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1 Buffers Buffer:  Doesn’t change the input.  Only amplifies. in out EN.

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Presentation on theme: "1 Buffers Buffer:  Doesn’t change the input.  Only amplifies. in out EN."— Presentation transcript:

1 1 Buffers Buffer:  Doesn’t change the input.  Only amplifies. in out EN

2 2 Three-State Buffers  Buffer output has 3 states: 0, 1, Z  Z stands for High-Impedance  Open circuit EN = 0  out = Z (open circuit) EN = 1  out = in (regular buffer) in out EN inout 0XZ 100 111

3 3 Three-state buffer(BUF)/inverter(INV) symbols in out EN in out EN in out EN in out EN 3-state BUF, EN high 3-state BUF, EN low3-state INV, EN low 3-state INV, EN high

4 4 Open Collector/Drain Gates  Outputs of two (or more) gates must not be wired together: A B out wired If A = B  out = A = B If A  B  a large enough current can be created, that causes excessive heating and could damage the circuit.

5 5 Multiplexed output lines using three-state buffers A B out EN A EN B S SABEN A EN B out 000100 001100 010101 011101 100010 101011 110010 111011 A B A B S 0 1

6 6 Open Collector/Drain Gates  Outputs of some gates can be wired:  The result: O 1 AND O 2  Open Collector Gates in TTL Technology  Open Drain Gates in CMOS Technology A B Out = O1O1 O2O2 O 1. O 2

7 7 Open Collector/Drain Gates  Open Collector (Open Drain) NAND Truth Table: AB F=(A B)’ 00 Z 01 Z 10 Z 11 0 Z (Hi-Z) (Hi-Impedance):  As if it is unconnected.  The gate cannot pull up the output  needs a resistor to pull it up if an input is ‘0’ OD

8 8 Open Collector/Drain Gates Wired AND: If A and B are "1", output is actively pulled low if C and D are "1", output is actively pulled low if one gate is low, the other high, then low wins if both gates are "1", the output floats, pulled high by resistor Hence, the two NAND functions are AND'd (wired) together! F CD 0 V Open-collector NAND gate Pull-up resistor OD

9 9 NAND-Only Implementation  Find Sum-of-Product form.  Inventers can be added  Equivalent NAND-only

10 10 NAND-Only Implementation  NAND = AND + NOT  Use Open Collector/Drain NAND Gates: OD

11 11 Another Method  Instead of finding the circuit for F, find the circuit for F’ in the first stage  Then there will be no Inverter at the output Wired OR:  Open drain/collector gate with active low inputs. OD

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