Consider a Boolean function † = X1 X2 X3 + X1 X2 + X1 X3 to be implemented. Suppose that all NMOS transistors are identical and all PMOS transistors are identical. Equivalent resistor for an NMOS transistor: Ry=12kQ Equivalent resistor for a PMOS transistor: Rp=24k2 Suppose that the output circuit node has a capacitance value of 10pF. Neglect other internal node capacitors. Implement f with “an NMOS and PMOS (CMOS) Pass Transistor Logic" using the ordering of x1 – x2 – x3 . Find the minimum number of transistors needed. Find the worst case (largest) fpHL and tplh Values (total of 2 values).
Consider a Boolean function † = X1 X2 X3 + X1 X2 + X1 X3 to be implemented. Suppose that all NMOS transistors are identical and all PMOS transistors are identical. Equivalent resistor for an NMOS transistor: Ry=12kQ Equivalent resistor for a PMOS transistor: Rp=24k2 Suppose that the output circuit node has a capacitance value of 10pF. Neglect other internal node capacitors. Implement f with “an NMOS and PMOS (CMOS) Pass Transistor Logic" using the ordering of x1 – x2 – x3 . Find the minimum number of transistors needed. Find the worst case (largest) fpHL and tplh Values (total of 2 values).
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Chapter1: Introduction
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Transcribed Image Text:Consider a Boolean function f = x1 X2 X3 + X1 X2 + X1 X3 to be implemented.
Suppose that all NMOS transistors are identical and all PMOS transistors are identical.
Equivalent resistor for an NMOS transistor: Ry=12KQ
Equivalent resistor for a PMOS transistor: Rp=24KQ
Suppose that the output circuit node has a capacitance value of 10pF. Neglect other internal
node capacitors.
Implement f with "an NMOS and PMOS (CMOS) Pass Transistor Logic" using the ordering
of x1 – x2 - X3 . Find the minimum number of transistors needed. Find the worst case
(largest) fpHL and tPLH values (total of 2 values).
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