Edge Index by Function
Here is the new Special Function Analog and Digital Circuits data book. It contains detailed information for specifying and applying special amplifiers, buffers, clock drivers and analog switches.
For information regarding newer devices introduced since the printing of this handbook, or for further information on the listed parts, please contact our local representative, distributor or regional office.
Amplifiers Buffers Sample and Hold Amplifiers Comparators Analog Switches M os Clock Drivers Digital Drivers Power Supplies Physical Dimensions
Manufactured under one or more of the followIng U,S. patents, 3083762, 3189758, 3231797. 3303356, 3317671. 33.23071. 3381071, 3408542,3421025,3426423.3441)498 35187503519897 3557431 3560765 3566218,3571630,3575609,3579059.3593069.3597640.3607469,3617859,36313J2.3633052.3638131,3648071, 3651565,3693248. . . , , . National does not assume any responSibility Jor use of any CIIeurtf}' descrIbed, no CHCult paten! licenses are rmpi,eo; and Na~,onal reserves Ihe righi, al any time Without nQtl~e, to change $310 elrel/'try.
Ordering Information
For available packages, consult each data sheet. Then refer to the package drawings in the back of the catalog.
The ordering information for National devices covered in this catalog is as follows:
LH 0033 G
- r - - ; - - - , - -
L -_ _ _ _ _ _ _ PACKAGE
L -_ _ _ _ _ _ _ _ _ _ DEVICE NUMBER
L -_ _ _ _ _ _ _ _ _ _ _ _ DEVICE FAMILY
DEVICE FAMILY
AH - Hybr id Analog Switch AM - Monolithic Analog Switch DH - Hybrid Digital Driver LH _. Hybrid Linear Circuit MH - Clock Driver PSM -- Power Supply Module SHM - Sample and Hold Module DEVICE NUMBER
4, 5, or 6 digit number.
Suffix Indicators:
A - Improved Electrical Specification C - Reduced Temperature Range
PACKAGE
D -- Glass/Metal Dual-In-Line Pack2ge F - Flat Package
G - TO-S (12 lead) Metal Can H - TO-5 (multi-lead) Metal Can J - Glass/Glass Dual-I n-Line Package N- Molded Dual-In-Line Package
iii
Table of Contents
Edge Index by Function . . . .
Ordering Information. . . .. . . . . . iii
Alpha-Numerical Index. . . .. vii
Military Hybrid Op Amp Selection Guide. . . . . . . . .. ix
Industrial Hybrid Op Amp Selection Guide . . . . x
Commerical Hybrid Op Amp Selection Guide . . . .. xi
FET Op Amp Cross Reference Guide. . . . . . . . .. xii
Analog Switch Cross Reference Guide . . . . xiii
Application Note Guide. . . .. xiv AMPLIFIERS - SECTION 1
LHOOOl Low Power Op Amp . . . .. . . . . . LH0001A/LH0001AC Micropower Op Amp.
LH0003/LH0003C Wide Bandwidth Op Amp . . . .
LH0004/LH0004C High Voltage Op Amp ... . . . . . . LH0005/LH0005A Wide Band Op Amp . . . . . . . LH0005C Wide Band Op Amp . . . .
LH0020/LH0020C High Gain Instrumentation Amp. . . .. . . . . . LH0021/LH0021C 1.0 Amp Power Op Amp . . . .
LH0022/LH0022C High Performance FET Op Amp. . . . . . . LH0024/LH0024C High Slew Rate Bipolar Op Amp. . . . . . . LH0032/LH0032C High Slew Rate FET Op Amp . . . .
LH0036/LH0036C Low Power Instrumentation Amp . . . _ . . . . LH0041/LH0041C 0.2 Amp Power Op Amp . . . . LH0042/LH0042C Low Cost FET Op Amp . . . .
LH0045/LH0045C Two Wire Transmitter . . . . LH0052/LH0052C Precision FET Op Amp. . . .. . . . . . LH0061/LH0061C 0.5 Amp Wide Band Op Amp. . . . . . . LH0062/LH0062C High Speed FET Op Amp . . . . . . . LH740A/LM740AC FET Op Amp . . . .
LH2101A/LH2201A/LH2301A Dual LM101A. . . . . . . LH210B/LH220B/LH230B Dual LM10B . . . . LH210BA/LH220BA/LH230BA Dual LMlOBA
LH24250/LH24250C Dual LM4250 BUFFERS - SECTION 2
LH0002/LH0002C Current Booster . . . .. . . . . .
LH0033/LH0033C Fast FET Buffer . . . . . . . . LH0063/LH0063C Damn Fast FET Buffer . . . .
LH2110/LH2210/LH2310 Dual LM110 . . . . SAMPLE AND HOLD AMPLIFIERS - SECTION 3
LH0023/LH0023C Precision Sample And Hold. . . . .. . . . . . LH0043/LH0043C Fast Sample And Hold . . . .
LH0053/LH0053C Very Fast Sample And Hold . . . . SHM6401 Complete Sample And Hold . . . .
1-1 1-4 1-7 1-9 1-12 1-15 1-17 1-19 1-26 1-33 1-36 1-41 1-19 1-26 1-49 1-26 1-60 1-63 1-69 1-71 1-73 1-73 1-75
2-1 2-4 2-4 2-15
3-1 3-1 3-9 3-15 COMPARATORS - SECTION 4
LH2111/LH2211/LH2311 Dual LM111 . . . . .. 4-1
v
vi
ANALOG SWITCHES - SECTION 5
AH0014(AH0014C DPDT MOS FET Switch AH0015(AH0015C Quad SPST MOS FET Switch AH0019(AH0019C Dual DPST MOS FET Switch AH0120 Series JFET Switches . . . . AH2114(AH2114C DPST JFET Switch . . . . AH5009 Series Low Cost JFET Switches AM1000 High Speed JFET Switch . . . . AM100l High Speed JFET Switch . . . .
AM1002 High Speed JFET Switch . . . . AM2009(AM2009C Six Channel MaS Multiplexer AM3705(AM3705C Eight Channel MOS Multiplexer.
MM450(MM550 Dual Differential MOS FET Switch.
MM451(MM551 Four Channel MaS FET Switch.
MM452(MM552 Four Transistor MOS FET Package MM454(MM554 Four Channel MaS FET Commutator.
MM455(MM555 Three Transistor MOS FET Package MM4504(MM5504 Six Channel MOS Multiplexer ...
MOS CLOCK DRIVERS - SECTION 6
MH0007(MH0007C DC Coupled MOS Clock Driver MH0009(MH0009C DC Coupled Two Phase Clock Driver MH0012(MH0012C High Speed Clock Driver
MH0013(MH0013C Two Phase Clock Driver
MH0025(MH0025C Low Cost Two Phase Clock Driver.
MH0026(MH0026C 5 MHz Two Phase Clock Driver ...
MH7803(MH8803 Two Phase Oscillator(Clock Driver MH8808 Dual High Speed Clock Driver
DIGITAL DRIVERS - SECTION 7 DH0006(DH0006C 1.5 Amp Relay(Lamp Driver DH0008(DH0008C 3 Amp Relay(Lamp Driver DH0011/DHOOllC 40V. 250 mA Driver.
DH0016C 70V, 250 mA Driver ..
DH0017C 50V, 500 mA Driver ..
DH0018C 100V, 500 mA Driver DH0028C Hammer Driver.
DH0034(DH0034C High Speed Dual Level Translator DH0035(DH0035C Pin Diode Driver
DH3467C Quad PNP Core Driver DH3725C Quad NPN Core Driver DH6376C Quad NPN Core Driver POWER SUPPLIES - SECTION 8
PSM6501 115V, 100 mA Power Supply.
PHYSICAL DiMENSIONS - SECTION 9
-. . . . . 5·1 5·1 5·1 5-4 5·11 513 5·20 520 5·20 5·22 5·24 5·27 5·27 5·27 5·31 5·27 5·22
6·1 6·3 6·5 6-7 6·11 6·14 6·23 627
7·1 7-4 7-7 710 710 7-10 7·13 7·15 7·18 7·20 7·22 724
8-1 9-1
Alpha-Numerical Index
AH0014/AH0014C DPDT MOS FET Switcll
AH0015/AH0015C Quad SPST MOS FET Switch ....
AH0019/AH0019C Dual DPST MOS FET Switch.
AH0120 Series JF ET Switches . . . . AH2114/AH2114C DPST JFET Switch
AH5009 Series Low Cost JF ET Switches . . . . AM1000 High Speed JFET Switch ..
AM100l High Speed JFET Switch . . . . AM1002 High Speed JFET Switch.
AM2009/AM2009C Six Channel MOS Multiplexer AM3705/AM3705C Eight Channel MOS Multiplexer ...
DH0006/DH0006C 1.5 Amp Relay/Lamp Driver DH0008/DH0008C 3 Amp Relay/Lamp Driver DHOOll/DHOOllC 40V, 250 mA Driver . . . . DH0016C 70V, 250 mA Driver. . . . . . . . DH0017C 50V, 500 mA Driver . . . .
DH0018C 100V, 500 mA Driver
DH0028C Hammer Driver . . . . DH0034/DH0034C High Speed Dual Level Translator
DH0035/DH0035C Pin Diode Driver . . . . DH3467C Quad PNP Core Driver . . . .
DH3725 Quad NPN Core Driver
DH6376 Quad NPN Core Driver . . . .
LHOOOl Low Power Op Amp . . . . LH0001A/LH0001AC Micropower Op Amp . . . . LH0002/LH0002C Current Booster . . . . . . . LH0003/LH0003C Wide Bandwidth Op Amp . . . . . . . LH0004/LH0004C High Voltage Op Amp . . . .
LH0005/LH0005A Wide Band Op Amp . . . . LH0005C Wide Band Op Amp ... . . . . . . .
LH0020/LH0020C High Gain Instrumentation Amp. . . . . . . LH0021/LH0021C 1.0 Amp Power Amp . . . . . . . LH0022/LH0022C High Performance FET Op Amp. . . . . . . LH0023/LH0023C Precision Sample And Hold ... . . . . . . .
LH0024/LH0024C High Slew Rate Bipolar Op Amp . . . .
LH0032/LH0032C High Slew Rate FET Op Amp. . . . . . . LH0033/LH0033C Fast FET Buffer . . . . . . . . LH0036/LH0036C Low Power Instrumentation Amp . . . . LH0041/LH0041C 0.2 Amp Power Op Amp . . . , . . . . LH0042/LH0042C Low Cost FET Op Amp. . . . . . .
LH0043/LH0043C Fast Sample And Hold ... . . . . .
LH0045/LH0045C Two Wire Transmitter . . . . . . . LH0052/LH0052C Precision FET Op Amp. . . . . . . LH0053/LH0053C Very Fast Sample and Hold . . . . LH0061/LH0061C 0.5 Amp Wide Band Op Amp . . . . LH0062/LH0062C High Speed FET Op Amp . . . . . . . LH0063/LH0063C Damn Fast FET Buffer . . . . LH740A/LH740AC FET Op Amp. . . . . . . LH2101A/LH2201A/LH2301A Dual LM101A. . . . . . .
5-1 5-1 5·1 5-4 5-11 5-13 5-20 5-20 5-20 5-22 5-24 7·1 7-4 7-7 7-10 710 7-10 7·13 7-15 7-18 7-20 7-22 7·24 1-1 1-4 2-1 1·7 1-9 1·12 1·15 1·17 1·19 1·26 3-1 1·33 1-36 2-4 1-41 1-19 1-26 3·1 1-49 1·26 3-9 1·60 1-63 2-4 1·69 1·71
vii
viii
LH210S/LH220S/LH230S Dual LM10S ... _ . . . .. 1-73 LH210SA/LH220SA/LH230SA Dual LM10SA . . . _ . . . _ . . . .. 1-73 LH211O/LH2210/LH2310 Dual LM110 . . . ' . . . __ . . . 2-15 LH2111/LH2211/LH2311 Dual LM111 . _ ...
LH24250/LH24250C Dual LM4250 ... _ ..
MH0007/MH0007C DC Coupled MOS Clock Driver MH0009/MH0009C DC Coupled Two Phase Clock Driver MH0012/MH0012C High Speed Clock Driver
MH0013/MH0013C Two Phase Clock Driver ..
MH0025/MH0025C Low Cost Two Phase Clock Driver.
MH0026/MH0026C 5 MHz Two Phase Clock Driver _ . MH7S03/MH8S03 Two Phase Oscillator/Clock Driver MHSSOS DUol High Speed Clock Driver
MM450/MM550 Dual Differential MOS FET Switch.
MM451/MM551 Four Channel MOS FET Switch .. _ . _ . _ . . . . MM452/MM552 Four Transistor MOS FET Package ..
MM454/MM554 Four Channel MOS FET Commutator MM455/MM555 Three Transistor MOS FET Package MM4504/MM5504 Six Channel MOS Multiplexer.
PSM6501 ±15V, 100 mA Power Supply _ SHM6401 Complete Sample And Hold
4-1 1-75 6-1 6-3 6-5 6-7 6-11 6-14 6-23 6-27 527 5-27 5-27 5-31 5-27 5-22 8-1 315
Military Hybrid Op Amp Selection Guide
MILITARY TEMPERATURE RANGE -55°C to +125°C
Device
LHOOOl LH0001A LH0002 LH0003 LH0004 LH0005 LH0020 LH0021 LH0022 LH0024 LH0032 LH0033 LH0041 LH0042 LH0052 LH0061 LH0062 LH0063 LH2101 A LH2108 LH2108A LH2110 LH24250
Input Offset Voltage Max ImV)
2.5 30
10 2.5
10
20 .5
25
Input Offset Voltage Drift
Typ I"V('C)
(Note 2~
20 to
20 2"
(Note 3)
{Note 1)
15 15
12
Input Offset Current
20 20
Max InAI
10 X 103 200
20 20 50 100
.002 Input
Bias CUfrent
Max InAI
100 100 10' 2000
100 50 250
Voltage Gain Min IVolt,!V)
25,000 25,000
15 30
tOO,OOO .95
300 tOO,OOO 01 100,000
3xl03 20xl03 4000
01 .02 1000
(Note 3)
100 005 0001 100
001 (Note 3)
20 .4 .4
300
.1 97
(Note 3) 100,000 .O~5 50,000 001 100,000 300 50,000
100
10 15
.025 50,000
.2 .96
(Note 3) 50k 50k 80k
.999 tOOk
Note 1: Specified tor AV -- 10 Note 2: Current booster
;;<. ~Not speciiied.
Bandwidth Av = 1
Typ IMH,)
50 30 (Note 1)
30 (Note 1)
50 50 tOO
15 15 150
20 .25
Slew Rate AV = 1
TYP IVI",I
100 25 25
30 (Note 1)
,25 20 (Note 1)
400 500 1500
70 70 6000 25
.3
30 .16
Output Current ImAI
'5 i5 TlOO +50 :±-15
j 50
±40
! 1000 +10 i 100
! 100
± 100
±2QO
·10 , 10 +500
±6
±400 75
.75
Note 3: Voltage follower
Supply Voltage
Min Max
IVI IVI
'5 i5
±5 -5 i5 -9 ,5
+ 5 , 5 +9 +5 +5 +5 i5 i5 i5 +5 i5 +3 +2 J2 +5
±1 i20 120
±22 +20
"45 t20 t22 -+:18 :t-22 -+:18
_~18
'20
! 18 122 122 118
~_20
±18 122
±20
~_20
'18
±18
Common Mode Range IVI
iV,
±V,
t.Vs
'v,
iV, .!:V, j:Vs
!V, J:.V~
±V,
!V,
~V~
~V,>
iV, iV, -i:.V, iV"~
j-Vs
i 12 , 14 +14 , 10 i 12
Differential Input Voltage IVI
:t-7 _1:.7 (Note 21
±7 +'7
±15 '30 130 .+-30 '5 130 (Note 3)
'30 t3Q t3Q (Note 4)
!30 (Note 3)
:1:30 (Note 41 ([\late 4)
±15
Supply Current Max ImWI
.5
100 30 1.5 90 50 35 35 :152 200 220 35 35 25 100 80 500
6
5.5 03 set
Compensation
Components Package Types
T05 T05 DIP F,P.
T05 DIP TO·5 T05 TO·5 TO-5 TO·3 T05 DIP F.P TO·5 TO·8 TO·8 8 PIN J T088PINJ TD·5 DIP FP T05 DIP TO·3 TO·5 DIP TO·3 DIP F.P.
DIP F.P.
DIP FP.
DIP F.P.
DIP F.P.
Note 4: Inputs have shunt-diode protection; current must be limited.
9p!n~
UO!10919S dw'g' dO p!JqAH AJel!I!W
x
Device
LH0001AC LH0002C
LH0003C LH0004C LH0005C LH0020C LH0021C LH0022C LH0024C LH032C LH0033C LH0041C LH0042C LH0052C LH0061C LH0062C LH0063C LH2201A LH2208 LH2208A LH2210
Input Offset Voltage Max ImVI
30
1.5 10
15 20
20
10 15 50
.5 Input Offset Voltage Drift
1"0i~CI
INote 21
25 10
25 25 (Nott! 3)
10
Input Offset Current Max InAI 60 10 X 103
200 45 25 200 200
.005 Input
Bias Current
Max InAI 200
104
2000 120 100 500
Voltage Gain
Min IVo1t,1V1
.25 .95 (Note 2) 15,000 30,000 2000 50,000 500 100.000 .025 75,000
5xl03 22xl03 3500
700 .02
(Note 3)
200 01 .0002
500
15 96
(Note 3) 100,000 05 25,000 005 75,000
200 200 25,000
10 .002 065 25,000
(Note 3) (Note 3) .2 15
15
20 75
.2
Note 1 Specified for AV = -10 Note 2 Current booster
.96 (Note 3)
25k 50k SDk
.999
Industrial Hybrid Op Amp Selection Guide
INDUSTRIAL TEMPERATURE RANGE: -25~C to +85DC
Bandwidth Av = 1
Typ IMHzl
50 30 (Note 1)
30 (Note 11
50 50 100
15 15 150
20
Slew Rate Av = 1
Typ IVi",1
25 100
30 (r~ote 1)
25 20 (['~ ote 1)
400 500 1500
70 70 6000
30 25
.3 .3
Output Current ImAI
'5 t 100
, 50
!_15
~50
±100 1_1000 , 10
± 100
+ 100
!.100 ':200 '10 , 10
!500 '6
±400
Supply Voltage
Min Max
IVI IVI
'5 ±20
'5 t22
'5 ~20
'5 '45
'9 i20
.'=5 :1:18
'5 ±.18
'5 -"-22
'9 2_18
, 5 ±20
'5 '20
'5 ~_ 18
'5 ±22
'5 +22
i5 i 18
'5 +:20
+5 ±18
'3 ±22
±2 ±20
'2 ±20
:1-5 ±18
Note 3: Voltage- follower
Common Mode Range IVI
'V, tV,
+V, 'V, iV,
±v ~ iV,
_~V,
tV,
~V,
'V, .!:.V,
±V,
±V ~ iV, +V, TVs
±12
±14 t14
±10
Differential Input Voltage IVI
±7
{Note 2}
±7
±)
+ 15
±30
±30
±30
±5
±30 (Note 3)
,30
±30 +30 (Note 4)
±30 (Note 3)
±30 (Note 4/
(Note4) Supply Current
Max ImWI
1.3 100
30 1.5 90 50 40 24 252 220 240 40 28 30 150 120 500
.4 .4 5.5
Compensation Package Types Components
TO·5 DIP F.P.
TO·5 DIP
TO·5 TD·5 TO·5 TO·5 TO·3 TO·5 DIP F.P.
TO·5 TO·8 TO·8 8 PIN J T088PINJ TO·5 DIP F.P TO·5 DIP T03 TO·5 DIP TO·3 DIP F.P.
DIP F.P.
DIP F.P.
DIP F.P.
Note 4: Inputs have shunt-diode protection; current must be l,m,ted
9p!n~
UO!l-0919S dw'o' dO P!JqAH leplsnpul
Input Input Offset Offset Device Voltaget Voltage Drift
Max Max
(mV) I"V/C)
LH2301 A 1.5 30
LH2308 75 30
LH2308A
LH2310 7.5
LH24250C
c.
Commercial Hybrid Op Amp Selection Guide
COMMERCIAL TEMPERATURE RANGE O~C<;T!-\ <~70;C
Input Input
Offset Bias Voltage
Currentt Currentt Ga1l1t Max
InAI
50
10
Max (VoltsNI (riA)
250 25k
25k 30k .999
30 75k
"Nol specified tGuarantecd at r25'C
Bandwidth Av '" 1
Typ IMHz)
20 25
Output Supply Voltage Common Differential Supply Slew Rate
Av '" 1 Current Min Max Mode Input Currentt c;on;:;~~:~~sn Package
Types
Typ Max Tvp TVp Range Voltage Max
IV/",) ImA) IV) IV) IV) IVI ImAI
'3 i 18 ·,2 130 DIP F.P.
'2 '.18 '14 {Note 11 DIP FY.
'2 .!:20 :!-14 (Note 11 DIP F.P.
30 =5
,,8
.: 10 5.5 DIP F.P.16 75 'I "18 '12 -t15 03 set DIP F.P.
Note 1: inputs Ilav~ shunt-diode protection" current must be limited
ap!nD
UO!~:>alasdwV dO P!JqAH
le!:>Jawwo~~:
DEVICE NO
Analog Devlceli A0503-(J, K) AD503-(S) AD506-IJ, K) AD506-(Si ADS'l AD513-(J, K) ADS1J·(SI AD516 (J, K) AD516 (S) ADP517 M50HA, B, C.l 40·(J, K.I 41-(J, K, Ll 42·(J. K, Ll 43·(J) 44-(J, K) 45-(J, K) 142·(A, B, C) 146-IJ, K) 149-IJ, K)
PACKAGE
TO-5 TO-5 TO·5 TO·5 MOD TO-5 TO·5 TO·5 TO-5 MOO TO-8 TO-8 MOD MOD MOD MOO MOD MOD MOD MOD
NEAREST NATIONAL EQUIVALENT
LH0042C pm for pin LHOM2 pin for pin LHQ022C pin for pin LHQ022C' pin for pin LHQ042C LH0042C· pin for pill LHOM2' pin for pin LH0022C' pill for pin LHOO22' pIn for pm lH0042C LH0022C LH0042C LH0052C LHOQ52C LH0022C LH0062C LH0067C LHOQ42C LH0022C LH0062C
"These amps use feedfolward compensation to boost slew rate Fa' true high slew rate amp Sfle LH00621LH0062C
Bell and Howell 20-008 20-10B 20-20B 20-248
Burr·Brown 3307!12C 3308J12C 3312/12C 3313/12C 3341J15C 3342/15C 3348/03 3349/03 3350/03 3400-iA,8) 340HA, B) 3402-1A, B) 3403·iA, B) 3420·(J, K, L) 3421·IJ, K, LJ
MOD MOD TO-8 TO-8
MOD MOO MOD MOD MOD MOD MOD MOD MOD MOD MOD MOD MOD MOD MOD
LH0042C LH0042C LH0022 LH0022C
LH0042C LH0042C LH0042C LHDQ42C LHOQ32C LHQQ32C LHOQ52C LHOQ26C LH0042C LHOQ32C LH0062C LH0062C LH0042C LHQ052C LH0052C
DEVICE NO.
Fairchild USB774D31 '2 (/JA7401 US87740393 I/JA740Cl
intech Al0a A1Dl A102 A103 A122 A123 A125 A130 At31 A136 A137 A148-(A, B, C) Al026 Al027
Intersil (CH8500 ICH8500A ICH8500C ICL8007e ICL8007M ICLBOCrTAM ICL8007AC
OEI 9714 971S 9716 9717 9718 9720 9721 9723 Slgnetics SU536T SU740C
PACKAGE
TO-S TO-5
MOD MOO MOD MOD MOD MOD MOD MOD MOD MOO MOO MOD MOD MOO
TO-S TO-S TO-S TO-5 TO-5 TO-5 TO·5
MOD MOO MOD MOD MOD MOD MOD MOO
TO-5 TO-5
NEAREST NATIONAL EQUIVALENT
LH0042 pill for pll1 LH0042C P"l for pin
LH0042C LH0042C L H0022C l.H0022C LH0052 LHQ052 LH0052C LH0062C LH0062C LH0062C LH0062C LH0042C LH0022C LH0022C
LH0052 Din lor pin LH0052 pH1 for PIr) LH0052C pin for P"1 LH0042C p.n for pin LH0042 pll1 for pin LH0042 pin for pill LH0042C pm for P")
LHOQ42C LH0062C LH0042C LH0042C LH0062C LHQ032C LH0042C LH0032C
LH0042C pin for pin LH0042C pin for po"
DEVICE NO. PACKAGE
Silicon oX
L 120A TO-5
L 120C TO·5
L137AA TO·5
L 137C,A, TO-5
Teledyne Semiconductor (Amelco)
2404BG TO-S
2405BG TO-S
2709BG TO·8
2809BG TO-8
2140BE TO·5
2841BE TO·5
2741BF TO-8
2741BH TO-8
TE!ledyne NE!XU5 Phillrick
OFT MOD
OFT MOO
OFT-2B MOD
OFT·5 MOD
OFT·5 MOD
Q25AY TO-8
PP25,A, MOD
1003 MOD
100301 MOD
1006 MOD
1008 MOD
1009 MOD
100901 MOD
100902 MOD
1011 MOD
101101 101102 1019 1021 1023 102301 1025 1408 140801 140SO:I 140810 1402 140201 140202 1407 14070' 1414 141410 1421
MOO MOD MOO MOD MOD MOD MOD MOO MOD MOO TO·S TO-S TO-S TO·8 TO·S TO-8 MOD DIP TO-5
FET Op Amp Cross Reference Guide
NEAREST NATIONAL EQUIVALENT
LH0042 lH0042C lH0022 LH0022C
L.H0042C LH0042C LH0042C LH0042C LH00<12C LH0042C LH0042C LH0042C
lHQ042C LH0042C lHOQ52C LH0042C LHOQ4:2C LH0042C lHOQ42C LHOD52C LH0052C LH0042C LH0042C LH0042C LH0042C LH0042C LH0062C lH0062C LH006tC LHOQ32C LH0022C LH0052C lHQ052C LHOO32C LH0052C LH0052C LH0052C LH0052C LHOO42C LH0042C LH0042C LH0042C LH0042C LH0062C LH0062C lH0042C
DEVICE NO.
Zeltex Z,A,BOl-IOt, Eli ZAB01-IMl, M2i ZAB01-IM3) Z,A,801 IT1) ZAB02-IMI. M2i ZAS03-{Ml ) ZABOIl-{M,. M2J ZA903-IMl M21 133 133-03 133·04 134 1340 135
NEAREST NATIONAL
PACKAGE EQUIVALENT
DIP DIP DIP ro~
MOD
~D
~D
~D MOD
~o MOD MOD MOD
~D
LH0042C lH0042C LH0022C LH0042C LH0022C LH0052C LH0042C LH0052C LH0022C LH0052C lH0022C lH0042C lH0042C LH0062C
9p!n~ 93U9J9J9ij SSOJ:)
dwV dO 1.3:J
National also bu ilds analog switches to custom or pin· for-pin second source requirements. Cansu It your local National sales office.
DEVICE
NUMBER FUNCTION
Oi)lon
DAS2114 SPDT 100 :)hm
DAS2126 SPDT - 50 ohm
DAS212B o ad SPST - 50 oilm DAS2132 [\ual SPST - 50 ohm
DAS2133 Dual SPST - 50 ohm
DAS2136 Dual SPST - 50 ohm DAS2137 Dual SPST - 50 ohm
Fairchild
A3F3700 4CH MaS SWitch A313701 6CH MOS MUX A6J37D5 8CH MOS MUX A6J3708 8CH MOS MUX 4PST (Obsolete) SPOT -- 400 ohm
General Instrument
MEM2Q09 6CH MOS MUX MEM2017 6CH MOS MUX MEM3705 BCH MUX with Decode NC450 Duat SPST - 500 ohm NC451 Dual SPST -100ohm
NC2114 SPOT - 1000hm
NC2126 SPOT - 50 ohm NC2137 SPOT - 20 ohm
Intersil
IH5001 SPST - 30 ohm IH5002 SPST - 50 ohm IH5003 Dual SPST -- 30 ohm IH5004 Dual SPST -- 50 ohm IH5009 thru TTL Compatrble - JFET
IH5024 Series Analog Current SWitches DG126 thnl TTL Compatrble - JFET
DG164 Serres Analog Voltage SWltche<;
G114 thru Multiple P·MQS ffililSlstor, G124 Serle,
SiliconiK
DG110 Dual SPST -- 400 ohm DGM111 Dual SPST -- 400 ohm DG112 Dual SPST -- 400 ohm DG116 Obsolete - 5~e DG 172
DG118 Obsolete -s~e DG 172
DG120 Obsolete -- ,ee DG502 DG121 Obsolete - see DG502 DGM122 DU<l1 2CH MUX -- 400n DGM123 Obsolete -- .,ee DG501
NATIONAL FUNCTIONAL EQUIVALENT
AH2114 (Pin tor plni AH0162 2-AHD152 AH0152 AH01~2 AH0152 AH0152
MM450 Serle, AM2009 AM3705 pinl AM3705 for pin I AHOQ15 AHQQ14, AHOO19
AM2009 (pm for AM2009 (pin AM3/05 (pin for AH0152 AH0134 AH:t'114 (pl[1 for prn) AH0162 AH0146
l!2AH0133 1/2AH0152 AH0133 AH0152 AH5009 thru
AH5024 Serif!, jpon lor prnl AH0126 thru
AH0164 Series (pi1 for pin - see note 1) MM450 thru MM454 Series
(lnd AM)OD9
1/2 AHOO15 1/2 AHQ015 1/2 AHOO15 1/2 AHOO15 AHOO15 AHOO15 2 AHOO15 AHOO15 AM3705
DEVICE NUMBER
SiliconiK ICon't) DG125 DG126 th,u
DG I 64 Series DG169 DG171 DGl72 DG173 DG175 DG181 DG182 DG184 OG185 OG187 OG188 DG190 DG191 OG400 Seri9s DG501 OG502 DG503 DG506 DG507 DG510 DG511 Gl14 thtu
G124 Series G125 thru
G135 Sefle~
513001 SI3002 513705
FUNCTION
Obsolete - see DG501 TTL Compatible - JFET
Analog Voltage SWllches Obsolete - see OG173 SPST - 100 ohm 4CH MUX - 400 ohm DPDT - 400 ohm SPDT - 200 ohm Dual SPST - 30 ohm Dual SPST - 80 ohm Dual DPST - 30 ohm Dual OPST .- 80 ohm SPOT -- 30 ohm SPDT - 80 ohm Duol SPST - 30 ohm Dual SPOT ,- 80 ohm Dual SPOT - 80 ohm 8CH MUX - 200 ohm Dual 4CH MUX - 200 ohm 8CH MUX -- 400 ohm 8CH MUX - 400 ohm BCH MUX - 400 ohm 8CH MUX -" 400 ohm Dual 4CH MUX - 400 ohm Multiple PMOS TranSistors Multiple J-FET Transistors DPST - 500 ohm SPOT - 500 ohm 8CH MUX - 400 ohm
Teledyne - Crystalonics
CAG6 SPST - 100 ohm
CAG7 SPOT - 100 ohm
CAGIO SPST - 500 ohm
CAG13 Dual SPST - 500 ohm
CAG14 SPST - 500 ohm
CAG20 Dual SPST 500 ohm CAG21 Dual DPST - 50 ohm CAG22 DUill OPST - 300 ohm CAG23 Dual DPST - 500 ohm CAG24 Ollill SPST - 300 ohm CAG27 Dual SPST - 100 ohm
CAG30 SPST - 600 ohm
CAG513 Dual SPST - 500 ohm
COAl SPST -- 100 ohm
CDA2 Dual SPST - 300 ohm
COA4 SPST _ 100 ohm
COA5 SPST - 200 ohm
CDAB SPST - 100 ohm
COAll S?ST - 100 ohm
CoAt8 SPST - 50 ohm
NATIONAL FUNCTIONAL EQUIVALENT
AM3705 AH0126 thru
AH0164 Serle';
(pin for pin - see note 1) AHOO14
AM1000 AHOO15 AHOO14 1i2 AHOO15 AH0133 AH0134 AH0129 AH0126 AH0144 AH0143 2·AH0144 2·AH0141 See note 2 AM3705 2-AHOO15 AM3705 AM3705 AM3705 AM3705 2 AHOO15
MM450 thru MM454 Sene, and AM2009 AH5009 thru AH5024 Serrr.s 1/2·AHOO19 1/2-AHOO15 AM3705 (pin for pin)
1/2-AH0134 AH0143 AM1000 AH0134, 1/2 AHOO15 AM1000 AH0134, 1/2 AHOO15 i\H0154 AH0154, AHOO19 AHOO19 AH0134, 1/2 AHOO15 AH0134 1/4AHOO15 1/2 AHOO15 1/2 AH0134 1/2AHOO15 li2AH0134 1/2 AH0134 1/2 AH0134 li2AH0134 AM1000
Analog Switch Cross Reference Guide
DEVICE
NUMBER FUNCTION
Teledyne Semiconductor (Amelco) 21078E SPST -- 100 ohm 2110BE SPST - 500 ohm
2114BF SPOT - 100 ohm
2126BG SPOT 500 ohm
2127BG DPST - 500 ohm
2128BG Quad SPST - 500 ohm 2130BG Ductt SPST -- 50 ohm 2137BF SPD r - 20U ohm 21388E Dual SPST -- 500 ohm 21396E Dual SPST - 500 ohm 2141BF/BH DUfil SPST - 500 ohm 21458E Dual SPST - 50 ohm 2147BE OU(li SPST - 500 ohm
TeJCils Instrument
TMS6000 lOCH MOS MUX TMS6002 6CH MOS MUX TMS6005 6CH MQS MUX TMSGOO9 6CH MQS MUX
NATIONAL FUNCTIONAL EQUIVALENT
1/2 AH0126 112 AH0126 AH2114 Ipin for pm) AH0162 AH0152 2·AH0152 AH0152 AH0146 NSB035 (p,n for pin) AH0152 AH0152 AH0152 AH0152
AM3705 AM2009 AM2009 AM2009 (pin for pin)
Note 1: These deVices have additional letter deSignations after part numbers r~atlonars corresponding pkg and temp range codes are
lntersil &
Siliconilc Na1ional
Oesil)nations DMignations
Letter "A" MII,tary temperature rang~ No leiter Letter 'B" Incustrral temperature range L~tter "c,.
Letter "L Flatpack Letter "F"
Letter "P" DUElI-ln-Line Letter "0"
Examples
OG129AL AH0129F (Pin tor pin)
DG134BP AH0134CD (Pin for plnl
Note 2: '400" serres used to denote industrial temperature range product Coding was chrmged to use "100" serres and letter "8"
Example' DG426:= DG126B '= AH0126C.
g, ~I---~
9p!n~ 9:>U9J9j.9l;J SSOJ:) 4:>l!MS 60leU'if
xiv
Application Note Guide
Many of the products included within this catalog are described in one or more of the follow- ing application notes. Copies are available through your local National Sales Office.
AN-13 NH0002 Current Amplifier 9/68
AN-18 MOS Clock Driver 3/69
AN-28 High·Speed MOS Commutators 2/70
AN-33 Analog-Signal Commutation 2/70
AN34 How to Bias the Monolithic JFET Dual 3/70
AN-38 MOS Analog Switches 4/70
AN-48 Applications for a New Ultra-High Speed Buffer 8/71
AN-49 Pin Diode Drivers 8/71
AN-53 High Speed Analog Switches 9/71
AN-53 New Design Techniques for FET Operational Amplifiers 3/72 AN-75 Applications for a High Speed FET Operational Amplifier 12/72 AN-75 Applying Modern Clock Drivers to MOS Memories 2/73
MB-5 MOS Clock Savers 1971
MB-9 MOS Clock Drivers 1971
Amplifiers
lH0001* low power operational amplifier general description
The LHOOOl is a general purpose operational amplifier designed for extremely low quiescent power. Typical NO-load dissipation at 25°C is 2 milliwatts at Vs - ±15 volts, and 0.5 milliwatts at Vs ~ ±5 volts. Even with this low power dissipa- tion, the LHOOOl will deliver ±10 volts into a 2K load with ±15 volt supplies, and typical short cir- cuit currents of 20 to 30 milliamps. Additional features are:
• Operation from ±5 V to ±20V
• Very low offset voltage: typically 200 /lV at 25°C, 600 /lV at -55°C to 125°C
schematic and connection diagrams
r--1~---1~---,---,--"-9 v'
COMP
COMP RJ
300K R'
300K
R6 R7
SOK 50K
'--+---lO
CLAMPAND COMPENSATION
typical applications
Voltage Follower R1"
C1
>"-.... -
OUTPUT"Mav be lero or equal to SOl/ree resistance lor mimmum offset.
Integrator with Bias Current Compensation CF
INPUT-JoI<{Y-"'-"';:~
* 2Mn
-15V
*Previously called NHOOOl
> " -.... --OUTPUT
·Adjutt for lera integrator drift.
• Very low iiClJut offset current: typically 3 nA at 25°C, 6 nA at _55°C
• Low noise: typically 3 /lV rms
• Frequency compensation with 2 small capacitors
• Output may be clamped at any desired level
• Output is continuously short circuit proof The LH0001 is ideally suited for space borne applications or where battery operated equipment requires extremely low power dissipation .
COMPENSATIQ1"4
COMPENSATION TOP VIEW
Note: Pin 7 must be grounded or connected to a voltage at least 5 volts more negative than the positive supply (Pin 91- Pin 7 may be connected to the negative supply however the standby current will be increased. A resistor may be inserted in series with Pin 7 up to a maximum of 100 kD per volt for the voltage difference between Pin 3 and Pin 9.
Order Number LH0001H See Package 11
Voltage Comparator for Driving MOS Circuits +1DVOlTS
INPUTS
.>'---
0 UTPUTr--+ __
-~v,'--....
+--~v,-30 VOL TS External Current Limiting Method
INPUTS
D1 02
>:;-""'IV-~~-OUTPUT
·V I = iJverage forward voltage drop of diodes 01 to 04 It 20 to 50 ~A.
1·1
r-
:::to o
o ...
....
o o o
::I:...I
1 ~2
absolute maximum ratings
Supply Voltage ±20V
Power Dissipation (see Curve) 400mW
Differential Input Voltage ±7V
Input Voltage Equal to supply
Short Circuit Duration (Note 1) Continuous
Operating Temperature Range _55°C to +125°C
Storage Temperature Range _65°C to +150°C
Lead Temperature (Soldering 10 sec.1 300°C
electrical characteristics
(Note 2)PARAMETER TEMP (oCI CONDITIONS
Input Offset Voltage 25 RsS5K -55 to 125 Rs < 5K Input Offset Current 25 to 125
-55 Input Bias Current 25 to 125
-55
Supply Current (+1 25 Vs ~ ±20V 125 Vs ~ ±20V -55 Vs ~ ±20V Supply Current (-I 25 Vs ~ ±20V 125 Vs ~ ±20V -55 Vs ~ ±20V
Voltage Gain -55 to 25 RL ~ 100 KIl, Vs ~ ±15V. VOUT ~ ±10V 125 RL 0100 KU, Vs ~ ±15V, VOUT e ±10V
VOUT 25 Vs~ ±15V, RL ~ 2K
-55 Vs~ ±15V, RL e 2K 125 Vs~ ±15V, RL ~ 2K
Common Mode -55 to 125 Vs e ±15V, V,N = ±lQV, RsS 5K Rejection Ratio
Power Supply -55 to 125 Vs ~ ±15V, 6V ~ 5V to 20V. Rs ~ S 5K Rejection Ratio
Input Resistance 25
Average Temperature -55 to 125 RsS5K Coefficient of Offset
Voltage
Average Temperature -55 to 125 Coefficient of Bias
Current
Equivalent Input 25 Rs~ 1K, fe 5 Hz to 1000Hz, Vs~ ±15V Noise Vortage
Note 1: Rased on maximum short circuit current of 50 rnA, device may be operated ilt any combination of supply voltages, and temperature to be within rated power dissipation (see Curve).
Note 2: These specifications apply for Pin 7 grounded, for -+:5V ::;; Vs ::;; :t20V, with Capacitor Cl = 39 pF from Pin 1 to Pin 10, and C2 = 22 pF from Pin 5 to ground, unless otherwise specified.
guaranteed performance
Input Voltage Range Small Signal Voltage Gain
18
16
1
RL ~ tOOK TO THE".I 1.
~fGATlVESUPPLY'"
12/
V
90 f--Vs = 'lOV TO '20V10
'!..~\V
MINIMUM ...'"
• "
vs -'5V, V"
- - MINIMUM ~ ' -r\..
4
/ ' "f----~__t ~
, /
T, -~~-CTO+115-C~-
" ~ ~
0
,
10 15 ZO -50 0."
+100 +150SUPPLY VOL TAGE (,V~ TEMPERATURE roC}
MIN TYP MAX UNITS
0.2 1.0 mV
0.6 2.0 mV
20 nA
100 nA
100 nA
300 nA
90 125 /lA
70 100 /lA
100 150 /lA
60 90 p,A
45 75 p,A
75 125 p,A
25 60 V/mV
10 30 V/mV
10 11.5 V
9 10.5 V
11 12.5 V
70 90 dB
70 90 dB
0.5 1.5
Mn
4 p,vtc
0.4 /lAtC
3.0 I1Vrms
Maximum Power Dissipation ROO 700
I'\.
_~ CASE 600 f--~ -
f-- -- " ' -
--~ - -
'00
~BlEN'-'"
400 f - -
~
-300
'00
...
"
...
100 --~
0
"
50"
100 mTEMPERATURE nl
typical performance characteristics
~
~
~
~
>
i
iii B z
~
~
>
Negative Supply Current
18, 16'
.40
12'
10'
" r - - -
T.... _~5°C1", ~ +25"C 60
"
"
r---+---t---10 15
SUPPLY VOLTAGE ("V)
Input Bias Current
"
80~TA.=_!i5'C--~--
60 ~---~--_+--_4
4Or---
T A. ~ +25 C ---••
15SUPPlYVQlTAGE (-VI
Negative Output Voltage Swing
20
18'-~~-'---r---,
14
1Or_---r~~~r_---~
,L-____
L -____ L -__ ~18'
16' .40
12'
10' 80 60 40
" ,
5 10 15
SUPPLY VOLTAGE (-V)
Open Loop Frequency Response
I
Vs= !15VI I I
Rl ~ lOOK
Rl ~ 2K
I
~r ...
Cl·O.C2:DCl=l9pF
I'\. 'I..
r- C2i"ZZr
'\,,'\1.
I N\'
Ot 1 10 100 11<. 10K laOK1M 10M FREGUENCV (Hl)
'0
;;- -"
z
~
~
~
~
>
~ 0;
Ii'
18'
160 '4(1 lZO 100 .0 '0 40
'"
Positive Supply Currents
10
SUPPl Y VOLTAGE {~Vl
Input Offset Current
T","+25-C
10 15
SUPPLY VOLTAGE ('V)
Positive Output Voltage Swing
10
"
" , - - - - , - - - , r - - - , 16 r---:J...--:-c--+---.~
16
"
15 SUPPLY VULTAGE (+Vl
Large Signal Frequency Response
\ V"
1:2"-0~ ,
".39.'\
1:2 ~ 22 P{••
10K lOOK~
1MFflEQUENCY (Hz) V<; ~ '15V TA "-25~C
10M
"
Short Circuit Output Current
Vs= .':1!1V 40
p~SITlVELpPlY
~
N!GATlVELpPLV
--
30
" r-- ...
10 r--- - - - ;--- --- -
-55
Input Resistance
,--
-50 50 10' 15'
TEMPERATURE ( 1:)
Voltage Gain
100
"r---r---~----~
Al "-lOOK TO THE NEGATIVE SUPPl Y
" L -____ - L ______ L-____ ~
+10
'.
",4
"
, -,
-4
,
5 10 15
SUPPlY VOLTAGE ('VI
Voltage Follower Pulse Response
-
INPUT r -~-1\-
OUTPUT1\ !/
\
~. -II.-
r-
- r-- II
Vs" ~15V R,
"
T,,=25'C
"
o 2(J 40 60 80 100 120 140 1611 TTME(.-.:)
1-3