics and Computer Control Technologies, module Computer Control Systems, topic Analog and Digital Signal Processing

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