Download unit 1 – construction of logic gates

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Transcript
1.0 INTRODUCTION

Characteristics of the active electronic components
that determine the internal construction and
operation of electronic circuitry of a logic gate.
+5V
1k
Y=0
10k
A=1
2
1.1 Types of logic gates




NOT
AND
OR
XOR
3
1.1 Types of logic gates (cont.)



NAND
NOR
XOR
4
1.2 Diode as a voltage controlled switch




p-n junction component
Two type material: p-type & n-type
Operation: forward biased & reverse biased
Knee voltage: 0.7V (Si) n 0.3V (Ge)
5
1.2 Diode as a voltage
controlled switch
(cont.)

Operation




0V – knee voltage
 Small current’s flow
Beyond knee voltage
Negative voltage
 Leakage current
More negative voltage
 Zener voltage
6
1.2 Diode as a voltage controlled switch (cont.)

Forward biased vs. reverse biased
7
1.2 Diode as a voltage controlled switch (cont.)

Diode works as a logic ON/OFF switch
8
1.2 Diode as a voltage controlled switch (cont.)

Voltage range of logic level for TTL digital IC
9
1.2 Diode as a voltage controlled switch (cont.)

Simple 2-input OR gate
10
1.3 Transistor as a voltage controlled switch


p-n junction component
Two type: PNP & NPN
11
1.3 Transistor as a voltage controlled switch (cont.)

B-E junction
as switch
12
1.3 Transistor as a voltage controlled switch (cont.)

Not gate
13
1.4 Diode controls switching speed

Speed limitation when switching diode from ON to OFF
and vice versa

Minority-carrier density
Reverse biased (OFF)
Forward biased (ON)
14
1.5 Switching time

Rise and fall time


Time taken for a signal to go from LOW to HIGH and vice versa.
Tr and Tf
15
1.5 Switching time (cont.)

Storage time
(c)
(a) Circuit
(b) Input waveform
(c) Diode current
(d) Diode voltage
(e) Minority carrier
(d)
(e)
16
1.5 Switching time (cont.)

Propagation delay



Time interval between the application of an input pulse and
the occurrence of the resulting output pulse.
Cumulative time delay when gates are cascaded.
Limits the max freq at which a gate can operate.
 For propagation delay of 40ns; max freq operation is 25MHz
 For propagation delay of 25ns; max freq operation is ???
17
1.5 Switching time (cont.)

Propagation delay (cont.)

Two types:
 TPLH - delay time from
logic 0 to logic 1.
 TPHL - delay time from
logic 1 to logic 0.
 Measured at 50% on rising
and falling edges of
the input and output.
 Total propagation delay?
18
1.6 TTL family

TTL Series:








74 Series – First line of standard TTL ICs
74L Series – low-power version
74H Series - high-speed version
74S Series – Schottky TTL, reduce storage time delay
74LS Series – Low-Power Schottky TTL
74AS Series – Advanced Schottky TTL
74ALS Series – Advanced Low-Power Schottky TTL
74F Series – Fast TTL
19
1.6 TTL family (cont.)







TTL NAND Gate Operation
Schottky TTL 74S
Low-Power Schottky TTL
Advanced Schottky TTL,
74AS Series (AS-TTL)
Current-Sourcing and
Current-Sinking Action
Totem Pole TTL
Tristate (Three-state) TTL
TUGASAN 1 :
PETA MINDA.
TARIKH AKHIR
HANTAR :
12 FEB 2010
NO
PLAGIARSM!!!
20
1.7 CMOS family

CMOS INVERTER GATE
21
1.7 CMOS family

CMOS NAND GATE
22
1.7 CMOS family

CMOS TRANSMISSION GATE


Pass signal in both direction.
Useful for digital and analog application.
23
1.8 Comparison of CMOS and TTL
TTL
CMOS
Noise Margin
0.4V (standard)
1.5V (30% of VDD)
Typically 45%
Power
dissipation
mW
nW
Propagation
delay
TPLH is 11ns – 22ns
TPHL is 7ns – 15 ns
30 - 50ns
Fan-in
Depends on number of
unit loads it can handle.
Usually 3.
Depends on number of
unit loads it can handle
Fan-out
Typically 10
Typically 50
24
1.9 Interfacing TTL and CMOS ICs


Connecting the output(s) of one circuit of system to the
input(s) of another circuit that has different electrical
characteristics.
Why?



Two things to consider:



Utilize strong points of different logic families.
Ex: 74AS used in parts need for highest frequency
741 used in slower parts
NMOS for LSI parts of the system.
Voltage
Current
Where? – device data sheets
25
1.9 Interfacing TTL and CMOS ICs (cont.)

CMOS driving TTL


Input current for CMOS are
low compared to output
current TTL  no prob.
Input voltage for CMOS are
higher than output voltage
TTL  pull-up resistor.
26