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All very logical I think!

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Presentation on theme: "All very logical I think!"— Presentation transcript:

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2 All very logical I think!
Logic Gates

3 Logic Gates So what are logic gates?
All very logical I think! Logic Gates So what are logic gates? A logic gate is an electronic switch

4 Logic Gates So what are logic gates?
All very logical I think! Logic Gates So what are logic gates? A logic gate is an electronic switch Logic gates are found in everyday items such as washing machines, security lamps and video recorders.

5 Logic Gates So what are logic gates?
All very logical I think! Logic Gates So what are logic gates? A logic gate is an electronic switch Logic gates are found in everyday items such as washing machines, security lamps and video recorders. Logic gates depend upon switches being on (1) or off (0)

6 Logic Gates A B Switch Switch Gate

7 Logic Gates A B Switch Switch Gate For the bulb in the circuit above to light up, both switches A and B need to be ON (closed). If either A or B is OFF (open) then the bulb will not work. A truth table gives us all possible combinations of the switches.

8 Logic Gates A B Truth table Inputs Output A B Q 1 Switch Switch Gate For the bulb in the circuit above to light up, both switches A and B need to be ON (closed). If either A or B is OFF (open) then the bulb will not work. A truth table gives us all possible combinations of the switches. In the truth table: 0 = OFF 1 = ON

9 Just a minute – what’s all this analogue and digital stuff?

10 Just a minute – what’s all this analogue and digital stuff?
A thermistor is an analogue device – it’s resistance varies over a continuous range.

11 Just a minute – what’s all this analogue and digital stuff?
A stop clock, such as the one shown here, is a digital device because the strips that make up the display can only be on (1) of off (0)

12 A stop clock, such as the one shown here, is a digital device because the strips that make up the display can only be on (1) of off (0)

13 Logic gates

14 For the output to be HIGH (on), both inputs must be HIGH.
Logic gates AND gate Truth table Inputs Output A B Q 1 Input A AND Output Q Input B Two inputs, one output. For the output to be HIGH (on), both inputs must be HIGH.

15 Logic gates OR gate OR Two inputs, one output.
Truth table Inputs Output A B Q 1 Input A OR Output Q Input B Two inputs, one output. For the output to be HIGH (on), at least one of the inputs must be HIGH (can be both).

16 For the output to be HIGH (on), the input must be LOW (and vice versa)
Logic gates NOT gate Truth table Input Output A Q 1 Input A NOT OR Output Q One input, one output. For the output to be HIGH (on), the input must be LOW (and vice versa)

17 For the output to be HIGH (on), both inputs A and B must NOT be HIGH.
Logic gates NAND gate Truth table Inputs Output A B Q 1 Input A NAND Output Q Input B Two inputs, one output. For the output to be HIGH (on), both inputs A and B must NOT be HIGH. This is equivalent to an AND gate with its output inverted by a NOT gate.

18 For the output to be HIGH (on), neither inputs A or B is HIGH.
Logic gates NOR gate Truth table Inputs Output A B Q 1 Input A NOR Output Q Input B Two inputs, one output. For the output to be HIGH (on), neither inputs A or B is HIGH. This is equivalent to an OR gate with its output inverted by a NOT gate.

19 AND OR NOT NAND NOR

20 Simple circuits using Logic gates

21 Simple circuits using Logic gates
Tape recorder Record button Recording circuits AND Play button The Play and the Record button have to be pressed simultaneously in order for the recording circuits to begin working.

22 Simple circuits using Logic gates
Security light During the day the light sensor output is high. Light sensor 1 Lamp Relay Body heat sensor 0/1 The relay controls a separate circuit with the lamp in it. During the day the body heat sensor can be either high or low – the AND gate will not be triggered.

23 Simple circuits using Logic gates
When it is dark the light sensor output is low. Security light Light sensor 1 Lamp Relay 1 1 Body heat sensor 1 The AND gate receives two high inputs and triggers the relay which causes the lamp to switch on. When it is dark, if someone approaches the body heat sensor is triggered and becomes high

24 A low temperature indicator – eg. In a greenhouse.
Simple circuits using Logic gates A low temperature indicator – eg. In a greenhouse. The alarm can be tested at any time by closing the test switch  HIGH (1) +5V Test switch When the greenhouse is warm enough, the input from the temperature sensor is HIGH (1). 0V Temperature sensor 1 Alarm

25 A low temperature indicator – eg. In a greenhouse.
Simple circuits using Logic gates A low temperature indicator – eg. In a greenhouse. The alarm can be tested at any time by closing the test switch  HIGH (1) +5V When the greenhouse cools, the input from the temperature sensor is LOW (0). The NOT gate changes this to a ‘1’ and the alarm is switched on. Test switch 0V Temperature sensor 1 Alarm 1

26 A night-time rain alarm.
Simple circuits using Logic gates A night-time rain alarm. Light sensor During the day, the output from the light sensor is always HIGH (1) so the output from the NOT gate is always LOW (0) and the alarm is not switched on. 1 Moisture sensor 0/1 Alarm

27 A night-time rain alarm.
Simple circuits using Logic gates A night-time rain alarm. Light sensor In darkness the output from the light sensor is LOW (0). This means that the output from the NOT switch is HIGH (1). If rain falls on the moisture sensor then its output becomes HIGH (1). The AND gate receives two HIGH inputs, so the alarm is switched on. 1 Moisture sensor 1 1 Alarm

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