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!Jaiil-Pa311: Voltage Comparators

The document summarizes voltage comparators from Fairchild Linear Integrated Circuits. It describes the A111 and A311 comparators which operate from a single 5V supply and can handle input voltages up to ±30V. It provides key specifications for input bias current, offset voltage and current, voltage gain, response time and maximum ratings. Electrical characteristics are listed for both models, noting operating temperature ranges and typical/maximum values.

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144 views5 pages

!Jaiil-Pa311: Voltage Comparators

The document summarizes voltage comparators from Fairchild Linear Integrated Circuits. It describes the A111 and A311 comparators which operate from a single 5V supply and can handle input voltages up to ±30V. It provides key specifications for input bias current, offset voltage and current, voltage gain, response time and maximum ratings. Electrical characteristics are listed for both models, noting operating temperature ranges and typical/maximum values.

Uploaded by

Arun
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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!

JAIIl- pA311
VOLTAGE COMPARATORS
FAIRCHILD LINEAR INTEGRATED CIRCUITS

GENERAL DESCRIPTION - the "A111 and "A311 are monolithic, low input current Voltage Com-
parators, each constructed using the Fairchild Planar· epitaxial process. The "A111 series operates
CONNECTION DIAGRAMS
from the single 5 V integrated circuit logic supplvto the standard ±15 V operational amplifier supplies. a-PIN METAL CAN
The "A111 series is intended for a wide range of applicatons including driving lamps or relavs and (TOP VIEW)
switching voltages up to 50 V at currents as high as 50 mAo The output stage is compatible with RTl, PACKAGE OUTLINE 55
OTL, TTL and MOS logic. The input stage current can be raised to increase input slew rate. PACKAGE CODE H

• lOW INPUT BIAS CURRENT - 150 nA MAX (111),250 nA MAX (311)


• LOW INPUT OFFSET CURRENT - 20 nA MAX (111),50 nA MAX (311) V+
• DIFFERENTIAL INPUT VOLTAGE - ±30 V
• POWER SUPPLY VOLTAGE SINGLE 5.0 V SUPPLY TO ±15 V
• OFFSET VOLTAGE NULL CAPABILITY
• STROBE CAPABILITY

ABSOLUTE MAXIMUM RATINGS


Voltage Between V+ and V- Terminal. 36V
Output to V- ("A 111) SOV
("A311) 40V v-
Ground to V- 30V
Differential Input Voltage ±30 V
I nput Voltage (Note 1) ±1SV
Internal Power Dissipation (Note 2) SOOmW ORDER INFORMATION
Output Short Circuit Duration 10. TYPE PART NO.
Storage Temperature Range (Metal Can and Hermetic Mini DIP) -6S'C to·+150'C j1Al11 j1Al11HM
(Molded Mini DIP) -55'C to +125°C "A311 j1A311HC
Operating Temperature Range
Military (j1A I III _SSOC to +125°.C
Commercial (j1A31 I ) aOc to +70°C a-PIN MINI DIP
(TOP VIEW)
EQUIVALENT CIRCUIT PACKAGE OUTLINE 9T 6T
PACKAGE CODE T R
BALANCE

GND V+

+IN OUT

-IN BALANCE/
STROBE

v- BALANCE

ORDER INFORMATION
TYPE PART NO.
j1Al11 j1All1RM
j1A311 j1A311RC
j1A311 j1A311TC

·Planar is a patented Fairchild process

6-8
FAIRCHILD e1LA111 eILA311

,uA 111

ELECTRICAL CHARACTERISTICS: Vs = ot15 V, TA = -55·C to +125·C unless otherwise specified, Note 3.

CHARACTER ISTICS CONDITIONS MIN TYP MAX UNITS

Input Offset Voltage INote 4) TA = 25°C, RS'; 50 kn 0.7 3.0 mV


Input Offset Current INote 4) TA = 25°C 4.0 10 nA
Input Bias Current T A = 25°C 60 100 nA
Voltage Gain T A = 25°C 200 V/mV
Response Time INote 5) TA - 25°C 200 ns
Saturation Voltage VIN .; -5 mY, lOUT - 50 mA
TA = 25°C 0.75 1.5 V
Strobe On Current TA=25°C 3.0 mA
Output Leakage Current VIN ;> 5 mY, VOUT - 35 V
TA = 25°C 0.2 10 nA
Input Offset Voltage INote 4) RS'; 50 kn 4.0 mV
Input Offset Current INote 4) 20 nA
Input Bias Current 150 nA
Input Voltage Range ±14 V
Saturation Voltage V+ ;> 4.5 V, V- = 0
VIN .; -6 mY, ISINK'; 8 mA 0.23 0.4 V
Output Leakage Current VIN ;> 5 mY, VOUT = 35 V '0.1 0.5 }J.A
Positive Supply Current TA - 25°C 5.1 6.0 mA
Negative Supply Current 4.1 5.0 mA


TA - 25°C

,uA311

ELECTRICAL CHARACTERISTICS: Vs = ot15 V, TA = O·C to +70°C unless otherwise specified, Note 3.

CH/\R/\CTER!ST!C'S r.ONDITIONS I MIN TYP MAX UNITS

Input Offset Voltage INote 4) TA = 25°C, RS'; 50 kn 2.0 7.5 mV


Input Offset Current INote 4) TA - 25°C 6.0 50 nA
I nput Bias Current TA = 25°C 100 250 nA
Voltage Gain TA = 25°C 200 V/mV
Response Time INote 5) TA = 25°C 200 ns
Saturation Voltage VIN .; -10 mY, lOUT - 50 mA
TA = 25°C 0.75 1.5 V
Strobe On Current TA - 25°C 3.0 mA
Output Leakage Current VIN;> 10 mY, VOUT - 35 V
TA = 25°C 0.2 50 nA
Input Offset Voltage INote 4) RS'; 50 kn 10 mV
Input Offset Current INote 4) 70 nA
Jnput 8 ias Current 300 nA
Input Voltage Range ±14 V
Saturation Voltage y+;> 4.5 V, V -0
VIN'; -10 mY, ISINK'; 8 mA 0.23 0.4 V
Positive Supply Current TA = 25°C 5.1 7.5 mA
Negative Supply Current TA = 25°C 4.1 5.0 mA

NOTES:
1. This rating applies for ± 15 V supplies. The positive input voltage limit is 30 V above the negative supply. The negative input voltage limit is
equal to the negative supply voltage or 30 V below the positive supply, whichever is less.
2. Rating applies to ambient temperatures up to 70°C. Above 70°C ambient derate linearly at 6.3 mW/oC for metal can; 8.3 mW/oC for
mini DIP.
3. The offset voltage, offset current and bias current specifications apply for any supply voltage from a single 5 V supply up to ±15 V supplies.
4. The offset voltages and offset currents given are the maximum values required to drive the output within a volt of either supply with a
1 mA load. Thus, these parameters define an error band and take into account the worst case effects of voltage gain and input impedance.
5. The response time specified (see definitions) is for a 100 mV input step with 5 mV overdrive.

6-9
FAIRCHILD· {LA111 • JLA311

TYPICAL PER FORMANCE CURVES FOR J.lA 111

INPUT BIAS CURRENT INPUT OFFSET CURRENT OFFSET VOLTAGE


AS A FUNCTION OF AS A FUNCTION OF AS A FUNCTION OF
TEMPERATURE TEMPERATURE INPUT RESISTANCE
1--+-+---1-+-+-+~vs ~ ±15 V ~TA"25'C

i
, MAXIMUM

20 I-~I__
0

,t-+-t-t--t--t-H
TYPICAL

t;;
~ , V
~

5 25 45 65
--
~S~S-=~~~~2S--4~'-=6S~8~'--1O=S~'2S
o ,,,, lilliiVOrri'ii'
TEMPERATURE _ 'c TEMPERATURE _ °c INPUT RESISTANCE-a

·Pins 5,6 and 8 are shorted.

INPUT BIAS CURRENT COMMON MODE LIMITS OUTPUT VOLTAGE


AS A FUNCTION OF AS A FUNCTION OF AS A FUNCTION OF
DIFFERENTIAL INPUT VOLTAGE TEMPERATURE DIFFERENTIAL INPUT VOLTAGE
v'r-~-r-r-'--r-'--r-'-'
r-=~:;~yReg~ToA'-;;G;;ES!-+-+-f---+--l 60 _NJRMALIOUTP~T."t--+_t-+---1
-0.5 1-+--+---1-+-+--+-t-+--1 50 _~;+=g';Oe

V~5LS-_.135--!-...L-,L2S--4L,--:',,~':--:"::-.,-J
DIFFERENTIAL INPUT VOLTAGE - V TEMPERATURE -'C DIFFERENTIAL INPUT VOLTAGE - mV

OUTPUT SATURATION VOLTAGE SUPPLY CURRENT LEAKAGE CURRENTS


AS A FUNCTION OF AS A FUNCTION OF AS A FUNCTION OF
OUTPUT CURRENT TEMPERATURE TEMPERATURE

VS~±I~V

~ ~TlVE SUPPLY-_
- r-
~ DjPUTtOW I
......,...,J~

-
4

I POS1~\V~
I-- I-- r- NEGATIVE SUPPLY- F
t-
2r- t-- I- I OUTrUT H(GH 1- - r-
o I
55 5 25 45 as
OUTPUT CURRENT - mA TEMPERATURE -'C

6-10
FAIRCHILD e/LA111 e/LA311

TYPICAL PERFORMANCE CURVES FOR J.lA311

INPUT BIAS CURRENT INPUT OFFSET CURRENT OFFSET VOLTAGE


AS A FUNCTION AS A FUNCTION AS A FUNCTION
OF TEMPERATURE OF TEMPERATURE OF INPUT RESISTANCE

AAIS;O;-- _ _

/ "ll'i U
"

1--+--+----- 1--1-- O~. ~TYPICAL

NORMAL

INPUT RESISTANCE -,Q

* Pins 5, 6 and 8 are shorted.


INPUT BIAS CURRENT COMMON MODE LIMITS OUTPUT VOL TAGE
AS A FUNCTION OF AS A FUNCTION AS A FUNCTION OF
DIFFERENTIAL INPUT VOLTAGE OF TEMPERATURE DIFFERENTIAL INPUT VOLTAGE

~+4~++~r+1-~'vs~,isJ- ~ ~~~:~A~g~~A·-CG~"C--+-+---+--1 VS~30V -+--+-+--+--t---I


T A =25"C
-0.5 f--+-+-f-+-+---+--1 50 TA -25Q C , _ + - - + _

f-+--+-+--+- RL ~ lk

r
f


EMITTER
FOLLOWER I
20 ~~~p~ n -p.."o+-I-+--+--I
I\.

~'~6~,,~~~~-t-L7~~~~­ ~,L._o_""..1-.....1....I.L.....I~""'..J.--,J

DIFFERENTIAL INPUT VOLTAGE - V TEMPERATURE c DIFFERENTIAL INPUT VOLTAGE -mY

. . . . . . . . . . . . . . . . . . . . . . . . . . . . l . f " , . . . . . . . . . . . ...
... _ I un_ I 'V'" Y V ... l,....t.:IIL..

AS A FUNCTION AS A FUNCTION AS A FUNCTION


OF CURRENT OF TEMPERATURE OF TEMPERATURE
t--VS1~t15V

f-- -
~ ......
f-- POSITIVE SUPPLY
OUTPUT LOW

I- I-t-
r--r-- po~ NEGATIVE SUPPLY

I-- r-- OUTPrHIGI r-- -


°o~~~~~~~~~~~~~ o I I
o
OUTPUT CURRENT - mA TF.MPERATURE-·"C TEMPERATURE -'C

TYPICAL APPLICATIONS
INCREASING INPUT
OFFSET NULL CIRCUIT STROBE CIRCUIT STAGE CURRENT*

HH--Ov.

1kQ

OFFSET BALANCING STROBING -=-


,. Increases typical common mode slew rate
from 7.0 V/lJs to 18 V/J,ls.

6-11
FAIRCHILD· f,LA111 • f,LA311

TYPICAL APPLICATIONS (Cent'd)

ADJUSTABLE LOW VOL TAGE ZERO CROSSING DETECTOR


REFERENCE SUPPLY POSITIVE PEAK DETECTOR DRIVING MOS LOGIC

·Solid tantalum ·Solid tantalum

DIGITAL STROBING OF BOTH INPUT


NEGATIVE PEAK DETECTOR TRANSMISSION ISOLATOR AND OUTPUT STAGES

·Solid tantalum
-Typical input current is 50 pA
with inputs strobed off.

PRECISION PHOTODIODE COMPARATOR RELAY DRIVER WITH STROBE SWITCHING POWER AMPLIFIER
A1

3.9k >5V e "'10


k

R4
Cl 47
O.II'F

• A2 sets the comparison level.


At comparison, the photodiode has • Absorbs inductive kickback of relay
less than 5 mV across it, decreasing and protects I C from severe voltage
leakages by an order of magnitude. transients on V++ line.

SWITCHING POWER AMPLIFIER


v.
R1 .)Q, Q2l..- R12
2N6125 2N6125
620 620

,
OUTPUT

3 6
R2
620
I Rll
620 h
6 3

/J.Al~ ~ltAl11

'r-
Q3 Q'
2N6121

1" R3
620
l N6121

r RlO
620

R5
610
R4

300k
R6
39k
1 R9
39k
R13

lOOk
R14
510 R6
16k
INPUT

ti'O.221olF R7

15k
REFERENCE

6-12

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