IC OPAMP GP 6MHZ QUAD LN 14CDIP

OP470EY

Manufacturer Part NumberOP470EY
DescriptionIC OPAMP GP 6MHZ QUAD LN 14CDIP
ManufacturerAnalog Devices Inc
OP470EY datasheet
 

Specifications of OP470EY

Slew Rate2 V/µsRohs StatusRoHS non-compliant
Amplifier TypeGeneral PurposeNumber Of Circuits4
Gain Bandwidth Product6MHzCurrent - Input Bias6nA
Voltage - Input Offset100µVCurrent - Supply9mA
Voltage - Supply, Single/dual (±)9 V ~ 36 V, ±4.5 V ~ 18 VOperating Temperature-25°C ~ 85°C
Mounting TypeThrough HolePackage / Case14-CDIP (0.300", 7.62mm)
Op Amp TypeGeneral PurposeNo. Of Amplifiers4
Bandwidth6MHzSupply Voltage Range± 4.5V To ± 18V
Amplifier Case StyleDIPNo. Of Pins14
Output Type-Current - Output / Channel-
-3db Bandwidth-  
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FEATURES
Very Low-Noise, 5 nV/÷Hz @ 1 kHz Max
Excellent Input Offset Voltage, 0.4 mV Max
Low Offset Voltage Drift, 2 V/ C Max
Very High Gain, 1000 V/mV Min
Outstanding CMR, 110 dB Min
Slew Rate, 2 V/ s Typ
Gain-Bandwidth Product, 6 MHz Typ
Industry Standard Quad Pinouts
Available in Die Form
GENERAL DESCRIPTION
The OP470 is a high-performance monolithic quad operational
amplifier with exceptionally low voltage noise, 5 nV/÷Hz at
1 kHz max, offering comparable performance to ADI’s industry
standard OP27.
The OP470 features an input offset voltage below 0.4 mV,
excellent for a quad op amp, and an offset drift under 2 mV/∞C,
guaranteed over the full military temperature range. Open loop
gain of the OP470 is over 1,000,000 into a 10 kW load ensuring
excellent gain accuracy and linearity, even in high gain applica-
tions. Input bias current is under 25 nA, which reduces errors
due to signal source resistance. The OP470’s CMR of over 110
dB and PSRR of less than 1.8 mV/V significantly reduce errors
due to ground noise and power supply fluctuations. Power
consumption of the quad OP470 is half that of four OP27s, a
significant advantage for power conscious applications. The
OP470 is unity-gain stable with a gain bandwidth product of
6 MHz and a slew rate of 2 V/ms.
–IN
REV. B
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, nor for any infringements of patents or other rights of third parties that
may result from its use. No license is granted by implication or otherwise
under any patent or patent rights of Analog Devices.
14-Lead Hermetic DIP
(Y-Suffix)
14-Lead Plastic DIP
(P-Suffix)
OUT A
1
–IN A
2
+IN A
3
OP470
V+
4
+IN B
5
–IN B
6
OUT B
7
The OP470 offers excellent amplifier matching which is impor-
tant for applications such as multiple gain blocks, low noise
instrumentation amplifiers, quad buffers, and low noise active
filters.
The OP470 conforms to the industry standard 14-lead DIP
pinout. It is pin compatible with the LM148/149, HA4741,
HA5104, and RM4156 quad op amps and can be used to up-
grade systems using these devices.
For higher speed applications, the OP471, with a slew rate of 8
V/ms, is recommended.
SIMPLIFIED SCHEMATIC
BIAS
+IN
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700
Fax: 781/326-8703
Very Low Noise Quad
Operational Amplifier
OP470
PIN CONNECTIONS
16-Lead SOIC Package
(S-Suffix)
OUT A
1
OUT D
16
–IN A
2
15
–IN D
+IN A
+IN D
3
14
OUT D
14
V+
V–
–IN D
4
OP470
13
13
+IN B
+IN C
5
12
+IN D
12
–IN B
–IN C
V–
6
11
11
OUT B
OUT C
+IN C
7
10
10
NC
NC
9
–IN C
8
9
OUT C
8
NC = NO CONNECT
V+
V–
www.analog.com
© Analog Devices, Inc., 2002

OP470EY Summary of contents

  • Page 1

    FEATURES Very Low-Noise, 5 nV/÷ kHz Max Excellent Input Offset Voltage, 0.4 mV Max Low Offset Voltage Drift Max Very High Gain, 1000 V/mV Min Outstanding CMR, 110 dB Min Slew Rate ...

  • Page 2

    OP470–SPECIFICATIONS ELECTRICAL CHARACTERISTICS Parameter Symbol Conditions INPUT OFFSET VOLTAGE V OS INPUT OFFSET CURRENT INPUT BIAS CURRENT INPUT NOISE VOLTAGE e 0 np-p (Note 1) INPUT NOISE f O Voltage ...

  • Page 3

    ELECTRICAL CHARACTERISTICS Parameter Symbol INPUT OFFSET VOLTAGE V OS AVERAGE INPUT Offset Voltage Drift TCV INPUT OFFSET CURRENT I OS INPUT BIAS CURRENT I B LARGE-SIGNAL Voltage Gain INPUT VOLTAGE RANGE IVR OUTPUT VOLTAGE SWING V O ...

  • Page 4

    OP470–SPECIFICATIONS WAFER TEST LIMITS ( Parameter Symbol INPUT OFFSET VOLTAGE V OS INPUT OFFSET CURRENT I OS INPUT BIAS CURRENT I B LARGE-SIGNAL Voltage Gain A VO INPUT VOLTAGE RANGE IVR * OUTPUT VOLTAGE SWING V O ...

  • Page 5

    ... A V max Cerdip 14-Pin Plastic 400 400 OP470AY* 400 OP470EY 800 OP470FY* 1000 OP470GP 1000 OP470GS *Not for new design; obsolete April 2002. For military processed devices, please refer to the standard Microcircuit Drawing (SMD) available at www.dscc.dla.mil/programs/milspec/default.asp SMD Part Number ADI Equivalent ...

  • Page 6

    OP470 –Typical Performance Characteristics 15V I/F CORNER = 5Hz 100 1k FREQUENCY – Hz TPC 1. Voltage Noise Density vs. ...

  • Page 7

    120 V = 15V S 110 100 100 1k 10k 100k 1M FREQUENCY – Hz TPC 10. CMR vs. Frequency 140 T = ...

  • Page 8

    OP470 15V S 24 THD = 10k 100k 1M 10M FREQUENCY – Hz TPC 19. Maximum Output Swing vs. Frequency 360 ...

  • Page 9

    OP470 50k 50 1/4 OP470 CHANNEL SEPARATION = 20 LOG Figure 2. Channel Separation Test Circuit +18V +1V +1V 11 –18V –1V –1V Figure 3. Burn-In Circuit APPLICATIONS ...

  • Page 10

    OP470 Figure 6 shows peak-to-peak noise versus source resistance over the 0 range. Once again, at low values of R voltage noise of the OP470 is the major contributor to peak-to-peak noise with current noise the ...

  • Page 11

    The test time to measure 0 noise should not ex- ceed 10 seconds. As shown in the noise-tester frequency-response curve of Figure 8, the 0.1 Hz corner is defined by only one pole. The test ...

  • Page 12

    OP470 CAPACITIVE LOAD DRIVING AND POWER SUPPLY CONSIDERATIONS The OP470 is unity-gain stable and is capable of driving large capacitive loads without oscillating. Nonetheless, good supply bypassing is highly recommended. Proper supply bypassing reduces problems caused by supply line noise ...

  • Page 13

    Figure 14. Noise Density of Low Noise Amplifier 1000 DIGITAL PANNING CONTROL Figure 15 uses a DAC-8408, quad 8-bit DAC to pan a signal between two channels. The complementary DAC current out- puts two ...

  • Page 14

    OP470 SQUELCH AMPLIFIER The circuit of Figure simple squelch amplifier that uses a FET switch to cut off the output when the input signal falls below a preset limit. The input signal is sampled by a peak ...

  • Page 15

    Ceramic Dip-Glass Hermetic Seal [CERDIP] (Q-14) Dimensions shown in inches and (millimeters) 0.098 (2.49) MAX 0.005 (0.13) MIN 14 8 0.310 (7.87) PIN 1 0.220 (5.59 0.100 (2.54) BSC 0.785 (19.94) MAX 0.060 (1.52) 0.015 (0.38) 0.200 ...

  • Page 16

    ADV611/ADV612 Revision History Location 10/02—Data Sheet changed from REV REV. B. Edits to 16-Lead SOIC . . . . . . . . . . . . . . . . . . . . . . . ...