Digital Logic Circuit
IJERA JournalLogic gates are the fundamental components of any digital system and can be considered the "building blocks". A logic gate is a simple electric circuit consisting of two inputs and a single output. The most frequent names for logic gates are AND, OR, NOT, XOR (Exclusive or), NAND (NOT AND), and NOR. An OR logic gate begins with the provision of two electrical inputs. If one of the inputs has the value one or indicates that it is "on," then the output will also be one. In electronics, there is a type of logic gate known as an inverter or NOT gate. The report is broken up into five distinct parts or sections. The first section of this report covers the experiment's results on logic gates. They are used in the process of performing logical operations on one or more binary inputs to produce a single binary output. This article will examine the functions of the NOT, OR, and AND gates found in a logic circuit. The findings of the experiment are presented in the fourth section. The discussion, recommendations, and conclusions drawn from the results are in the last part. In a NOT gate, the input determines whether the output is true or false, and vice versa. ALTERNATIVELY, gates output a value of HIGH if either of the two inputs is. HIGH and LOW if both inputs are LOW; this type of gate is also known as an inverter. A truth table was used to validate the information of each NOT, AND, and OR integrated circuit. Knowing how to use these seven fundamental logic gates makes it much simpler to comprehend Boolean algebra and simplifies the process of conducting circuit analysis. These gates are most commonly used in the manufacture of automatic machines. Learning how to design logical circuits was made possible by utilizing gates such as NOT, AND, and OR.
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