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a
FEATURES
EASY TO USE
Gain Set with One External Resistor
(Gain Range 1 to 1000)
Wide Power Supply Range ( 2.3 V to
Higher Performance than Three Op Amp IA Designs
Available in 8-Lead DIP and SOIC Packaging
Low Power, 1.3 mA max Supply Current
EXCELLENT DC PERFORMANCE ("B GRADE")
50 V max, Input Offset Voltage
0.6 V/ C max, Input Offset Drift
1.0 nA max, Input Bias Current
100 dB min Common-Mode Rejection Ratio (G = 10)
LOW NOISE
9 nV/ Hz, @ 1 kHz, Input Voltage Noise
0.28 V p-p Noise (0.1 Hz to 10 Hz)
EXCELLENT AC SPECIFICATIONS
120 kHz Bandwidth (G = 100)
15 s Settling Time to 0.01%
APPLICATIONS
Weigh Scales
ECG and Medical Instrumentation
Transducer Interface
Data Acquisition Systems
Industrial Process Controls
Battery Powered and Portable Equipment
PRODUCT DESCRIPTION
The AD620 is a low cost, high accuracy instrumentation ampli-
fier that requires only one external resistor to set gains of 1 to
30,000
25,000
20,000
15,000
AD620A
10,000
R
G
5,000
0
0
5
Figure 1. Three Op Amp IA Designs vs. AD620
REV. E
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
which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of Analog Devices.
18 V)
3 OP-AMP
IN-AMP
(3 OP-07s)
10
15
SUPPLY CURRENT – mA
Instrumentation Amplifier
8-Lead Plastic Mini-DIP (N), Cerdip (Q)
1000. Furthermore, the AD620 features 8-lead SOIC and DIP
packaging that is smaller than discrete designs, and offers lower
power (only 1.3 mA max supply current), making it a good fit
for battery powered, portable (or remote) applications.
The AD620, with its high accuracy of 40 ppm maximum
nonlinearity, low offset voltage of 50 V max and offset drift of
0.6 V/ C max, is ideal for use in precision data acquisition
systems, such as weigh scales and transducer interfaces. Fur-
thermore, the low noise, low input bias current, and low power
of the AD620 make it well suited for medical applications such
as ECG and noninvasive blood pressure monitors.
The low input bias current of 1.0 nA max is made possible with
the use of Superβeta processing in the input stage. The AD620
works well as a preamplifier due to its low input voltage noise of
9 nV/ Hz at 1 kHz, 0.28 V p-p in the 0.1 Hz to 10 Hz band,
0.1 pA/ Hz input current noise. Also, the AD620 is well suited
for multiplexed applications with its settling time of 15 s to
0.01% and its cost is low enough to enable designs with one in-
amp per channel.
10,000
1,000
100
10
1
0.1
20
1k
Figure 2. Total Voltage Noise vs. Source Resistance
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700
Fax: 781/326-8703
Low Cost, Low Power
CONNECTION DIAGRAM
and SOIC (R) Packages
1
8
R
R
G
G
–IN
2
7
+V
S
6
+IN
3
OUTPUT
–V
4
AD620
5
REF
S
TOP VIEW
TYPICAL STANDARD
BIPOLAR INPUT
IN-AMP
G = 100
AD620 SUPER ETA
BIPOLAR INPUT
IN-AMP
10k
100k
1M
SOURCE RESISTANCE –
World Wide Web Site: http://www.analog.com
© Analog Devices, Inc., 1999
AD620
10M
100M
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Table of Contents
Related Manuals for Analog Devices AD620
Summary of Contents for Analog Devices AD620
- Page 1 9 nV/ Hz at 1 kHz, 0.28 V p-p in the 0.1 Hz to 10 Hz band, 0.1 pA/ Hz input current noise. Also, the AD620 is well suited for multiplexed applications with its settling time of 15 s to 0.01% and its cost is low enough to enable designs with one in-...
- Page 2 AD620–SPECIFICATIONS Model Conditions GAIN G = 1 + (49.4 k/R Gain Range Gain Error = 10 V G = 1 G = 10 G = 100 G = 1000 Nonlinearity, = –10 V to +10 V, G = 1–1000 = 10 k G = 1–100...
- Page 3 TEMPERATURE RANGE For Specified Performance NOTES See Analog Devices military data sheet for 883B tested specifications. Does not include effects of external resistor R One input grounded. G = 1. This is defined as the same supply range which is used to specify PSR.
-
Page 4: Absolute Maximum Ratings
AD620 (A, B) ..... . –40 C to +85 C AD620 (S) ......–55 C to +125 C Lead Temperature Range (Soldering 10 seconds) . - Page 5 Figure 7. Change in Input Offset Voltage vs. Warm-Up Time 1000 +200 +400 Figure 8. Voltage Noise Spectral Density vs. Frequency, (G = 1–1000) –5– AD620 –I –75 –25 TEMPERATURE – C WARM-UP TIME – Minutes GAIN = 1 GAIN = 10...
- Page 6 AD620–Typical Characteristics 1000 FREQUENCY – Hz Figure 9. Current Noise Spectral Density vs. Frequency TIME – 1 SEC/DIV Figure 10a. 0.1 Hz to 10 Hz RTI Voltage Noise (G = 1) TIME – 1 SEC/DIV Figure 10b. 0.1 Hz to 10 Hz RTI Voltage Noise (G = 1000) 1000 Figure 11.
- Page 7 –1.5 +1.5 +1.0 +0.5 –V +0.0 Figure 19. Output Voltage Swing vs. Supply Voltage, G = 10 –7– AD620 G = 10, 100, 1000 G = 1 G = 1000 G = 100 100k FREQUENCY – Hz SUPPLY VOLTAGE Volts...
- Page 8 AD620 G = 10 LOAD RESISTANCE – Figure 20. Output Voltage Swing vs. Load Resistance ........
- Page 9 ........Figure 31a. Gain Nonlinearity, G = 1, R (10 V = 1 ppm) –9– AD620 TO 0.1% 1000 = 10 k...
-
Page 10: Theory Of Operation
Figure 33. Simplified Schematic of AD620 = 10 k THEORY OF OPERATION The AD620 is a monolithic instrumentation amplifier based on a modification of the classic three op amp approach. Absolute value trimming allows the user to program gain accurately (to 0.15% at G = 100) with only one resistor. - Page 11 –40 C to +85 C. The error budget table below shows how to calculate the effect various error sources have on circuit accuracy. Regardless of the system in which it is being used, the AD620 provides greater accuracy, and at low power and price. In simple...
- Page 12 0.10mA 1.3mA Medical ECG The low current noise of the AD620 allows its use in ECG monitors (Figure 36) where high source resistances of 1 M or higher are not uncommon. The AD620’s low power, low supply voltage requirements, and space-saving 8-lead mini-DIP and SOIC package offerings make it an excellent choice for battery powered data recorders.
-
Page 13: Gain Selection
Precision V-I Converter The AD620, along with another op amp and two resistors, makes a precision current source (Figure 37). The op amp buffers the reference terminal to maintain good CMR. The output voltage of the AD620 appears across R1, which converts it to a current. -
Page 14: Common-Mode Rejection
+ INPUT Figure 40. Common-Mode Shield Driver GROUNDING Since the AD620 output voltage is developed with respect to the potential on the reference terminal, it can solve many grounding problems by simply tying the REF pin to the appropriate “local ground.”... - Page 15 Figure 42. Refer to the Instrumentation Amplifier Application Guide (free from Analog Devices) for more information regarding in amp applications. LOAD...
-
Page 16: Outline Dimensions
AD620 0.210 (5.33) 0.160 (4.06) 0.115 (2.93) OUTLINE DIMENSIONS Dimensions shown in inches and (mm). Plastic DIP (N-8) Package 0.430 (10.92) 0.348 (8.84) 0.280 (7.11) 0.240 (6.10) 0.325 (8.25) 0.300 (7.62) 0.060 (1.52) PIN 1 0.015 (0.38) 0.130 (3.30) SEATING 0.022 (0.558)
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