1.7.9

Digital & Analogue Signals

Test yourself on Digital & Analogue Signals

Test your knowledge with free interactive questions on Seneca — used by over 10 million students.

Analogue vs Digital Signals

Signals (things carrying information) can be either analogue or digital. An analogue signal can vary continuously between a maximum and a minimum value. A digital signal can only have set values, usually 0 or 1.

Analogue

Analogue

  • A dimmer switch on a light can give any brightness between on and off. Therefore it is an analogue signal.
Digital

Digital

  • A normal light switch can only ever be on or off, nothing in between. Therefore it is a digital signal.

Benefits of Digital

There are many reasons why digital signals are better than analogue signals. These include:

Reduce noise effects

Reduce noise effects

  • In digital signals, noise (which makes the signal fuzzy) can change the 1s and 0s to slightly different values. For example a 1 could become a 0.97 or a 1.01.
  • It is easy to tell that a 1.01 or a 0.97 should be a 1, and that a 0.03 or a 0.12 should be a 0.
  • Therefore noise can be easily reduced for digital signals.
  • For analogue signals, we cannot tell what the original value was because a 0.97 could have been a 0.98, a 0.99, a 0.91 or any other nearby value.
Cost

Cost

  • Digital communication systems are usually cheaper.
Privacy

Privacy

  • Data encryption means that only a certain person can receive the digital signal.
  • Analogue signals are easier to intercept.
Computer compatibility

Computer compatibility

  • Digital information can be more easily processed by computers.
Carry more information

Carry more information

  • Digital signals can carry more information per second than analogue signals.
Jump to other topics
1

Principles of Science I

1.1

Structure & Bonding

1.1.1Atomic Model1.1.2Electron Shells, Sub-Shells & Orbitals1.1.3Ionic Bonding1.1.4Representing Ionic Bonds1.1.5Covalent Bonding1.1.6Representing Covalent Bonds1.1.7Metallic Bonding1.1.8Intermolecular Forces1.1.9Intermolecular Forces 21.1.10End of Topic Test - Bonding1.1.11Relative Masses1.1.12The Mole1.1.13Molar Calculations1.1.14Molar Calculations 21.1.15Empirical & Molecular Formulae1.1.16Balanced Equations1.1.17Percentage Yield1.1.18End of Topic Test - Amount of Substance
1.2

Properties of Substances

1.2.1The Periodic Table1.2.2Ionisation Energy1.2.3Factors Affecting Ionisation Energies1.2.4Trends of Ionisation1.2.5Trends in the Periodic Table1.2.6Polarity1.2.7Metals & Non-Metals1.2.8Alkali Metals1.2.9Alkaline Earth Metals1.2.10Reactivity of Alkaline Earth Metals1.2.11Redox1.2.12Transition Metals1.2.13Redox Reactions of Transition Metals
1.3

Cell Structure & Function

1.3.1Introduction to Cells1.3.2Prokaryotes1.3.3Organelles of Eukaryotic Cells1.3.4Organelles of Eukaryotic Cells 21.3.5Organelles in Plant Cells1.3.6Microscopy1.3.7End of Topic Test - Cell Structure
1.4

Cell Specialisation

1.4.1Cell Specialisation1.4.2Blood Cells1.4.3Plant Cells1.4.4Gametes
1.5

Tissue Structure & Function

1.5.1Human Gas Exchange1.5.2Blood Vessels1.5.3Atherosclerosis1.5.4Skeletal Muscle1.5.5Slow & Fast Twitch Fibres1.5.6Neurones1.5.7Speed of Transmission1.5.8Action Potentials1.5.9End of Topic Test - Neurones & Action Potentials1.5.10Synapses1.5.11Types of Synapse1.5.12Medical Application1.5.13End of Topic Test - Synapses1.5.14Chemical Brain Imbalances1.5.15Effect of Drugs on the Brain
1.6

Working with Waves

1.6.1Progressive Waves1.6.2Wave Speed & Phase Difference1.6.3Longitudinal & Transverse Waves1.6.4Stationary Waves1.6.5Stationary Waves 21.6.6Applications of Stationary Waves1.6.7Interference1.6.8Diffraction1.6.9Diffraction Gratings1.6.10Application of Diffraction Gratings
1.7

Waves in Communication

1.7.1Refraction at a Plane Surface1.7.2Internal Reflection & Fibre Optics1.7.3Applications of Total Internal Reflection1.7.4Properties1.7.5Gamma, X-Ray & UV Light1.7.6Visible Light1.7.7Infrared, Microwave & Radio Waves1.7.8Intensity1.7.9Digital & Analogue Signals1.7.10Communication Channels
2

Practical Scientific Procedures and Techniques

2.1

Titration

2.1.1pH Curves & Titrations2.1.2pH Curves & Titrations 22.1.3Buffer Solutions
2.2

Colorimetry

2.2.1Measuring Rates2.2.2Beer-Lambert Law
2.3

Chromatography

2.3.1Overview of Chromatography2.3.2Thin-Layer Chromatography2.3.3Column Chromatography2.3.4Gas Chromatography
3

Science Investigation Skills

3.1

Scientific Processes

3.1.1Aims, Hypotheses & Sampling3.1.2Pilot Studies & Design3.1.3Ethics3.1.4Variables & Control3.1.5Demand Characteristics & Investigator Effects3.1.6Features of Science3.1.7Scientific Report3.1.8Scientific Report 2
3.2

Data Handling & Analysis

3.2.1Types of Data3.2.2Descriptive Statistics3.2.3Presentation & Display of Data
3.3

Enzymes in Action

3.3.1Overview of Protein Structure3.3.2Enzymes3.3.3Factors Affecting Enzyme Activity3.3.4Enzyme-Controlled Reactions
3.4

Diffusion

3.4.1Diffusion
3.5

Plants & Their Environment

3.5.1Factors Affecting Plant Growth3.5.2Measuring Number & Distribution of Species
3.6

Energy Content in Fuels

3.6.1Fractions3.6.2Burning Hydrocarbons3.6.3Combustion3.6.4Energy3.6.5Energy at Home3.6.6Calorimetry
3.7

Electrical Circuits

3.7.1Circuit Diagrams & Components3.7.2Diodes, LDRs & Thermistors3.7.3Resistance3.7.4Electrical Work3.7.5Ohm's Law3.7.6Domestic Uses of Electricity3.7.7Fuses
4

Principles of Science II

4.1

Extracting Elements

4.1.1Atom Economy
4.2

Relating Properties to use of Substances

4.2.1Group 2 Chemistry4.2.2End of Topic Test - Group 24.2.3Electrolysis4.2.4Electrolysis Examples4.2.5Extracting Metals4.2.6Transition Metals4.2.7Variable Oxidation States4.2.8Heterogeneous Catalysts4.2.9Homogeneous Catalysts
4.3

Organic Chemistry

4.3.1Naming Compounds4.3.2Functional Groups4.3.3Isomerism4.3.4Hydrocarbons4.3.5Structure of Alkanes4.3.6Boiling Points of Alkanes4.3.7Alkenes4.3.8Curly Arrows & Mechanisms4.3.9Cracking4.3.10Combustion4.3.11Free Radical Substitution of Alkanes4.3.12Electrophilic Addition of Alkenes
4.4

Energy Changes in Industry

4.4.1The Kelvin Scale4.4.2Enthalpy Changes4.4.3Calorimetry4.4.4Bond Enthalpies4.4.5Hess' Law
4.5

The Circulatory System

4.5.1The Circulatory System4.5.2Blood Vessels4.5.3Blood Transfusion & the ABO Rhesus System4.5.4The Heart4.5.5The Cardiac Cycle4.5.6Cardiac Output4.5.7Coordination of Heart Action4.5.8Heart Dissection4.5.9Controlling Heart Rate4.5.10Electrocardiograms4.5.11Cardiovascular Disease4.5.12Investigating Heart Rates
4.6

Ventilation & Gas Exchange

4.6.1Human Gas Exchange4.6.2Ventilation4.6.3Measuring Gas Exchange4.6.4Controlling Ventilation Rate4.6.5Lung Disease4.6.6Lung Disease Data
4.7

Urinary System

4.7.1Kidneys & Control of Water Balance4.7.2Kidneys & Osmoregulation4.7.3Kidneys & Blood Pressure4.7.4Urine4.7.5Kidney Failure & Urinalysis4.7.6Dialysis4.7.7Transplants
4.8

Cell Transport

4.8.1Cell Membrane Structure4.8.2Diffusion4.8.3Osmosis4.8.4Active Transport
4.9

Thermal Physics

4.9.1Power & Efficiency4.9.2Work & Energy4.9.3Conservation of Energy4.9.4Pressure4.9.5First Law of Thermodynamics4.9.6Second Law of Thermodynamics4.9.7Heat Engines, Heat Pumps & Refrigerators4.9.8Non-Flow Processes4.9.9p-V Diagrams4.9.10Ideal Gases4.9.11Ideal Gases 24.9.12Thermal Energy Transfer4.9.13Thermal Energy Transfer Experiments
4.10

Materials

4.10.1Density4.10.2Stress & Strain4.10.3Properties of Materials4.10.4Elasticity4.10.5Plasticity4.10.6Energy in Materials4.10.7Young Modulus
4.11

Fluids

4.11.1Fluid Flow4.11.2Viscosity4.11.3Density4.11.4Continuity Equation4.11.5Bernoulli's Equation4.11.6Non-Newtonian Fluids
5

Contemporary Issues in Science

5.1

Contemporary Issues in Science

5.1.1Sustainability5.1.2Genetic Engineering5.1.3Uses of Genetic Modification5.1.4Stem Cell Therapy5.1.5Cloning5.1.6Cloning 25.1.7Nanotechnology5.1.8Ecosystems
5.2

Analysing Scientific Information

5.2.1Validity5.2.2Peer Review

Practice questions on Digital & Analogue Signals

Can you answer these? Test yourself with free interactive practice on Seneca — used by over 10 million students.

  1. 1
    Signals can be known as either:True / false
  2. 2
    Digital signals often only have which number of values?Multiple choice
  3. 3
    Benefits of digital signals:Fill in the list
  4. 4
    Why is it easier to reduce noise from digital signals and not for analogue signals?Flashcard
  5. 5
    Which of these are true of digital and analogue signals?True / false
Answer all questions on Digital & Analogue Signals

Unlock your full potential with Seneca Premium

  • Unlimited access to 10,000+ open-ended exam questions

  • Mini-mock exams based on your study history

  • Unlock 800+ premium courses & e-books

Get started with Seneca Premium

Intensity

Communication Channels