GCSE Design and Technology > Electronics > Flashcards
Electronics Flashcards
Draw a simple systems diagram
Also known as?
Input —> Process —–> Output
Open loop control system
Name 2 different types of sensing components that could be used as an input for an electronic cicuit
LDR
Themistor
Draw the symbol for an LDR
https://startingelectronics.org/beginners/components/LDR-photoresistor/LDR-photoresistor-symbol.png
image on the right
Draw the symbol for a thermistor
https://electronicscoach.com/wp-content/uploads/2018/05/symbol.jpg
What does PTC stand for when using thermistors
PTC stands for Positive Temperature Coefficient
Describe how a thermistor works if it has a positive PTC
If a thermistor has a positive PTC then as the temperature increases, the resistance of the thermistor also increases
Describe how a thermistor works if it has a negative PTC
If a thermistor has a negative PTC then as the temperature increases, the resistance of the thermistor decreases
State 3 different uses for switches and pressure sensors
They can be used to:
turn something on
know if something has clodes
stop a machine if a guard is opened
What is a microcontroller
A small controller within a single integrated circuit
State 4 places where you might find microcontrollers
Rocket switches
Microswitch
Push-to-make switch
Pressure-pad switch
Name 2 different visual outputs that could be used in an electronic circuit
Lamps
LEDs (Light emitting diodes)
Name 2 audible outputs that could be used in an electronic circuit
A buzzer
A loud speaker
What are the 2 types of buzzer called
Electromechanical buzzers
Piezoelectric buzzers
What do the initials WEEE stand for
Waste Electrical and Electronic Equipment
Draw the symbol for the WEEE organisation
https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQb7qMr44hU0D9RXHlwv8UpfC7bEqyXFQY1fgt0CR_xScqZSl2fS3Bh8WN8LOoe7ZbbB_s&usqp=CAU
Give 2 reasons why it is bad to place batteries in land fill sites
The harmful chemicals released by batteries when they start decomposing may leak out of the battery and end up in rivers, streams, our water supplies or those of surrounding wildlife
When the batteries start decomposing, the harmful chemicals contained inside the battery can leak in the form of gases and contribute to the greenhouse effect
Value of resistors
1K
1M
2K2
1000
1,000,000
2,200
Explain what is meant by the preferred value series
Even though it is possible to produce every value of resistor, it would not be practical to make and stock every value.
Instead, manufactures produce a range of resistors in a series of preferred values
What is the E12 series
One range of preferred values is the E12 series
It is called the E12 series because there are 12 values spread evenly as possible across each range in value to the power of 10.
E.g. if an engineer wanted a 260 ohm resistor they would choose the closest value from the E12 series - a 270 ohm resistor
The nearest value is never more than10% away from the value required. This keeps resistor costs as low as possible
How many farads in a microfarad
10 ^-6
How many farads in a nanofarad
10^-9
How many farads in a picofarad
10^-12
One manufacturing format for making intergrated circuits is DIL
What does DIL stand for
Dual in-line
Draw the pin layout for an 8-pin DIL PIC( Programmable interface controller)
https://slideplayer.com/5721842/19/images/slide_1.jpg
What does
PIC
PCB
LED
LDR stand for
PIC - Peripheral Interface Controller
Printed Circuit Board
Light emitting diode
Light dependent resistor
Draw the graph to show resistance against light intensity
Resistance on y-axis
Light intensity on x-axis
Curve going down (1/2 of U)
Name the conductive pure metal usually found on circuit boards
Copper
What is the non-conductive circuit board made out of
Glass-reinforced polymer
PCBs can be produced by machines removing unwanted conductive metal
What does CNC stand for
Computer Numerically Controlled
What size of high speed steel twist drill bit is needed when drilling holes for components on a PCB
1mm
List 3 dangers when soldering a PCB in a school workshop
Soldering can produce humes
The solder can ‘spit’
The metal section of the soldering irons is very hot (400 degrees)
What is the unit of capitance
Farad
What does a capacitor do
A capacitor stores electric charge
What is a micro firad
1 millionth of a Farad (1 μF)
What is a nanofarad
1 thousand millionth of a Farad (1nF)
What is a picofarad
1 million millionth of a Farad (1pF)
What is the tolerance percentage of resistors with a gold and silver band
Gold - + or - 5%
Silver + or - 10%
Calculate the total capacitance of the following capacitors soldered in parallel on a PCB
C1: 100 microfarads
C2: 100 microfarads
C total = C1 + C2
C total = 100 + 100
C total = 200 μF
Draw a push to make switch
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
Draw a push to break switch
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
Draw a single pole/single throw slide switch
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
What is added to an open loop control system to create a closed loop control system
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
What are the three stages of a simple systems diagram
also known as an open loop control system
Input
Process
Output
