Basic Logic Gates - Oakland Universitypolis/Lectures/EG… · PPT file · Web view ·...

Basic Logic Gates

Discussion D5.1Section 8.6.2

Sections 13-3, 13-4

Basic Logic Gates and Basic Digital Design

• NOT, AND, and OR Gates• NAND and NOR Gates• DeMorgan’s Theorem• Exclusive-OR (XOR) Gate• Multiple-input Gates

NOT Gate -- Inverter

NOTX Y

Y = ~X

• Y = ~X (Verilog)• Y = !X (ABEL)• Y = not X (VHDL)• Y = X’• Y = X• Y = X (textook)• not(Y,X) (Verilog)

X ~X ~~X = X

X ~X ~~X0 1 01 0 1

AND GateAND

Z = X & Y

X Y Z0 0 00 1 01 0 01 1 1

• X & Y (Verilog and ABEL)• X and Y (VHDL)• X Y• X Y• X * Y• XY (textbook)• and(Z,X,Y) (Verilog)

OR GateOR

Z = X | Y

X Y Z0 0 00 1 11 0 11 1 1

• X | Y (Verilog)• X # Y (ABEL)• X or Y (VHDL)• X + Y (textbook)• X V Y• X U Y• or(Z,X,Y) (Verilog)

NAND GateNAND

X Y Z0 0 10 1 11 0 11 1 0

Z = ~(X & Y)nand(Z,X,Y)

NAND GateNOT-AND

W = X & Y

Z = ~W = ~(X & Y)

X Y W Z0 0 0 10 1 0 11 0 0 11 1 1 0

NOR GateNOR

X Y Z0 0 10 1 01 0 01 1 0

Z = ~(X | Y)nor(Z,X,Y)

NOR GateNOT-OR

W = X | Y

Z = ~W = ~(X | Y)

X Y W Z0 0 0 10 1 1 01 0 1 01 1 1 0

NAND GateX

Z = ~(X & Y) Z = ~X | ~Y

X Y W Z0 0 0 10 1 0 11 0 0 11 1 1 0

X Y ~X ~Y Z0 0 1 1 10 1 1 0 11 0 0 1 11 1 0 0 0

De Morgan’s Theorem-1

~(X & Y) = ~X | ~Y

• NOT all variables• Change & to | and | to &• NOT the result

NOR GateX

Z = ~(X | Y)

X Y Z0 0 10 1 01 0 01 1 0

Z = ~X & ~Y

X Y ~X ~Y Z0 0 1 1 10 1 1 0 01 0 0 1 01 1 0 0 0

De Morgan’s Theorem-2

~(X | Y) = ~X & ~Y

• NOT all variables• Change & to | and | to &• NOT the result

De Morgan’s Theorem• NOT all variables• Change & to | and | to &• NOT the result• --------------------------------------------• ~X | ~Y = ~(~~X & ~~Y) = ~(X & Y)• ~(X & Y) = ~~(~X | ~Y) = ~X | ~Y• ~X & !Y = ~(~~X | ~~Y) = ~(X | Y)• ~(X | Y) = ~~(~X & ~Y) = ~X & ~Y

Exclusive-OR Gate

X Y ZXOR

Z 0 0 00 1 11 0 11 1 0

Z = X ^ Yxor(Z,X,Y)

• X ^ Y (Verilog)• X $ Y (ABEL)• X @ Y

• xor(Z,X,Y) (Verilog) X Y (textbook)

Exclusive-NOR Gate

X Y ZXNOR

Z 0 0 10 1 01 0 01 1 1

Z = ~(X ^ Y)Z = X ~^ Yxnor(Z,X,Y)

• X ~^ Y (Verilog)• !(X $ Y) (ABEL)• X @ Y

• xnor(Z,X,Y) (Verilog) X Y

Multiple-input Gates

3 4 Z Z

Multiple-input AND Gate

Output is HIGH only if all inputs are HIGHZ 1

An open input will float HIGH

Multiple-input OR Gate

Output is LOW only if all inputs are LOWZ 2

Multiple-input NAND Gate

Output is LOW only if all inputs are HIGHZ 3

Multiple-input NOR Gate

Output is HIGH only if all inputs are LOWZ 4

Basic Logic Gates - Oakland Universitypolis/Lectures/EG… · PPT file · Web view ·...

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