OP200ARC ,DUAL LOW OFFSET, LOW POWER OPERATIONAL AMPLIFIERapplications requiring multiple precision op amps and where
low power consumption is critical.
..
OP200AZ ,Dual Low Offset, Low Power Operational AmplifierGENERAL DESCRIPTIONNC 8 9 NCThe OP200 is the first monolithic dual operational amplifier toNC = NO ..
OP200EZ ,Dual Low Offset, Low Power Operational Amplifierfeatures an extremely low input offset voltage of less(P-Suffix),than 75 mV with a drift below 0.5 ..
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OP200GS ,Dual Low Offset, Low Power Operational AmplifierSPECIFICATIONSELECTRICAL
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OP200ARC
DUAL LOW OFFSET, LOW POWER OPERATIONAL AMPLIFIER
ANALOG
DEVICES
Dual Low Offset, Low Power
Operational Amplifier
FEATURES
. Low Input Offset Voltage ..................... 75W Max
. Low Offset Voltage Drift,
Over Hi5oC S. TA S +125°C ................ 0.5pV/° C Max
q Low Supply Current (Per Amplifier) .......... 725pA Max
. High Open-Loop Gain ................... 5000V/mV Min
. Low Input Bias Current ....................... 2nA Max
0 Low Noise Voltage Density ........... 11nv/vTiz- at 1kHz
q Stable With Large Capacitive Loads ............ 10nF Typ
0 Pin Compatible to OP-14, OP-221, LM158, MC1458/1558,
and LT1013 With Improved Performance
Available In Die Form
6RDERING INFORMATIONt
PACKAGE
T, = +25°c OPERATING
v05 MAX canon LCC TEMPERATURE
(WV) 842IN PLASTIC 20AX3NTACT RANGE
75 OP200AZ' - OP200ARC' MIL
75 OP200EZ - - XIND
150 OP200FZ - - XIND
200 - OP200GP - XIND
200 - opzooesH - XIND
For dewces processed in total compliance to MIL-STD-883, add IBBS after part
number. Consult factory for 883 data sheet.
Burn-in is available on commercial and industrial temperature range parts in
CerDIP, plastic DIP, and TO-can packages.
For availability and burn-in information on SO and PLCC packages, contact
your local sales office.
SIMPLIFIED SCHEMATIC (One of two amplifiers is shown.)
GENERAL DESCRIPTION
The OP-200 is the first monolithic dual operational amplifier to
offer OP-77 type precision performance. Available in the
industry standard 8-pin pinout, the OP-200 combines precision
performance with the space and cost savings offered by a dual
amplifier.
The OP-200 features an extremely low input offset voltage of
less than 75pV with a drift below 0.5,u.V/°C, guaranteed over the
PIN CONNECTIONS
LCC 16-PIN SOL
(RC-Suffix) (S-Suffix)
4N A LL) . V HE] our A
-"iti.'ic-z3'efhi->-j 15 NC
NCE Jt NC
V- A n v;
Iff n NC
+INBE E NC
-IN 3E1 I v- no OUT B
NC '3 El NC
EPOXY MINI-DIP (P-Suffix)
8-PIN HERMETIC DIP
(Z-Suffix)
it t o)ob Ou
A F watts ca
s-ll-- -t;
e ,rvi')rriri',t,, --, ~H “W
t t T “f Ov
0P2ilil
full military temperature range. Open-loop gain of the OP-200
exceeds 5,000,000 into a 10kfl load; input bias current is under
2nA; CMR is over 120dB and PSRR below 1.80V/V. Orr-chip
zener-zap trimming is used to achieve the extremely low input
offset voltage of the OP-200 and eliminates the need for offset
nulling.
Power consumption of the OP-200 is very low, with each
amplifier drawing less than 7250A of supply current. The total
current drawn by the dual OP-200 is less than one-halfthat ofa
single OP-07, yet the OP-200 offers significant improvements
over this industry standard op amp. The voltage noise density of
the OP-200, 11nv/v/iTz at 1kHz, is half that of most competitive
devices.
The OP-200 is pin compatible with the OP-14, OP-221, LM158,
MC1458/1558, and LT1013 and can be used to upg rade systems
using these devices. The OP-200 is an ideal choice for
applications requiring multiple precision op amps and where
low power consumption is critical.
For a quad precision op amp, see the OP-400.
ABSOLUTE MAXIMUM RATINGS (Note 1)
Supply Voltage ................................................................. iZOV
Differential Input Voltage ....................... . ......................... i30V
Input Voltage .................................................... Supply Voltage
Output Short-Circuit Duration ................................ Continuous
Storage Temperature Range
P, RC, s, Z-Package .................................. -65''C to +150°C
Lead Temperature Range (Soldering, 60 sec) .............. 300°C
Junction Temperature (T) ............................ --650C to +150°C
Operating Temperature h'ange
OP-200A .................................................... -550C to +125°C
OP-200E, OP-200F ..................................... --400C to +85°C
OP-200G ...................................................... -40oC to +85°C
PACKAGE TYPE 91A (Note 2) 'V UNITS
8-Pin Hermetic DIP (Z) 148 16 °C/W
8-Pin Plastic DIP (P) 96 37 °C/W
20-Contact LCC (RC) 88 33 “CM
16-Pin SOL (S) 92 27 °C/W
NOTES:
1. Absolute maximum ratings apply to both DICE and packaged parts, unless
otherwise noted.
8 A is specified tor worst case mounting conditions, i.e., l is specified for
device in socket far CerDlP. P-DIP, and LCC packages; ' is specified for
device soldered to printed circuit board for SOL package.
ELECTRICAL CHARACTERISTICS at VS = :15V, TA = T2500, unless otherwise noted.
OP-200A/E OP-200F OP-ZOOG
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
l tOffset
anage Vos - 25 75 i 50 150 - 80 200 0v
Long Term Input
- 0.1 - - 0.1 - - _1 -
Voltage Stability 0 pV/mo
l t Offset
"011,9”! los ch - 0V - 0.05 1.0 - 0.05 2.0 - 0.05 3.5 nA
m t Bias
Cpuurrent ls VCM = 0V - JI 2.0 - 0.1 4.0 - 0.1 5.0 nA
m t Noise
VZLIJtagel en W 0.1Hz to 10Hz - 0.5 - - 0.5 - - 0.5 - WW
Input Noise 10: 10Hz Note 1) - 22 36 - 22 36 - 22 - V/ .H
Voltage Density n 10:1000Hz ( r 11 18 - 11 18 - 11 - n rv Z
In ut Noise
prem in p-p 0.1Hzto1OHz - 15 - - 15 - - 15 - PAP-p
InputNoise _ Vi.
Current Density In to =10HZ - J4 - - OM - - 0.4 i pA/V Hz
Input Resistance
R - 1 - - 10 - - -
Differential Mode IN 0 10 Mn
Input Resistance
Common Mode R'NCM T 125 T T 125 _ i 125 - Gil
Large Signal Vo 0V
Volta e Gain Avo Ht = 10m 5000 12000 - 3000 7000 - 3000 7000 - w v
g RL = 2kil 2000 3700 - 1500 3200 - 1500 3200 - m
OP-ZUU
ELECTRICAL CHARACTERISTICS at Vs = :15V, TA = +25°C, unless otherwise noted. (Continued)
OP-200A/E 0P-200F OP-ZOOG
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Voltage IVR (Note a) t12 :13 - :12 i113 - :12 i13 - v
cowmgn'MOde CMR vCM - 112V 120 135 - 115 135 - 110 130 - dB
Rejection
Power P _ PSRR Vs = 13v to k18V - 0.4 1.8 - 0.4 3.2 - 0,6 5 6 WNIN
Rejection Ratio
Output Voltage V BL -10kn i12 i126 - i12 i126 - :12 112.6 - V
Swing o RL = 2kn :11 i122 - tll i122 - $11 $122 -
Supply Cuffem ' No Load - 570 725 - 570 725 - 570 725 “A
Per Amplifier
Slew Rate SFI 0.1 0.15 - 0.1 0.15 - 0.1 0.15 - V/ps
Gain Bandwidth GBWP AV = +1 - 500 - - 500 - - 500 - kHz
Product
Channel Vo = 20V -
CS p p 123 145 - 123 145 - 123 145 dB
Separation to = 10Hz (Note 2)
C - 3.2 - - 3.2 - - 3.2 - F
Capacitance IN p
Capacitive Load AV = +1 _ - 10 - - 10 - - 10 - nF
Stability No Oscillations
NOTES:
1. Sample tested.
2. Guaranteed but not 100% tested.
3. Guaranteed by CMR test.
ELECTRICAL CHARACTERISTICS at Vs = +15v, -55oC) s TA E 125°C for 0P-200A, unless otherwise noted.
OP-200A
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Input Offset Voltage Vos - 45 125 uv
Average Input Offset
TCV - J _ 0
Voltage Drift us 0 0 5 “w C
Input Offset Current los VCM = 0V - 0.15 2.5 nA
Input Bias Current la VCM = 0V - 0.9 5.0 nA
Vo = :10v
(2ri, fan Avo RL - lon 3000 9000 - w v
g RL = 2m 1000 2700 - m
Input Voltage Range IVR (Note 1) '_12 L125 - V
Common-Mode Rejection CMR VCM = i12V 115 130 2 dB
Power Supply
N = + +1 V - .
Rejection Ratio PSRR Vs ,3V to 8 0 2 3 2 yV/V
_ RL:10kI) ‘12 i124 -
t t V It V
Ou pu 0 age Swing o RL:2k(l FII +12 - V
Supply Current
Per Amplifier ls, No Load 600 775 PA
Capacitive Load Stability AV - 8 7 m:
No Oscillations
NOTES:
I, Guaranteed by CMR test.
ELECTRICAL CHARACTERISTICS at1/s = i15V, -40oC 5 T, 3 +85°C, unless otherwise noted.
OP-200E OP-200F OP-200G
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset
V - 35 100 - 80 250 - 110 300
Voltage os “V
Average Input ch - o 2 os - OE 1.5 - 0.6 2 0 V/°C
Offset Voltage Drift os . _ ' . . . u
Input Offset
l V f 0V - 0.08 2.5 - 0.08 3 5 - 0.1 6.0
Current 05 CM nA
Input Blas
= - 0.3 . i .3 7.0 - . .
Current 1a vCM OV 5 0 0 0 5 10 0 nA
Vo -- :10v
L -S 1
3:1: 493;” Avo RL - 10kil 3000 10000 - 2000 5000 - 2000 5000 - V/mV
g h = 2kn 1500 3200 i 1000 2500 - 1000 2500 -
Input Voltage
NR (Note 1) t12 i125 - $12 t12.5 - t12 :12.5 - V
C -M d
0mm." o e CMR Mcse- HI2V 115 130 - 110 130 - 105 130 - dB
Rejection
Power Supply
_ _ . PSRR Vs = L3V10 *18V - 0.15 3.2 - 0.15 5.6 - 0.3 10.0 rNIN
Rejection Ratio
OutputVoltage V RL=1Okil t12 :124 - f-ll 112.4 - +12 i124 - V
Swing O RL:2k(l tll t12 - :11 t12 - +11 :122 -
upp y CUT“ ' No Load - 600 775 - 600 775 - 600 775 YA
Per Amplifier
Capa0111ve Load AV - +1. _ - 10 _ - 10 - 10 - nF
Stability No Oscillations
NOTES:
1, Guaranteed by CMR test.
CHANNEL SEPARATION TEST CIRCUIT NOISE TEST SCHEMATIC
CHANNEL SEPARATION = 20log (
onoo L-o Va
Ve/tooo
k-o v1 2ov,.,,@1om
o TO SPECTRUM
WT ANALYZER
TYPICAL PERFORMANCE CHARACTERISTICS
INPUT OFFSET CURRENT (pA)
VOLTAGE NOISE DENSITY (nV/\ Hz)
CHANGE |N OFFSET VOLTAGE (AV)
WARM-UP DRIFT
TA = 25°C
vs ' tIW
INPUT OFFSET VOLTAGE (yV)
1/''''"
0 1 2 3 4 5
TIME (MINUTES)
INPUT OFFSET CURRENT
vs TEMPERATURE
vs = ~15v
INPUT BIAS CURRENT (nA)
Ns, /’
-75 -50 -25 0 25 50 " 100 125
TEMPERATURE CC)
VOLTAGE NOISE DENSITY
vs FREQUENCY
90 TA = 25°C
80 Its = t15V
CURRENT NOISE DENSITY (M/V/Hz)
1 10 100 1k
FREQUENCY (Hz)
INPUT OFFSET VOLTAGE
vs TEMPERATURE
vs = :1sv
-75 -50 -25 il 25 50 75 100 125
TEMPERATURE CC)
INPUT BIAS CURRENT
vs COMMON-MODE VOLTAGE
TA = 215°C
Vs = t15V
thit 's, ,/
-15 -10 -5 o 5 IO 15
COMMON-MODE VOLTAGE (VOLTS)
CURRENT NOISE DENSITY
" FREQUENCY
TA = 25°C
vs = :15v
1 10 100 1k
FREQUENCY (Hz)
INPUT BIAS CURRENT (nA)
COMMON-MODE REJECTION (dB)
INPUT BIAS CURRENT
vs TEMPERATURE
Vs = ttW
-rs -50 -25 0 25 50 75 100 125
TEMPERATURE CC)
COMMON-MODE REJECTION
vs FREQUENCY
Ta = 25°C
" = t15V
1 10 100 1k 10k
FREQUENCY (Hz)
0.1 Ha TO 10H: NOISE
NOISE VOLTAGE (400nV/div)
TIME (SEC)