A NAND Gate is a logical gate which is the opposite of an AND Logic Gate. It is a mixture of AND and NOT gates and is a normally used logic gate. It is considered as a “universal” gate in Boolean Algebra as it is capable of producing all different good judgment gates.
A NAND gate includes one or more inputs with a single Output. The output of the NAND gate is continually at good judgment 1 and handiest is going to common sense 0 while all of the inputs to the NAND gate are at common sense 1. In other phrases, the output of the NAND gate usually remains real if at least one among its inputs stays false. The Function of the NAND gate is every now and then referred to as the Sheffer Stroke feature. The output of the NAND gate stays fake if all its inputs continue to be actual. The NAND gate is represented via a symbol whose shape resembles the AND gate with a circle followed, often called an “inversion circle.”
NAND logic gates are able to being cascaded collectively in a Expression or Circuit to get extra inputs. It is able to generating all different good judgment gates, which includes basic ones. NAND gates are to be had in Transistor-Transistor Logic and complementary Metal-oxide Semiconductor (CMOS). It is broadly used in Packages like burglar alarms, Freezer warning buzzers and automatic circuits.
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