OP37FZ ,LOW NOISE, PRECISION, HIGH SPEED OPERATIONAL AMPLIFIER(AVCL>=5)CHARACTERISTICS at Vs = i15V, TA = 25°C, unless otherwise noted.
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OP37GJ ,Low-Noise Precision Operaional AmplifiersELECTRICAL CHARACTERISTICS
(Vs = I15V, TA = +25°C. unless otherwise noted.)
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OP37FZ
LOW NOISE, PRECISION, HIGH SPEED OPERATIONAL AMPLIFIER(AVCL>=5)
ANALOG
DEVICES
Low Noise, Precision, High Speed
Operational Amplifier (Am 2e 5)
FEATURES
. Low Noise .................. 80nV p-p (0.1 Hz to 10Hz)
...................... 3nV/\/W at 1kHz
. Low Witt .................................. 0.2pWv C
High Speed ......................... 17V/ys Slew Rate
.................. 63MHz Gain Bandwidth
. Low Input Ottset Voltage ....................... 10pV
. Excellent CMRR .. . 126dB (Common-Voltage of i11V)
. High Open-Loop Gain ..................... 1.8 Million
Replaces 725, OP-05, OP-OG, 0P-07, A0510, A0517,
SE5534 in Gains >5
q Available In Die Form
ORDERING INFORMATION'
PACKAGE
T, = +25°c OPERATING
Vos MAX CERDIP PLASTIC LCC TEMPERATURE
(W) TO-99 8-PIN 342m 20-CONTACT RANGE
25 OP37AJ‘ OP37AZ' - - MIL
25 OP37EJ OP37EZ OP37EP - IN D/COM
eo OP37BJ* OP37BZ' - OP37BRC/883 MIL
so OP37FJ OP37FZ OP37FP _ IN D/COM
1oo OP37CJ" OP37CZ - MIL
1oo OP37GJ OP37GZ OP37GP - XIND
100 - _ Op37GStt - XIND
Fordevices processed in total compliance to MIL-STD-883, add /883 afterpart
number. Consuttactoryfor883 data sheet,
t Burn-in is available on commercial and industrial temperature range parts in
thirrDIP, plastic DIP, and TO-can packages,
For availability and burn-in information on so package, contact your local
sales office.
GENERAL DESCRIPTION
The OP-37 provides the same high performance as the OP-27,
but the design is optimized for circuits with gains greater
than five. This design change increases slew rate to 17V/psec
and gain-bandwidth product to 63MHz.
SIMPLIFIED SCHEMATIC
The OP-37 provides the low offset and drift of the OP-07 plus
higherspeed and lower noise. Offsets down to 25pV and drift
of 0.6uV/°C maximum make the OP-37 ideal for precision
instrumentation applications. Exceptionally low noise
(en=3.5nV/\/ Hz at10Hz),alow1/fnoisecornerfrequencyof
2.7Hz, and thehigh gain of1.8 million,allowaccurate high-gain
amplification of low-level signals.
The Iowinputbiastrurrentott10nAand offsetcurrent of7nAare
achieved by using a bias-currentkancellation circuit. Over
the military temperature range this typically holds lgand log
to :20nA and 15nA respectively.
The output stage has good load driving capability. Aguaran-
teed swing ofi1OV into 600n and low output distortion make
the OP-37 an excellent choice for professional audio
applications.
PIN CONNECTIONS
SVOS TRIM
V05TRIM1 7 1/4
iN 2 6 OUT
LIN 3 5 NC.
av-(CASE) 8-PIN HERMETIC DIP
. (z-Sumx)
Jiil/l,) EPOXY MlNl-DIP
_ (P-Sumx)
g g 8-PIN SO
. E . E . (S-Suffix)
'lt (-, f-) Cf OP-37BRC/883
N.C. a m M: LCC PACKAGE
+m E W, (RC-Suffix)
OUTPUT
INVERTING
INPUT“) mA am 0213 aM
INVEHTING 0@
INPUT(-)
'R'I & H ARE PERMANENTl V ADJUSTED
AT WAFER TEST FOR MINIMIM
OFFSET VOLTAGE.
PSRR and CMRR exceed 120dB. These characteristics,
coupled with long-term drift ofth2pV/month, allow the circuit
designer to achieve performance levels previously attained
only by discrete designs.
Low-cost, high-volume production of the OP-37 is achieved by
using on-chip zener-zap trimming. This reliable and stable
offset trimming scheme has proved its effectiveness over
many years of production history.
The OP-37 brings low-noise instrumentation-type perfor-
mance to such diverse applications as microphone, tape-
head, and RIAA phono preamplifiers, high-speed signal con-
ditioning for data acquisition systems, and wide-bandwidth
instrumentation.
ABSOLUTE MAXIMUM RATINGS (Note 4)
Supply Voltage .............. :22V
Internal Voltage (Note 1) B...................-.-..-..- =22V
Output Short-Circuit Duration ..................................... Indefinite
Differential InputVoltage (Note 2) _.. .....:0.7V
Differential Input Current (Note 2) ................................. :25mA
Storage Temperature Range ......................... --65''G to +150°C
Operating Temperature Range
OP-37A, OP-37B, OP-37C (J, 2, RC) ......... -55"C to +125°C
0P-37E, OP-37F (J, 2) ................................. --25"C to +85°C
OP-37E, OP-37F (P) ......................................... 0°C to +70°C
OP-37G (P, S, J, Z) ....................................... --4ty'C to +85°C
Lead Temperature Range (Soldering, 60 sec) ............... 300°C
Junction Temperature .................................. ..-4i50C to +150°C
PACKAGE TYPE 8” (NOTE 3) 91c UNITS
TO-99 (J) 150 18 "CIW
8-Pin Hermetic DIP (Z) 148 16 "C/W
8-Pin Plastic DIP (P) 103 43 "CIW
20-Contac1 we (RC, TC) 98 38 "CIW
8-Pin so (S) 158 43 "CIW
NOTES:
1. For supply voltages less than s22V, the absolute maximum input voltage is
equal to the supply voltage.
2. The OP-37's inputs are protected by back-to-back diodes. Current limiting
resistors are not used in orderto achieve low noise. If differential inputvoltage
exceeds :0.7V, the input current should be limited to 25mA.
3. IV is specified for worst case mounting conditions. ie., e A is specified for
device in socket for TO, CerDlP. P-DIP, and LCC packages; N is specified
for device soldered to printed circuit board for 80 package.
4. Absolute maximum ratings apply to both DICE and packaged parts, unless
otherwise noted.
ELECTRICAL CHARACTERISTICS at Vs = i15V, TA = 25° C, unless otherwise noted.
OP-37A/E OP-37B/F OP-37C/G
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset Voltagg vos - Note l) - 10 25 -. - - 20 60 - 30 100 “V
Long-Term Vos _
V T 2, - 0.2 1.0 - 0.3 1.5 _ 0.4 2.0 V/M
Stability os/ me 1Notes SJ p 0
Input Offset Current '05 - 7 35 - 9 50 - 12 75 nA
Input Bias Current les i :10 :40 i uF12 £55 - i15 :80 nA
0.1 Hz to 10Hz
In ut Noise V0113 e e - - 0.08 0.18 - 0.08 0.18 - 0.09 0.25 V -
p g np-p (Note58,5) " pp
, fo =10Hz (Note 31 - 3.5 5.5 - 3.5 5.5 - 3.8 8.0
Input Noise
. en to = 30Hz(Note 31 - 3.1 4.5 - 3.1 4.5 - 3.3 5.6 nV/V Fig
Voltage Density
fro = 1000Hz (Note 3) _ 3.0 3.8 - 3.0 3.8 - 3.2 4.5
In ut Noise to =10Hz(Notes 3, 6) - 1.7 4.0 - 1.7 4.0 - 1.7 -
p ' in to=30Hz (Notes 3, 6) - 1.0 2.3 7 1.0 2.3 - 1.0 - PA/v/WZ
Current Density
10 =1000Hz (Notes 3, 6) - 0.4 0.6 - th4 0.6 _ 0,4 0.6
Input Resistance 7
_ , Rm (Note 7) 1.3 6 - 0.94 b - 0.7 4 - Mn
Dift9reantial-Moda
Input Resistance - R 3 2 5 2 Gn
Common-Mode INCM .
Inpu1Voltaga Range IVR £110 -+_12.3 - T110 T123 - 111.0 212.3 - V
Common-Mode
' ' . CMRH VCM=111V 114 126 - 106 123 - 100 120 - dB
Rejection Ratio
Power Su I
_ ' pp I. PSSR vs = 24v to mav 7 1 IO - 1 IO - 2 20 pV/V
Rejection Ratio
RL 2 2kft, V0 = t10V 1000 1800 - 1000 1800 - 700 1500 -
Large-Signal RL F: 1m, V0 = i10V 800 1500 - 800 1500 - 400 1500 _ ,
Volta eGain Avo R =eoon v =tlV V/mV
g L , C) - ' 250 700 7 250 700 7 200 500 -
Vs - J 4V,(Nate 4)
OutputVoltage V RL22k11 :120 i138 - i120 i138 - $115 :13.5 - V
Swing O RL26000 :100 i115 - $10.0 -:-11.5 - t10.0 711.5 -
Slew Rate SR RrE'2k1Note4) 11 17 - 11 17 - 11 17 - V/ps
_ f0 = 10kHz Note 41 45 63 - 45 63 - 45 63 -
Gain Bandwrdth Prod. GBW MHz
to - 1MHz - 4O - - 40 - - 4O _
ELECTRICAL CHARACTERISTICS at Vs = :15V, TA = 25° C, unless otherwise noted. (Continued)
OP-37A/ E OP-37B/F OP-37C/G
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Open-Loop Output R - -
Resistance 0 Vo _ O, '0 _ 0 - 70 - - 70 _ - 70 - n
Power Consumption Pd V0 = 0 - 90 140 - 90 140 - 100 170 mW
Offset Adjustment
RP =10kn - t4.0 - - :40 - - :40 - mV
NOTES:
1. Input offset voltage measurements are performed by automated test
equipment approximately 0.5 seconds after application of power. A/E
grades guaranteed fully warmed up.
2, Long-term input offset voltage stability refers to the average trend line of
Vos vs. Time over extended periods after the first 30 days of operation.
Excluding the initial hour of operation, changes in Vos during the first 30
NQ‘PPP’
days are typically 2.5;1V - refer to typical performance curve.
Sample tested.
Guaranteed by design.
See test circuit and frequency response curve for 0.1Hz to 10Hz tester.
See test circuit for current noise measurement.
Guaranteed by input bias current.
ELECTRICAL CHARACTERISTICS for Vs = :15V. -55''C I TA S +125°C, unless otherwise noted.
OP-37A OP-37B OP-37C
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset Voltage vos (Note 11 - 30 60 - 50 200 - 70 300 pv
Avera e In ut TCV Note 21
g V p os ( _ 0.2 0.6 - 0.3 1.3 - 0.4 1.8 wNPt1
Offset Drift TCVOSn (Nona 31
Input Offset Current los - 15 50 - 22 85 _ 30 135 nA
Input Bias Current '8 - t20 :60 - t28 t95 - :35 :150 nA
InputVoltage Range IVR _+10.3 :115 - t10.3 111.5 - :102 111.5 - V
Common-Mode
. CMRR VCM=:10V 108 122 - 100 119 - 94 116 - dB
Rejection Hallo
Power Su I
. . pp y . PSRR VS = _+4.5V to t18V - 2 16 - 2 20 - 4 51 PV/V
Rejection nauo
Large-Signal
_ Avo RL 2 2ktt, V0 = t10V 600 1200 - 500 1000 - 300 800 - V/mV
Voltage Gain
0 t tV lt
u pu o age vo RLzzkn 111.5 :13 5 - L110 113.2 - t10.5 113.0 - V
ELECTRICAL CHARACTERISTICS for Vs = ur15V,-25t f. T, s +85°C for OP-37EJ/FJ and OP-37EZ/FZ, 0°C s: T, s: +70°C for
OP-37EP/FP and -40°C 5 T, s: +85' for OP-37GP/GS/GJ/GZ, unless otherwise noted.
O P- 37G
OP-37E OP-37F
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset Voltage vos - 20 50 - 40 140 - 55 220 11V
Average Input TCVOS (Note 2) _ O. 0.6 _ 0.3 1.3 _ 0.4 1.8 uV/°C
Offset Drift TCVosn (Note 3)
Input Offset Current '05 - 10 50 - " 85 - 20 135 nA
Input Bias Current IB - t14 :60 - :18 :95 _ t25 :150 nA
Input Voltage Range IVR :10.5 :11.8 - :10.5 L118 - tlth5 :11.8 - v
PTY-lot' CMRR VCM - t101l 110 124 - 102 121 - 96 118 - dB
Rejection Ratio
Power Supply
. . . PSRR VS= t4.5Vto t18V - 2 15 - 2 16 - 2 32 pV/V
Rejection Ratio
Large-Signal Avo RL 2 2kn, V0 = t10V 750 1500 - 700 1300 - 450 1000 - V/mV
Voltage Gain
oetryt Voltage vo Ru 2 2m :11.7 +_13.6 - 111.4 :13.5 - :110 :13.3 - v
NOTES: 2. The TCVOS performance is within the specifications unnulled or when
I. Input offset voltage measurements are performed by automated test nulled with Rp=8knto 20kn.TCVosis100%ttstedforA/Egradessample
equipment approximately 0.5 seconds after application of power. A/E tested for B/C/F/G grades.
grades guaranteed fully warmed up. 3. Guaranteed by design.
DICE CHARACTERISTICS
DIE SIZE 0.098 y; 0.056 inch, 5488 sq. mlls
(2.49 X 1.42 mm, 3.54 sq. mm)
. F-) INPUT
. (+) INPUT
. OUTPUT
. NULL
msmpwng
WAFER TEST LIMITS at Its = i15V, TA = 25° C for OP-37N, OP-37G and OP-37GR devices; TA = 125° C for OP-37NT and
OP-37GT devices, unless otherwise noted.
OP-37NT OP-37N OP-37GT OP-37G OP-37GR
PARAMETER SYMBOL CONDITIONS LIMIT LIMIT LIMIT LIMIT LIMIT UNITS
Input Offset Voltage Vos (Note 1} l 35 200 60 100 'N MAX
Input Offset Current los 50 35 B5 50 75 nA MAX
Input Bias Current IB fc60 t40 i95 :55 180 nA MAX
InputVoltage Range IVR t10.3 tll $10.3 ue11 All V MIN
Gommton-Mode
= + 1 114 100 106 N
Rejection Ratio CMRR VCM -11V 08 100 dB Ml
Power Supply L-- 25°C. VS = tAV to i18V 10 10 1O 10 20
V/V MAX
Rejection Ratio PSRR TA = 125°C. vs: t4.5V to rc18V 16 - 20 - - "
Large-Signal Ru 2 2m. Vo = A10V 600 1000 500 1000 700
V/mV MIN
Voltage Gain Avo RL 2 1kii, V0 = tlov - 800 - 800 -
. RLZZKD. $11.5 $12.0 $11.0 i120 $11.5
Output Voltage Swing Vo Ru-'. 600.1) - 110.0 - i101) 110.0 V MIN
Power Consumption Pd V0 = 0 - 140 - 140 170 mW MAX
NOTES:
For 25" C characteristics of OP-
OP-37G characteristics, respectively.
37NTand OP-37GT devices, see OP-37N and
Electrical tests are performed at wafer probe to the limits shown. Due to variations in assembly methods and normal yield loss, yield after packaging is not
guaranteed for standard produc1dice. Consult factory to negotiate specifications based on dice lot qualification through sample lot asembly and testing.
TYPICAL ELECTRICAL CHARACTERISTICS at Vs = i15V. TA = +25° C, unless otherwise noted.
OP-37NT OP-37N OP-37GT op-3FG OP-37GR
PARAMETER SYMBOL CONDITIONS TYPICAL TYPICAL TYPICAL TYPICAL TYPICAL UNITS
Average Input Offset TCVOS or Nulled or Unnulled o
Voltage Drift TCVOSn Rp= am to 20m 0.2 Od 0.3 0.8 OA wV/ C
Average Input Offset .
Current Drift TCIOS 80 80 130 130 180 pA/ G
Average Input Bias o
Current Drift TCIB 100 100 160 160 200 pA/ c
. to = 10Hz 3.5 3.5 3.5 3.5 3.8
'22:; S'SZnsit en to -, 30Hz 3.1 3.1 3.1 3.1 3.3 nV/x/ Hz
9 y to =1000Hz 3.0 3.0 3.0 3.0 3.2
In ut Noise to =10Hz 1.7 1.7 1.7 1.7 1.7
Cpurrent Densit i,, fo = 30Hz 1.0 1.0 1.0 1.0 1.0 pA/x/ Hz
y fo =1000Hz 0.4 0.4 0.4 0.4 0.4
Input Noise Voltage em”, 0.1 Hz to 10Hz 0.08 0.08 0.08 0.08 0.09 qu_p
Slew Rate SR Ru 2 an 17 17 17 17 17 V/us
Gain Bandwidth Product GBW fo =10kHz 63 63 63 63 63 MHz
1. Input offset voltage measurements are performed by automated test
equipment approximately 0.5 seconds after application of power.
TYPIICAL PERFORMANCE CHARACTERISTICS
NOISE-TESTER FREQUENCY
RESPONSE (0.1Hz TO 10Hz)
GAIN (dBl
TEST TIME OF10sec MUST BE USED TO
LIMIT LOW FREQUENCY ((0.1Hz) GAIN,
0.01 0.1 1.0 10 100
FREQUENCY (He)
INPUT WIDEBAND VOLTAGE
NOISE vs BANDWIDTH (0.1Hz
TO FREQUENCY INDICATED)
TA = 25°C
vs = :15v
RMS VOLTAGE NOISE (AV)
iy_01 l
mo 1k 10k 100k
BANDWIDTH (Hz)
VOLTAGE NOISE DENSITY
" SUPPLY VOLTAGE
TA = 25°C
_ AT 10Hz
; ""s------d'LL'L'"..,
g1 AT 1kHz
0 IO 20 30 40
TOTAL SUPPLY VOLTAGE (V+ - V-) (VOLTS)
L" c) \ISJWC
VOLTAGE \IOISE (nV/
TOTAL NOISE (nV/
VOLTAGE NOISE DENSITY
_ - BEBEQQENCY
Ilf CORNER
= Z7Hs
TA = 25°C
vs " tISV
FREQUENCY Wiz)
TOTAL NOISE vs SOURCE
RESISTANCE
TA = 25°C
VS = t'ISV
RtSISIOH NOISE ONLY
100 lk
SOURCE RESISTANCE In)
CURRENT NOISE (pA/
CURRENT NOISE DENSITY
- 1%55E99589Y "
l/f CORNER
= 140Hr
FREQUENCY (Hz)
A COMPARISON OF
OP AMP VOLTAGE
NOISE SPECTRA
I 1/1 CORNER
LOW NOISE
OP AMP
1tt CORNER
m CORNER
2.7m /
VOLTAGE NOISE (nV/
AUDIO RANGE
T0 ZOkHz
INSTRUMENTATION
RANGE TO DC
l, 10 100 1000
FREQUENCY (Hzl
VOLTAGE NOISE DENSITY
" TEMPERATURE
vs = t15V
J AT 10Hz /
E e----''"
g 3 AT 1kHz
-50 -25 o 25 50 75 mo 125
TEMPERATURE (°C)
SUPPLY CURRENT vs
SUPPLY VOLTAGE
, TA - 125°C
's s:rs.cr'"
if 3.0 - - TA = 25°C -,,,.e:.rc-"-:
m 2.0 w"''" I
TA = -s9'c
5 15 25 35 45
TOTAL SUPPLY VOLTAGE (VOLTS)