integrated circuit1
TRANSCRIPT
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
Integrated Circuits
Module 1
Logic Families - DTL - TTL - ECL - I2L & CMOS. Comparison of circuits. Tristate logic -
Propagation delay - power dissipation - Noise margin window profile - comparison -Fan in -
Fan out.
Diode Transistor Logic
This is simple DTL Nand gate but this works only marginally
If all inputs are high,the diodes are reverse biased and so no current flows thru themcurrent goes to transistor and the transistor saturates and VOUT goes low.
If any input goes low, the base current is diverted out through the input diode. Thetransistor cuts off and VOUT goes high.
This is a NAND gate. n The gate works marginally because VD = VBEA = 0.7V.
If all inputs are high, Vx = 2.2V and the transistor is saturated. If any input goes low (0.2V), Vx=0.9V, and the transistor cuts off.
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
The added resistor RD provides a discharge path for stored base charge in the BJT, toprovide a reasonable tPLH.
TTL-Transistor Transistor Logic
Depends only on transistor to perform logic operation Most popular and widely used Here transistor operates in saturated mode Here basic gate used is NAND
ADVANTAGES
Good speed Low manufacturing cost Wide range of circuits Availability in ssi and msi
DEMERITS
Tight Vcc tolerance Relatively high power consumption Moderate packing density Generation of noise spikes Susceptible to power transients
SUBFAMILIES:Std TTL ,High speed TTL ,low power TTL, Schottky TTL ,Low power Schottky
TTL, Advanced Schottky TTL
STD TTL CHARACTERISTICS
Propagation delay=9 ns
5V 0 V to 0.8V=logic 0
2 V High 2 V to 5 V=logic 1
0.8V Low
Noise Margin=0.4 mv
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
Fan in=8, Fan out=10
TWO INPUT TTL NAND GATE
Q1- Multi emitter Transistor, Q2- Phase Splitter
Q3 sits above Q4.This is called a Totempole arrangement
Diodes D1 and D2 protect Q1 from being damaged byve spikes of voltage at input
Whenve spikes appear ,diodes become forward biasedand conduct spikes to
Ground
Diode D: ensures that Q3 and Q4 do not conduct simultaneously
Q3:acts as an emitter follower
WORKING
Case 1:When both i/ps are high :
both BE junctions of multiemitter Q1 are reverse biased.So no current flows thru
emitter of Q1.
CB junction is forward biased.thus current flows thru R1 to base of Q2 and Q2 turns
on
Current thru Q2s emitter flows into the base of Q4 and so Q4 =ON
The collector current of Q2 flows thru R2 and so produces a drop across it thereby
reducing the voltage at collector of Q2
Thus Q3=OFFSince Q4 is ON,Vo is at low level
Output=LOGIC 0
Case 2:when either A or B or both are low:
BE junctions of Q1 are forward biased.So current flows to ground through
emitter.(here CB jns are R.B.)
Thus base of Q1 is at 0.7V which cannot forward bias the BE jn of Q2
Therefore Q2 is OFF.
Since Q2 is off,Q4 does not get required base drive .Thus Q4 =OFF
Q3 gets enough base current bcoz Q2 is off(Since no current flows into collector of
Q2,all current flows into base of Q3 and Q3=ON.
V o/p=Vcc Vr2VBE3 VD =3.4 to 3.8 V=LOGIC HIGH
When Q4 is off,no current flows through it,but here there is a voltage of 3.4 to 3.8 V
across the stray and o/p capacitances b/w C & E of Q4. Therefore it gets charged to
3.4 to 3.8 V
TOTEMPOLE O/P
Q3 sits above Q4=TOTEMPOLE
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
At any time only one will be conducting.This is ensured by diode D Q4=ON..VBE OF Q4=0.7.Since Q4 gets base drive from Q2
ADVANTAGE OF TOTEMPOLE:Even though ckt can work with Q3 and D removed,by connecting R4 directly to
collector of Q4,power dissipation increases. Inclusion of Q3 and D makes the current
thru R4=0 in o/p low state.thus power dissipation decreases
In o/p high state ,Q3 acts as an emitter follower with its associated low o/p
impedance.The low o/p impedance provides a small time constant for charging up
any capacitive load on the o/p
Thus active pullup reduces current in LOW STATE and provides very fast rise time
waveforms in HIGH state
Current Sinking
A TTL ckt acts as current sink in
low state ie it receives current
from i/p of the gate driving it.
Since Q4 is in on state a large
current can flow thru it to
ground .So it acts as a sink for
input current of load gate
Q4 is the current sinking
transistor or pull down
transistor coz it brings o/p to its
low state.
CURRENT SOURCING:
A TTL ckt acts as a current source in HIGH state in that it supplies current to the gate it is driving.Q3
is the current sourcing transistor or pull up transistor bcoz it pulls up the o/p voltage to its high
state
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
TTL LOADING AND FAN OUT
There is a limit on the amount of current a TTL o/p can sink in Low state(IOLmax )source in HIGHstate(IOHmax).Using these limits we can find fan out ie max no of i/ps that can be connected to a ttl
o/p
HIGH state fanout= IOHmax /IIH
LOW state fanout = IOLmax /IIL
The smaller of these 2 values is taken as actual fan out capability.
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NOTE:there are 3 configurations for TTL
1. Totempole2. Open collector3. TristateOPEN COLLECTOR
In open collector,the o/p is at Q4 with nothing connected to it( i.e.the pullup transistor Q3 and
diode D are omitted)i.e the active pull up of totempole is not present.Instead only an external
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
resistor R is connected to Vcc from collector of Q4.Since R is a passive element,this is called
passive pull up.
WIRED AND OPERATION
Sometimes the o/p of a no of NAND gateshave to be AND ed.To achieve this we will need 2
more nand gates.Wheras the same thing can be performed by simply tying the o/ps of NAND
gates 1,2,3 as shown in fig.This is called Wired AND operationbcoz the and is obtained by simply
connecting o/p wires together
With this,when any of the gate o/ps go to a low state.the common o/p point also goes LOW as a
result of shorting to ground through ON transistor
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
TRISTATE TTL:
It utilizes the advantage of high speed of totempole and wire ANDing of open collector
configuration.It is called tristate TTL bcoz it allows three possible o/p states:HIGH, LOW,HIGHIMPEDANCE (Hi-Z) state.
In hi-z state:
both the transistors in totempole arrangement are turned off,so that o/p terminal is a highimpedance to ground or Vcc.
The o/p acts like an open or floating terminal which is neither a HIGH nor LOWIt is not exactly an open ckt,but has a very resistance (in M range) w.r.t ground or Vcc
The circuit has two i/ps-A is the normal logic i/p and E is an enable i/p that can produce the Hi-Z
state.There are 2 states for operation based on the E i/p
1. The Enabled state(E=1)Here the ckt works as a normal inverter bcoz the high voltage of E has no effect on Q1 or
Q2
2. The Disabled State(E=0)When E=0,the circuit goes into its Hi-Z state regardless of the state of Logic i/p A. i.e in
this state the changes in A does not affect the o/p.The Low at E forward biases the
emitter base junction of Q1 and shunts current in R1 away from Q2
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
I2L-integrated Injection logic
Newest of logic families Used in LSI and VLSI Constructed using only bipolar transistors Absence of resistors makes it possible to intergrate a large no of gates on a single
package.So complete microprocessors are obtained on a single chip
Easily fabricated economical(low cost) Low power consumption(since no R) Speed power product is a constant and very small 4 picojoule Tpd=1 ns PD=1mW
Noise Margin=0.35 Fan out=8 Dis adv-It requires one more step in manufacturing than Mos
I2L Inverter
Some discrete gates are not available in I2L.The opn of an I
2L inverter can be explained using this fig
which behaves in same way as an I2L inverter.The p-n-p transistor Q1 serves as a constant current
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
source that injects current into node X.The direction in which current flows after entering node X
depends on i/p level.
A low i/p is a current sink.
When i/p =low,injected current flows into i/p,thus diverting currents from the base
of Q2. Thus Q2 is off and o/p is HIGH.
A HIGH i/p acts as a current source.
The injected current flows into base of Q2turning it ON and making the o/p LOW
The o/p transistor has two collectors making it equivalent to two transistors withparallel base and emitters.Thus it produces two equal o/ps.Instead of a collector
resistor,o/ps r connected directly to i/ps of other I2L gates.
I2L NAND gate
The I2L NAND gate is simply an inverter with i/ps connected directly together at the inverter i/p.
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
If either i/p A or both A and B are LOW(current sinks),the injected current flows
intop the i/ps and Q2 remains OFF(HIGH)
If both the i/ps are HIGH,the injected current turns on Q2 making the o/p LOW
This is how NAND operation is performed
I2L NOR
The I2L NOR is simply two inverters with their o/ps connected together.
If either or both i/ps are HIGH,the corresponding o/p transistor is ON and o/p is acurrent
sink i.e. o/p=LOW
If both the i/ps are LOW,both the o/p transistors are OFF. i.e o/p= HIGH
ECL-Emitter coupled logic
Also called current mode logic or current steering logicIt is the FASTEST of all logic families due to following reasons.
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
1. It is a non saturated logic i.e. transistors are not allowed to go into saturation.Sostorage time delays are eliminated and speed of operation increases
2. Currents are kept high and the o/p impedance is so low that circuit and straycapacitances can be quickly charged and discharged
3. Limited voltage swing.It is called Emitter coupled logic bcoz here the emitters of two BJTs are joined(coupled) at their
emitters.Transistors are prevented from going into saturation when i/p changes from LOW to HIGH
by choosing logic levels very close to each other
DISADVANTAGES:
1.Difficult to achieve good noise immunity(low noise margin)
2. Power consumption increased since transistors are not saturated
3.High cost
4.Its negative supply voltage and logic levels are not compatible with other families
5.Problem of cooling the heat produced by high power dissipation
ADVANTAGES:
1.Current drawn is steady
2.ECL gated dont experience large switching transients
WORKING: Operates on the basis of current switching,where a fixed bias current less than Ic(sat) is
switched from one transistors collector to another
Metal Oxide Semiconductor Logic(MOS)
It requires only one basic element i.e. an NMOS or PMOS or CMOS.There are no resistors and
diodes,which occupy large space.Thus they are simple to fabricate and require only a small space
Comparison with Bipolar Logic Families
Advantage
1. Simpler2. Inexpensive to fabricate3. Require less power4. Have better Noise Margin5. Greater supply voltage range6. Higher Fan out7. Much Lesser chip area reqdDisadvantage
8. Slower in operating speed
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
9. Susceptible to static charge damageUses
1.In LSI,VLSI and ULSI for Large memories,calculator chips,large microprocessors due to its ease
of fabrication and large packing density.It is slower than TTL so hardly used in MSI and SSI
CMOS
The CMOS family uses both P and N channel MOSFETS in the same ckt to realize several
advantages over PMOS and NMOS.
It is faster and consumes less power than other MOS families.There is always a highresistance b/w b/w VDD Terminal and ground,bcoz of MOSFET in current path.
This results in very low power consumption
it has increased complexity and lower packing density than NMOS and PMOS. It can be operated at higher voltage resulting in increased noise immunity:
Noise margin is the same in both HIGH and LOW states .NM=30%VDD,indicating that
noise margin increases with an increase in power supply.So in noisy
environments,CMOS with large Vdd is preferred
It draws almost zero current from driving gate.So fanout is very high Very small o/p resistance compared to NMOS Speed of CMOS decreases with increase in load.
CMOS Inverter
It consists of an NMOS transistor Qn and a PMOS transistor Qp.The i/p is connected to the gates of
both the devices.The +ve supply voltage is connected to source of PMOS and source of NMOS is
grounded
When Vin =0 V(LOW), VGSn=-5 V and VGSp=0 V .So Qp is ON and Qn=OFF.Thus Vout=5 V When Vin=+5V(HIGH), VGSn=0 V and VGSp=+5 V.So Qp isOFF and Qn=ON.Thus Vout=0 V
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out
CMOS NAND
Here Q1 and Q2 are parallel connected PMOS transistors and Q3 and Q4 are series connected
NMOS.
When A=0 V and B=0 V,VGS1=VGS2=-5 V
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Mod 1:Logic Families - DTL-TTL-ECL-I2L & CMOS. Comparison of circuits. Tristate logic-
Propagation delay-power dissipation-Noise margin window profile-comparison-Fan in,Fan out