Digital electronics, or digital (electronic) circuits, represent signals by discrete bands of analog levels, rather than by a continuous range. All levels within a band represent the same signal state. Relatively small changes to the analog signal levels due to manufacturing tolerance, signal attenuation or parasitic noise do not leave the discrete envelope, and as a result are ignored by signal state sensing circuitry.
In most cases the number of these states is two, and they are represented by two voltage bands: one near a reference value (typically termed as "ground" or zero volts), and the other a value near the supply voltage. These correspond to the "false" ("0"), and "true" ("1"), values of the Boolean domain, respectively.
Digital techniques are useful because it is easier to get an electronic device to switch into one of a number of known states than to accurately reproduce a continuous range of values.
Digital electronic circuits are usually made from large assemblies of logic gates, simple electronic representations of Boolean logic functions.
Intro to power supply circuit 2
Logic Gate Integrated Circuit part 1
Logic Gate Integrated Circuit part 2
Logic Gate -NOT - using a transistor
Digital Logic - Karnaugh Maps (part 1)
Digital Logic - Karnaugh Maps (part 2)
Logic Gate- 3 lines to 8 lines decoder
sequential Logic- SR gate
sequential Logic- D type and JK flip flop
JK flip flop
application 555 timer
Binary code to 7 segment
4-bit adder
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