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Chap.10 Digital Integrated Circuits
Content
10-1 Introduction
10-2 Feature
10-3 Feature of BJT
10-4 RTL and DTL
10-5 TTL
10-6 ECL
10-7 MOS
10-8 CMOS
10-9 MOS transmission gate
10-1 Introduction — Logic IC
ASIC:
Application Specific Integrated Circuits
10-1 Introduction
 IC digital logic families
– RTL (Resistor-transistor logic)
– DTL (Diode-transistor logic)
–
–
–
–
TTL (Transistor -transistor logic)
ECL (Emitter-coupled logic)
MOS (Metal-oxide semiconductor)
CMOS ( Complementary
Metal-oxide
semiconductor)
Positve logic and Negative logic
Positive logic: H is set to be binary 1
Negative logic: L is set to be binary 1
10-2 Feature
 The feature to be concerned of IC logic families:
– fan-out
• The no. of standard loads can be connected to the output of the gate
without degrading its normal operation
• Sometimes the term loading is used
– Power dissipation
• The power needed by the gate
• Expressed in mW
– Propagation delay
• The average transition-delay time for the signal to propagate from
input to output when the binary signal changes in value
– Noise margin
• The unwanted signals are referred to as noise
• Noise margin is the maximum noise added to an input signal of a
digital circuit that does not cause an undesirable change in the
circuit output
Computing fan-out
I OH I OL
Fan  out  min(
,
)
I IH I IL
Computing fan-out ( High-level output)
William Kleitz
Digital Electronics with VHDL, Quartus®
II Version
Copyright ©2006 by Pearson Education, Inc.
Upper Saddle River, New Jersey 07458
All rights reserved.
Computing fan-out ( Low-level output)
William Kleitz
Digital Electronics with VHDL, Quartus®
II Version
Copyright ©2006 by Pearson Education, Inc.
Upper Saddle River, New Jersey 07458
All rights reserved.
Power dissipation
I CCH  I CCL
I CC (avg) 
2
PD (avg)  I CC (avg)  VCC
For standardTTL
I CCH  1mA, I CCL  3mA
PD (avg)  ?
Total PD (avg) in IC 7400  ?
Propagation delay
50% VH
50% VH
50% VH
For standard TTL t PHL  7 ns, t PLH  11ns
t P (avg)  ?
50% VH
Other delay times
–Rise Time
• from 10% up to 90% level
–Fall Time
• from 90% down to 10% level
Noise margin
Noise margin
High-state noise margin=0.4
Low-state noise margin=0.4
10-3 Feature of BJT
BJT
–
–
–
–
npn or pnp
Si or Ge
Si is used mainly
npn is most popular
Table 10-1
Typical npn Transistor Parameters
Region
VBE (V)
VCE (V)
Current
Relation
Cutoff
< 0.6
Open
circuit
IB=IC=0
Active
0.6-0.7
> 0.8
IC =hFEIB
Saturation
0.7-0.8
0.2
IB ≥IC/hFE
Feature of npn-type BJT
RC  1k, VCC  5V
RB  22k, H  5V
hFE  50,
L  0.2V
FindVo  ?
for Vi  L and Vi  H
Diode – symbol and characteristic
10-4 RTL and DTL circuits
 RTL
– Resistor TL
– L: 0.2V, H: 1~3.6V
 DTL
– Diode TL
– L: 0.2V, H: 4~5V
RTL--NOR
DTL--NAND
Modified DTL
10-5 Transistor-Transistor Logic (TTL)
 The original basic TTL gate was a slight
improvement over the DTL gate.
 There are several TTL subfamilies or series of the
TTL technology.
 Eight TTL series appear in Table 10-2.
 Has a number start with 74 and follows with a
suffix that identifies the series type, e.g 7404,
74S86, 74ALS161.
 Three different types of output configurations:
– 1. open-collector output
– 2. Totem-pole output
– 3. Three-state (or tristate) output
Open-collector TTL Gate
Wired-AND of Two Open-Collector
Open-Collector Gates Forming a Common
Bus Line
In this case
Y=?
TTL Gate with Totem-Pole Output
Schottky TTL Gate
Three-state TTL Gate
10-6 Emitter-Coupled Logic (ECL)
 Nonsaturated digital logic family
 Propagation rate as low as 1-2ns
 Used mostly in high speed circuits
 Noise immunity and power dissipation is the
worst of all logic families.
 High level -0.8V, Low level -1.8V
 Including
– Differential input amplifier
– Internal temperature and voltage compensated bias
network
– Emitter-follower outputs
ECL Basic Gate
Graphic Symbols of ECL Gates