Therefore, an XNOR gate is true only when the two inputs are the same. Download scientific diagram Waveform of the proposed 6 transistor XOR gate from publication: Design of XOR gates in VLSI implementation Exclusive OR (XOR) gate is fundamental building blocks. The XNOR gate follows the same conventions as above, and acts like an XOR gate whose output is then fed into a NOT gate. My Work in Progress- Here is an Image of my work in TinkerCad: -Diagnosis- However when I try to run the simulator based on the schematics nothing is working in the simulator. They are using 1k resistors for all ground or (-) terminal connections. For example, the two inputs '1' and '0' would produce a true ('1') output, but the two inputs '1' and '1' or '0' and '0' would produce a false ('0') output (this is conventionally named "exclusive or"). This diagram is using 10k resistors to each of the 6 transistors' B terminals. The XOR gate is true when the inputs are opposite of each other, but false when they are equal. Therefore, it is true only in the case where both inputs are zeroes (the only case that would have made an OR gate output a '0'). circuits requiring large number of transistors can be realized with the help of quite less number of transistors. The NOR gate is essentially an OR gate whose output is then fed into a NOT gate. Download scientific diagram nMOS based XOR Gate from publication. Therefore, it is true in all cases except for when both inputs are '1'. The NAND gate is essentially an AND gate whose output is then fed into a NOT gate. it will flip a '1' to a '0' and a '0' to a '1'). The NOT gate takes in one input and inverts that input (i.e. The OR gate takes two inputs and evaluates to true when either one of its inputs are true (or if both inputs are true - this is conventionally named "inclusive or"). I've explained the working of the transistor XOR. outputs a '1') when both of its inputs are true, or false otherwise. This video is about XOR gate using transistors, sometime it is know as Exclusive or gate. The AND gate takes two inputs and evaluates to true (i.e. The logic gates include: AND, OR, NOT, NAND, NOR, XOR and XNOR. These gates are used in combinational and sequential circuit design. You have a multitude of different logic gates that operate within a computer.
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