Input Devices
• It is a peripheral / hardware used to enter data and instruction into a computer.
• It is used to transmit the data electronically to the computer.
Give 3 definitions of Keyboard
1. It is an input device
2. Most commonly used input device
3. It is used to enter data into a computer by typing
Why a keyboard is used at the point of sale in a supermarket?
It is used to enter the barcode number if the barcode is damaged.
2 applications of Keyboard
1. To enter data manually in word processor
2. To type a report
4 advantages of using Keyboard
1. Very easy to use (just have to press keys)
2. Most computers come with a keyboard
3. Specialist keyboards are available (ergonomic, gaming)
4. Information that you input appears instantly on the screen, this let you to quickly check what you are entering is correct
5 disadvantages of using keyboard
1. Very slow to enter data
2. Easy to make mistake when typing in data
3. Keyboards are not suitable for creating diagrams
4. Easily collects dust and dirt, so not suitable for dirty environments
5. Excessive use can lead to health problems such as RSI (Repetitive Strain Injury)
4 advantages of Concept keyboard
1. Fewer typing errors may be made because one button is pressed
2. Speed up the time to enter data because fewer buttons are pressed
3. May require less training because it is easier to identify item from its image
4. Can stop dirt / food damage as there are no keys for food / dirt to get into
2 disadvantages of Concept keyboard
1. Poor for text or numeric input
2. Limited options are available
6 definitions QR code scanner
1. It is used to read data from QR code (Quick Response code)
2. It can identify a standard QR code based on the 3 large squares
3. Once it has identified these 3 squares, it knows everything contained inside the squares is a QR code
4. QR code scanner analyses the QR code by breaking the whole thing down to a grid
5. It looks at the individual grid squares and assigns each one a value based on whether it is black or white
6. It then groups grid squares to create larger patterns
Explain how the data stored in this type of barcode is read
• The barcode is captured / scanned by a camera / QR scanner
• It is read using a laser
• Light is reflected back
• It is processed by an app
• The 3 large squares are used to define the alignment
• Squares / Data are decoded and converted to binary value
4 definitions of Touchscreen
1. It is the only device which works both as an input and output device
2. It allows users to input commands into a computer by pressing or touching icons on a screen
3. It is suitable for use with a limited amount of options
4. Touchscreen works particularly well with a menu-driven interface (ATM at banks)
3 applications of Touchscreen
1. Mobile phone / Tablet - easy to input data; use of icons for apps selection; to save space
2. Public information systems at airports - easy method for public to enter data into system; fewer chance of error since number of choices are limited
3. Interactive whiteboards in schools - Easier method to input data into system; limited number of options
3 types of Touchscreen technology
1. Resistive
2. Capacitive
3. Infra-red
3 definitions of Resistive Touchscreen technology
1. Uses multiple layers (2) of materials that transmit electric current
2. When the top layer / screen is touched into the bottom layer, the current changes
3. The location of the touch is found
2 benefits of Resistive technology
1. Cheap to manufacture
2. Can use stylus / finger / gloved finger / pen
4 drawbacks of Resistive technology
1. Poor visibility in sunlight
2. Vulnerable to scratch
3. Does not allow multitouch facility
4. Wears through time
4 definitions of Capacitive Touchscreen technology
1. Uses a conductive layer
2. Current flows from all 4 corners of the screen (an electrostatic field is created)
3. Sensors around the screen monitor the electrostatic field
4. When finger / stylus touches the screen, the current changes and the location of the touch is calculated
3 benefits of Capacitive technology
1. Good visibility in sunlight
2. Very durable surface
3. Allows multitouch facility
2 drawbacks of Capacitive technology
1. Screen will break / crack on impact
2. cannot be used when wearing gloves
5 definitions Infra-red Touchscreen technology
1. Infra-red rays are sent across the screen
2. Has sensors around the edge / Sensors capture beams
3. Infra-red rays form a grid across the screen
4. Sensors detect where the screen has been touched through a break in an infra-red beam
5. The position where the screen is touched is calculated
3 benefits of Infra-red technology
1. Good durability
2. Allows multitouch facility
3. Can use stylus / finger / pen / gloved finger
3 drawbacks of Infra-red technology
1. Expensive to manufacture
2. Screen will break / crack on impact
3. Sensitive to dust / dirt
What is Barcode?
It is a series of black and white parallel lines of different varying thickness
What is a Barcode reader?
• It is used to read barcodes
• It shines light / red laser at the barcode
• Light is reflected back (White lines reflect more light, while black lines reflect less light)
• Sensors detect the reflected light
• Different reflections will give different binary values
• A microprocessor interprets the data
3 applications of Barcode reader
1. Supermarket checkout - read barcodes to find prices description
- allows automatic stock control
2. Library systems - can track book on loan
- can link books to borrowers using barcoded cards
3. Airport check-ins - barcodes on luggage to track whereabouts
Explain how the barcode system could help the supermarket manage the stock?
• Barcodes identifies a product
• The barcode is used to look up the products in the database
• Stock can be automatically deducted from the system
• Can check if stock level is below certain level
• Automatic reorder is done
• Automatically update new stock level
4 advantages of using Barcodes to the management
1. Much easier and faster to change prices on stock items
2. Allows automatic stock control
3. Much better and more up-to-date sales information
4. No need to price every stock item on the shelf
3 advantages of using Barcodes to the customers
1. Faster checkout queues (staff don't need to remember price)
2. Error in charging customers are reduced
3. Customer is given an itemised bill
Application of Digital camera
At the airport to produce an electric version of the passenger's face
5 advantages of using Digital camera
1. Direct transfer to a computer
2. No processing is needed / No need to print
3. Extra copies can be made any time
4. Unwanted images can be detected
5. Images can be viewed immediately
Microphone
It is used to input sound for use
4 applications of Microphone
1. Narration in presentation or in websites
2. Speaking over the internet using VoIP (Voice Over Internet Protocol) using skype
3. Conducting videoconferencing
4. Hand free mobile phones use a microphone to allow people to hold conversations without using their hands
3 advantages of microphone
1. It is faster to provide voice as input than to type text using keyboard
2. Help in improving safety and security of drivers
3. Sound waves can be manipulated in real time
4 drawbacks of microphone
1. Sound files require a large memory for storage
2. Voice recognition software is not accurate as manual typing
3. Sound signals are required to be amplified for paper reconstruction
4. Can be affected by background noise
Working principle of a microphone
• The microphone has a diaphragm
• The incoming sound waves cause vibrations, causing a coil to move past a magnet
• An electric signal is produced
2D scanner
It is used to make digital copies of documents or pictures to create a 2D image
4 working principle of a 2D scanner
1. Scanner shines light onto the surface of a document
2. It uses mirrors and lenses
3. The captured image is converted into a digital file
4. Produces a 2D image
5 applications of 2D scanner
1. Used at airports
2. At the airport, the 2D photograph in the passport is scanned and stored as a JPEG image
3. The passengers' face is photographed using a digital camera
4. The two digital images are compared using face recognition software
5. Key parts of the face are compared (data such as - distance between the eyes; - width of the nose; - shape of cheek bones
4 definitions of 3D scanner
1. It shines a laser over the surface of a 3D object
2. It records the measurements and the dimensions of the object
3. Measurements are converted to digital file
4. Produces a 3D digital model
5 applications of 3D scanner
1. Entertainment industry, in the production of movies and video games
2. Industrial design
3. Quality control
4. Medical field
5. Documentation of cultural artefacts
4 advantages of 3D scanner
1. Save time in design work
2. Quickly capture all the physical measurement of any physical object
3. ensure parts will fit together on the first try
4. Utilize modern manufacturing on parts that were originally manufactured before CAD (Computer Aided Design)
3 drawbacks of 3D scanner
1. It is impossible to measure any surface that is out of the scanner's line of sight
2. Ambient light may blend with the laser and interfere with the scan's accuracy
3. Initial cost can be quite expensive
Optical mouse
• An input device
• A pointing device - controls the movement of the cursor / pointer on the screen
4 advantages of Optical mouse
1. Their sealed bottom surfaces do not absorb dust and dirt
2. It works on any surface, even on glass
3. Require little training to use
4. Usually supplied as part of a new computer system
2 drawbacks of Optical mouse
1. Need a flat surface close to the computer
2. Excessive use can lead to RSI
Output devices
• A peripheral device that sends results of processing to the user
• Translates signals from the computer into human-readable form
5 examples of Output devices
1. Monitor
2. Printer
3. Projector
4. Speaker
5. Actuator
4 definitions of Monitor
1. Most common output device
2. Also known as VDU (Visual Display Unit)
3. Used to produce soft copy (information stored electronically) of the stored information
What is screen resolution?
• The number of pixels that can be represented horizontally and vertically on a screen
• The higher the resolution of a monitor, the more pixel is used
What is pixel?
• Picture element
• Smallest addressable area on the screen
3 advantages of flat panel display
1. Light and takes less desk space
2. Consumes less power
3. Produces less radiation
5 definitions of LCD (Liquid Crystal Display)
1. The display is made up of pixels that are arranged together as a matrix(2)
2. Each pixel has three filters -Red -Blue -Green
3. Shader of colour is achieved by mixing Red, Blue, and Green
4. The screen is backlit with CCFL (Cold Cathode Fluorescent Lamp) / LED
5. Uses a flat panel display
2 applications of LCD
1. Smartphones
2. PDA's
7 advantages of LCD
1. Low power consumption
2. Runs at low temperature
3. Do not suffer image burn
4. Do not suffer flicker issues
5. Higher resolution image
6. Cheaper to purchase than LED
7. Bright colours / image
4 definitions of LED (Light Emitting Diode)
1. Do not use CCFL
2. Light is emitted by diodes
3. It is a flat panel display
4. Used in mobile devices such as smartphones and tables
6 advantages of LED
1. Good colour definition
2. Consume less energy
3. More reliable as LED's are long-lasting
4. Colours are vivid
5. Reaches maximum brightness quality immediately
6. Screens can be thinner
Printer
• Produces hardcopy
2 definitions of Ink-jet printer
1. Uses liquid ink
2. Uses either thermal bubble or piezoelectric technology
Ink-jet printer is made up of :
1. Print head which consists of nozzles
2. Stepper motor
3. Belt
4. Ink cartridge
3 definitions of Piezoelectric
1. A crystal is located at the back of the ink reservoir for each nozzle
2. The crystal is given a tiny electric charge which makes it vibrate
3. This vibration forces ink to be ejected onto paper
3 definitions of Thermal Bubble
1. Tiny resistors create localised heat which makes the ink to vaporise
2. This causes the ink to form a tiny bubble
3. As the bubble expands, some of the ink is ejected from print head onto the paper
4 advantages of Ink-jet printer
1. Inexpensive / Cheap to manufacture
2. High quality printouts
3. can use colours
4. Quiet
3 disadvantages of Ink-jet
1. Inks are expensive
2. Runs out of ink quickly
3. Not suitable for dirty / dusty / damp atmospheres
2 applications of Ink-jet printer
1. To produce one-off photographs
2. To print a project at home
5 definitions of Laser printer
1. It uses powdered ink / toner
2. It uses negative and positive charges drums / rotary drums
3. It uses a static electric charge on a rotating drum to generate output
4. Produces high volume of colour printing of advertising flyers / leaflets
5. Faster at printing
3 advantages of Laser printer
1. Produces high quality printing
2. Faster at printing
3. Produces high volume output
Disadvantages of Laser printer
• Toner is expensive
Application of Laser printer
• Producing flyers / leaflets / magazines
3 advantages of 3D printer
1. Production of an object which is built up layer by layer (additive) / removal of material (subtractive)
2. Used in CAD applications
3. Uses plastic, resin or powdered metal to generate a physical ouput
3 uses of 3D printer
1. To make prosthetic limbs
2. In fashion and art
3. Making parts for items no longer in production (suspension parts for a vintage car)
Projector
• Show enlarged computer output
LCD projector
• Uses a high intensity beam of light shone through three layers of changing pixels
2 definitions of DLP projector
1. Uses millions of micro mirrors to reflect light through a lens
2. Uses a colour wheel
2 definitions of Speaker
1. Give / Produce audio / Sounds instructions
2. An output device
2 advantages of Speaker
1. Everyone in the room can hear the sound
2. Help the blind to hear the text that can be turned into sound
Disadvantage of Speaker
Output from speaker can disturb people working
2 definitions of Actuator
1. An output device
2. Converts the computer signals into movement
5 examples of Actuator
1. Light bulb (creates light)
2. Heater (increases temperature)
3. Buzzer / Bell (creates noise)
4. Motor (spins things around)
5. Pump (pushes water / air through pipes)
2 definitions of sensors
1. An input device
2. Measures / Takes physical readings of the surrounding environments
2 definitions of Infra-red sensor
1. To measure the level of infra-red / microwaves to detect the break in the beam of light
2. To alert any intruders
2 applications of Infra-red sensor
1. Automatic doors
2. Burglar alarm system
2 definitions of Temperature sensor
1. To measure the temperature of the environment
2. To alert when it is too hot / cold
4 applications of Temperature sensor
1. Chemical process
2. Control heating / Air conditioning system
3. Greenhouse environment
4. Oven
2 definitions of Sound / Acoustic sensor
1. To detect sound / vibration
2. To alert if sound is too loud
3 applications of Sound / Acoustic sensor
1. Burglar alarm system
2. Leak detection system (detecting liquids moving in pipes)
3. Disco lighting
2 definitions of Gas sensor
1. To measure the amount of CO2 / oxygen is present
2. To alert when too much CO2 / oxygen is present
4 applications of Gas sensor
1. Greenhouse environment
2. Confined area (spacecraft)
3. Fish tank / Aquarium
4. Pollution monitoring in a river
2 definitions of Light sensor
1. To measure the brightness of the environment
2. To alert when there is too much / too little light
2 applications of Light sensor
1. Street lighting
2. Growth control in greenhouse
2 definitions of pH sensor
1. To measure how acidic / alkaline the soil is
2. To alert when there may be something polluting the soil
3 applications of pH sensor
1. Measure acidity of river
2. Used in greenhouse to monitor soil acidity
3. Chemical process
2 definitions of Moisture sensor
1. To measure the water content of the soil
2. To alert when it is too dry / too wet
2 applications of Moisture sensor
1. Clothes dryer
2. Greenhouse
2 definitions of Humidity sensor
1. To measure the water content in the air
2. To alert when the air is too dry
4 applications of Humidity sensor
1. Clothes dryer
2. Greenhouse
3. Refrigerators
4. Air conditioning system
Definition of Flow sensor
• Regulates the flow of liquids and gases within pipes and tubes
Application of Flow sensor
• Detects leaks, blockages and changes in liquid concentration due to contamination or pollution
2 definitions of Proximity sensor
1. To detect the presence of nearby objects without any physical contact
2. Sends data to microprocessor
4 applications of proximity sensor
1. Automated production lines for object detection
2. Used in smartphones to detect if a user is holding their phone
3. Collision detection on robots
4. Used in public washrooms to control water flow
2 definitions of Pressure sensor
1. To detect a change in pressure
2. To alert if there is an intruder
4 applications of Proximity sensor
1. Working machine to monitor level of water
2. Burglar alarm system
3. Traffic light control
4. Chemical process
2 definitions of Magnetic field sensor
1. Detect moving metal
2. Sends data to the microprocessor
4 applications of Magnetic field sensor
1. Mobile phones
2. Anti-lock braking system
3. CD players
4. Detection of motor vehicles (traffic lights)
Definition of Level sensor
• To monitor, maintain and measure liquid level
3 applications of Level sensor
1. Water tank
2. In the manufacturing and automotive industries
2 definitions of Accelerometer sensor
1. It is used to sense / detect vibration, shock
2. It measures the acceleration forces acting on an object
3 applications of Accelerometer sensor
1. Automobile collision safety system
2. Remote sensing devices to monitor active volcanoes
3. Laptops and mobile phones (sense movement and vibration)