how CMOS transistors circuits can be used to implement binary information and digital logic. Explain the relationship between flip-flops, registers and memory.
how CMOS transistors circuits can be used to implement binary information and digital logic. Explain the relationship between flip-flops, registers and memory.
Information is saved on the pc in binary form. A binary bit can exist in one among possible states. In high-quality logic, the presence of a voltage is called the ‘1’, real, asserted, or high state. The absence of a voltage is known as the ‘0’, false, now not asserted, or low state. The figure shows the output of an ordinary complementary metal-oxide-semiconductor (CMOS) circuit. The left side shows the situation with a real bit, and the right side shows a fake. The output of every digital circuit consists of a p-kind transistor “on the pinnacle of” an n-type transistor. In virtual circuits, each transistor is basically on or off. If the transistor is on, it's miles equal to a short circuit between its two output pins. Conversely, if the transistor is off, it's far equal to an open circuit between its outputs pins.
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