OP37EPZ Analog Devices Inc, OP37EPZ Datasheet - Page 11
OP37EPZ
Manufacturer Part Number
OP37EPZ
Description
IC OPAMP GP 63MHZ LN PREC 8DIP
Manufacturer
Analog Devices Inc
Specifications of OP37EPZ
Slew Rate
17 V/µs
Amplifier Type
General Purpose
Number Of Circuits
1
Gain Bandwidth Product
63MHz
Current - Input Bias
10nA
Voltage - Input Offset
10µV
Voltage - Supply, Single/dual (±)
±4 V ~ 18 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
Op Amp Type
General Purpose
No. Of Amplifiers
1
Bandwidth
63MHz
Supply Voltage Range
± 4V To ± 18V
Amplifier Case Style
DIP
No. Of Pins
8
Common Mode Rejection Ratio
126
Current, Input Bias
±10 nA
Current, Input Offset
7 nA
Harmonic Distortion
0.03 %
Impedance, Thermal
43 °C/W
Package Type
PDIP-8
Power Dissipation
90 mW
Resistance, Input
6 Megohms (Differential), 3 Gigaohms (Common-Mode)
Temperature, Operating, Range
0 to +70 °C
Voltage, Gain
1800 V/mV
Voltage, Input
±12.3 V
Voltage, Noise
3.5 nV/sqrt Hz
Voltage, Offset
10 μV
Voltage, Output, High
+13.8 V
Voltage, Output, Low
-13.8 V
Voltage, Supply
±15 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Supply
-
Output Type
-
Current - Output / Channel
-
-3db Bandwidth
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
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Quantity
Price
APPLICATIONS INFORMATION
OP37 Series units may be inserted directly into 725 and OP07
sockets with or without removal of external compensation or
nulling components. Additionally, the OP37 may be fitted to
unnulled 741type sockets; however, if conventional 741 nulling
circuitry is in use, it should be modified or removed to ensure
correct OP37 operation. OP37 offset voltage may be nulled to
zero (or other desired setting) using a potentiometer (see figure 1).
The OP37 provides stable operation with load capacitances of
up to 1000 pF and ± 10 V swings; larger capacitances should be
decoupled with a 50 W resistor inside the feedback loop. Closed
loop gain must be at least five. For closed loop gain between five
to ten, the designer should consider both the OP27 and the OP37.
For gains above ten, the OP37 has a clear advantage over the
unity stable OP27.
Thermoelectric voltages generated by dissimilar metals at the input
terminal contacts can degrade the drift performance. Best
operation will be obtained when both input contacts are main-
tained at the same temperature.
Offset Voltage Adjustment
The input offset voltage of the OP37 is trimmed at wafer level.
However, if further adjustment of V
potentiometer may be used. TCV
nulling circuit). Other potentiometer values from 1 kW to 1 MW
can be used with a slight degradation (0.1 mV/∞C to 0.2 mV/∞C) of
TCV
approximately (V
will be 0.33 mV/∞C if V
adjustment range with a 10 kW potentiometer is ± 4 mV. If smaller
adjustment range is required, the nulling sensitivity can be reduced
by using a smaller pot in conjunction with fixed resistors. For
example, the network shown in figure 2 will have a ± 280 mV ad-
justment range.
REV. B
OS
. Trimming to a value other than zero creates a drift of
Figure 2. Offset Voltage Adjustment
Figure 1. Offset Nulling Circuit
1
OS
+
–
/300) mV/∞C. For example, the change in TCV
Figure 3. Burn-In Circuit
4.7k
OS
is adjusted to 100 mV. The offset voltage
OP37
V–
1k
OP37
10k
–18V
+18V
V+
POT
OS
R
P
OS
is not degraded (see offset
4.7k
is necessary, a 10 kW trim
V+
OUTPUT
8
OS
–11–
Noise Measurements
To measure the 80 nV peak-to-peak noise specification of the
OP37 in the 0.1 Hz to 10 Hz range, the following precautions
must be observed:
∑ The device has to be warmed-up for at least five minutes. As
∑ For similar reasons, the device has to be well-shielded from
∑ Sudden motion in the vicinity of the device can also
∑ The test time to measure 0.1 Hz to l0 Hz noise should not
∑ A noise-voltage-density test is recommended when measuring
Optimizing Linearity
Best linearity will be obtained by designing for the minimum
output current required for the application. High gain and
excellent linearity can be achieved by operating the op amp with
a peak output current of less than ± 10 mA.
Instrumentation Amplifier
A three-op-amp instrumentation amplifier, shown in figure 4,
provides high gain and wide bandwidth. The input noise of the
circuit below is 4.9 nV/÷Hz. The gain of the input stage is set at
25 and the gain of the second stage is 40; overall gain is 1000.
The amplifier bandwidth of 800 kHz is extraordinarily good for
a precision instrumentation amplifier. Set to a gain of 1000, this
yields a gain bandwidth product of 800 MHz. The full-power
bandwidth for a 20 V p-p output is 250 kHz. Potentiometer
R7 provides quadrature trimming to optimize the instrumentation
amplifier’s ac common-mode rejection.
INPUT (–)
INPUT (+)
shown in the warm-up drift curve, the offset voltage typically
changes 4 mV due to increasing chip temperature after power up.
In the ten second measurement interval, these temperature-
induced effects can exceed tens of nanovolts.
air currents. Shielding minimizes thermocouple effects.
“feedthrough” to increase the observed noise.
exceed 10 seconds. As shown in the noise-tester frequency
response curve, the 0.1 Hz corner is defined by only one zero.
The test time of ten seconds acts as an additional zero to eliminate
noise contributions from the frequency band below 0.1 Hz.
noise on a large number of units. A 10 Hz noise-voltage-density
measurement will correlate well with a 0.1 Hz-to-10 Hz peak-to-peak
noise reading, since both results are determined by the white
noise and the location of the 1/f corner frequency.
390
100
R3
R2
Figure 4a. Instrumentation Amplifier
+
+
–
–
OP37
OP37
NOTES:
TRIM R2 FOR A
TRIM R10 FOR dc CMRR
TRIM R7 FOR MINIMUM V
0.1%
0.1%
5k
5k
R1
R4
100pF
VCL
500
500
0.1%
0.1%
R6
R5
C1
= 1000
OUT
R7
100k
AT V
19.8k
20k
0.1%
CM
R9
R8
+
–
= 20V p-p, 10kHz
OP37
OP37
R10
500
V
OUT
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