Transistor Transistor Logic

Dayalbagh Educational
Institute
D.Surat
M.Sc. Physics

Introduction
Introduction to Digital logic
gates
Technologies
Transistor Transistor Logic
7400 TTL Series
TTL Sub-families
Two Input TTL NAND Gate
TTL Logic Levels and Noise
Margins
TTL Family Evolution
Comparison to logic families

Introduction to Digital logic Gates
★ A Digital Logic Gate is an electronic device that makes
logical decisions based on the different combinations of
digital signals present on its inputs.
★ Digital logic gates may have more than one input but
generally only have one digital output.
★ Individual logic gates can be connected together to form
combinational or sequential circuits, or larger logic gate
functions.

Technologies
★ The list of packaged building-block logic families can be
divided into categories, listed here in roughly
chronological order of introduction, along with their usual
abbreviations:
o Resistor–transistor logic (RTL)
• Direct-coupled transistor logic (DCTL)
• Resistor–capacitor–transistor logic (RCTL)

o Diode–transistor logic (DTL)
Complemented transistor diode logic (CTDL)
High-threshold logic (HTL)
o Emitter-coupled logic (ECL)
Positive emitter-coupled logic (PECL)
Low-voltage positive emitter-coupled logic (LVPECL)
o Transistor–transistor logic (TTL)
o P-type metal–oxide–semiconductor logic (PMOS)
o N-type metal–oxide–semiconductor logic (NMOS)

o Complementary metal–oxide–semiconductor logic
(CMOS)
o Bipolar complementary metal–oxide–semiconductor logic
(BiCMOS)
o Integrated injection logic (I2L)

Transistor - Transistor Logic
★ Transistor–transistor logic (TTL) is a class of digital
circuits built from bipolar junction transistors (BJT) and
resistors.
★ It is called transistor–transistor logic because both the
logic gating function and the amplifying function are
performed by transistors.

★ The first transistor–transistor logic family of integrated
circuits was introduced by Sylvania as Sylvania Universal
High–Level Logic (SUHL) in 1963.
★ TTL manufacturers offered a wide range of logic gate, flip-
flops, counters, and other circuits. Several variations of
the original bipolar TTL concept were developed, yielding
circuits with higher speed or lower power dissipation to
allow optimization of a design.

★ The design of the input and outputs of TTL gates allowed
many elements to be interconnected.
★ Transistor-transistor logic (TTL) is a digital logic design in
which bipolar transistor s act on direct-current pulses.
★ Many TTL logic gate s are typically fabricated onto a
single integrated circuit (IC).
★ TTL ICs usually have four-digit numbers beginning with
74 or 54.
★ A TTL device employs transistors with multiple emitters in
gates having more than one input.

7400 TTL Series
★ TTL ICs first developed in 1965 and they are known as
“standard TTL” . This version of TTL circuit is not
available now.
★ TTL family use only transistor to perform the basic logic
operations.
★ The standard TTL is improved to a great extent over the
year.
★ TTL devices are still used as “glue” logic which connects
more complex devices in digital system.

TTL Sub-families
★ There are several subfamilies or series of the TTL technology
such as
★ Standard(74)
★ Low-power(74L),
★ High-speed(74H),
★ Schottky(74S),
★ Low-power Schottky(74LS),
★ Advanced Schottky (74AS),
★ Advanced low-power Schottky (74ALS).

Contd...
★ Commercial TTL ICs have a number designation that
starts with 74 and follows with a suffix that identifies the
series type. Examples are 7404, 74S86, and 74ALS161.
★ The speed-power product is an important parameter for
comparing the various TTL series.
★ This is the product of the propagation delay and power
dissipation and is measured in picojoules (pJ).

★ The propagation delay of a transistor circuit that goes into
saturation depends mostly on two factors:
○ storage time
○ RC time constants.
★ A pulse through a gate take certain amount of time from
input to output. This interval of time is known as
propagation time.

Standard TTL 74 Series
★ Offer a combination of speed and dissipation suited for
many applications.
★ The 54 series is the counterpart of 74 series.

Low Power TTL, 74L series
★ Essentially the same basic circuit as the standard 74
series except that all resistance values (R1=40k R2=20k
R3=12k R4=500) are increased.
★ Large resistance reduce the current and therefore, the
power requirement,But at the expense of reduction in
speed.
★ The power consumption of Low power TTL is about 1/10
of that of standard TTL.

High Speed TTL, 74H Series
★ Essentially the same basic circuit as the standard 74
series except that smaller resistance values (R1=2.8k
R2=760 R3=470 R4=58) are used and the emitter follower
transistor Q3 is replaced by Darlington pair and emitter to
base joining of Darlington pair (Q5-Q3) is connected to
ground through a resistor of 4k.
★ The switching speed of 74H series is approximately two
times more than that of standard TTL.

Schottky TTL, 74S Series
★ A major slowdown factor in BJTs is due to transistors
going in/out of saturation
★ Schottky diode has a lower forward bias (0.25V)
★ When BC junction would become forward biased, the
Schottky diode bypasses the current preventing the
transistor from going into saturation.

Low Power Schottky TTL, 74LS Series
★ Lower power and slower speed version of 74S series.
★ It uses the schottky clamped transistor, but with larger
resistance values than those in the 74S series.

TTL Logic Levels and Noise Margins

TTL Series
Name
TTL Series
Name Prefix
Fan-Out Power (mw)
dissipation
Propagation
Delay nSec
Speed Power
Product pJ
Standard 74 10 10 9 90
Low-Power 74L 20 1 33 33
High-Speed 74H 10 22 6 132
Schottky 74S 10 19 3 57
Low Power
Schottky
74LS 20 2 9.5 19
Advanced
Schottky
74AS 40 10 1.5 15
Advanced Low
Power Schottky
74ALS 20 1 4 4

Resistor Transistor logic
★ It has a fan-out of 5.
★ Propagation delay is
25ns.
★ Power dissipation is
12mw.
★ Noise margin for low
signal input is 0.4v.
★ Poor noise immunity.
★ lLow speed.

Diode Transistor Logic
★ It has fan-out of 8.
★ It has high noise
immunity.
12mw.
★ Propagation constant is
average 30ns.
★ Noise margin is about
0.7v.

Emitter Coupled Logic
★ Propagation delay is
very low (<1ns).
★ ECL is fastest logic
family.
★ ECL circuit usually
operate with -ive
supplies (+ive terminal is
connected to ground).

Transistor Transistor
Logic
★ TTl has greater speed
than DTL.
★ Less noise immunity.
10nw.
★ It has fan-in of 6 and fan-
out of 10.
★ Propagation time delay
is 5-15nsec.

CMOS
★ Dissipates low power,
power dissipation is
typically 10 nW per gate.
★ The propagation delays
are usually around 25 nS
to 50 nS.
★ Noise immunity
approaches 50% or 45%
of the full logic swing.

Online Sources
www.wikipedia.com
www.allaboutcircuits.com
www.electrical4u.com
Books Refered
FUNDAMENTALS OF DIGITAL CIRCUITS
By A. ANAND KUMAR

Transistor Transistor Logic

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