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Digital Logic Families - CLASSE

V OH (min) – The minimum voltage level at an output in the logical “1” state under defined load conditions V OL (max) – The maximum voltage level at an output in the logical

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Digital Logic Families

PHYS3360/AEP3630

Lecture 26

1

Overview

•Integration, Moore's law •Early families (DL, RTL) •TTL •Evolution of TTL family •ECL •CMOS family and its evolution

Overview

2

Integration Levels

•Gate/transistor ratio is roughly 1/10 -SSI< 12 gates/chip -MSI< 100 gates/chip -LSI...1K gates/chip -VLSI...10K gates/chip -ULSI...100K gates/chip -GSI...1Meg gates/chip 3

Moore's law

•A prediction made by Moore (a co-founder of Intel) in

1965: "... a number of transistors to double every 2

years." 4

In the beginning...

Diode Logic (DL)

•simplest; does not scale •NOT not possible (need an active element)

Resistor

-Transistor

Logic (RTL)

•replace diode switch with a transistor switch •can be cascaded •large power draw 5 was... Diode -Transistor Logic (DTL) •essentially diode logic with transistor amplification •reduced power consumption •faster than RTL

DL AND gateSaturating inverter

6 V OH (min) -The minimum voltage level at an output in the logical "1" state under defined load conditions V OL (max) -The maximum voltage level at an output in the logical "0" state under defined load conditions V IH (min) -The minimum voltage required at an input to be recognized as "1" logical state V IL (max) -The maximum voltage required at an input that still will be recognized as "0" logical state

Logic families: V levels

V OH V IH V OL V IL 7 I OH -Current flowing into an output in the logical "1" state under specified load conditions I OL -Current flowing into an output in the logical "0" state under specified load conditions I IH -Current flowing into an input when a specified HI level is applied to that input I IL -Current flowing into an input when a specified LO level is applied to that input

Logic families: I requirements

V OH V IH V OL V IL I OH I IH I OL I IL 8 Fanout: the maximum number of logic inputs (of the same logic family) that an output can drive reliably

Logic families: fanout

DC fanout= min( )

ILOL IHOH II II, 9

Logic families: propagation delay

T PD,HL T PD,LH T PD,HL -input-to-output propagation delay from HI to LO output T PD,LH -input-to-output propagation delay from LO to HI output Speed -power product: T PD P avg 10

Logic families: noise margin

V NH V NL

HI state noise margin:

V NH = V OH (min) -V IH (min)

LO state noise margin:

V NL = V IL (max) -V OL (max)

Noise margin:

V N = min(V NH ,V NL 11 TTL

2-input NAND

Bipolar Transistor

-Transistor Logic (TTL) •first introduced by in 1964 (Texas Instruments) •TTL has shaped digital technology in many ways •Standard TTL family (e.g. 7400) is obsolete •Newer TTL families still used (e.g. 74ALS00)

Distinct features

•Multi-emitter transistors •Totem-pole transistor arrangement •Open LTspice example:

TTL NAND...

12

TTL evolution

Schottky series (74LS00) TTL

•A major slowdown factor in BJTs is due to transistors going in/out of saturation •Shottky 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 13

TTL family evolution

Legacy: don't use

in new designsWidely used today 14 ECL

Emitter

-Coupled Logic (ECL)

PROS: Fastest logic family available (~1ns)

•CONS: low noise margin and high power dissipation •Operated in emitter coupled geometry (recall differential amplifier or emitter-follower), transistors are biased and operate near their Q-point (never near saturation!) •Logic levels. "0": -1.7V. "1": -0.8V •Such strange logic levels require extra effort when interfacing to TTL/CMOS logic families. •Open LTspice example: ECL inverter... 15 CMOS

Complimentary MOS (CMOS)

•Other variants: NMOS, PMOS (obsolete) •Very low static power consumption •Scaling capabilities (large integration all MOS) •Full swing: rail-to-rail output

Things to watch out for:

-don't leave inputs floating (in TTL these will float to

HI, in CMOS you get undefined behaviour)

-susceptible to electrostatic damage (finger of death) •Open LTspice example: CMOS NOT and NAND... 16

CMOS/TTL power requirements

•TTL power essentially constant (no frequency dependence) •CMOS power scales as f C V 2 •At high frequencies (>> MHz) CMOS dissipates more power than TTL •Overall advantage is still for CMOS even for very fast chips -only a relatively small portion of complicated circuitry operates at highest frequencies frequencysupply volt. eff. capacitance 17

CMOS family evolution

obsolete •Reduction of dynamic losses through successively decreasing supply voltages:

12V5V3.3V2.5V1.8V

CD4000LVC/ALVC/AVC

•Power reduction is one of the keys to progressive growth of integrationGeneral trend: 18

Overview

TTL Logic

Family

CMOS •Values typical for V cc /V dd = 5V •When interfacing different families, pay attention to their input/output voltage, current (fanout) specs. T PD T rise/fall V

IH,min

V

IL,max

V

OH,min

V

OL,max

Noise

Margin

19

Life-cycle

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