AD625JNZ Analog Devices Inc, AD625JNZ Datasheet

IC AMP INST 25MHZ LN 16DIP

AD625JNZ

Manufacturer Part Number
AD625JNZ
Description
IC AMP INST 25MHZ LN 16DIP
Manufacturer
Analog Devices Inc
Type
Low Noiser
Datasheets
1.AD625KNZ.pdf (15 pages)
2.AD625JNZ.pdf (5 pages)

Specifications of AD625JNZ

Amplifier Type
Instrumentation
Number Of Circuits
1
Slew Rate
5 V/µs
Gain Bandwidth Product
25MHz
-3db Bandwidth
650kHz
Current - Input Bias
30nA
Voltage - Input Offset
50µV
Current - Supply
3.5mA
Voltage - Supply, Single/dual (±)
±6 V ~ 18 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Through Hole
Package / Case
16-DIP (0.300", 7.62mm)
Bandwidth
650 kHz
Common Mode Rejection Ratio
75
Current, Input Bias
±30 nA
Current, Input Offset
±2 nA
Current, Output
5 mA
Current, Supply
3.5 mA
Number Of Amplifiers
Five
Package Type
PDIP-16
Power Dissipation
450 mW
Resistance, Input
1 Gigaohms
Temperature, Operating, Range
0 to +70 °C
Voltage, Input Offset
50 μV
Voltage, Noise
4 nV/sqrt Hz
Voltage, Output Swing
±10 V
Voltage, Supply
±6 to ±18 V
No. Of Amplifiers
5
Input Offset Voltage
200µV
Gain Db Min
1dB
Amplifier Output
Single Ended
Cmrr
115dB
Supply Voltage Range
± 6V To ± 18V
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Current - Output / Channel
-
Lead Free Status / Rohs Status
RoHS Compliant part Electrostatic Device

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
BOSTOCK HK LIMITED BOSTOCK HK LIMITED
Part Number:
AD625JNZ
Manufacturer:
ADI
Quantity:
439
a
PRODUCT DESCRIPTION
The AD625 is a precision instrumentation amplifier specifically
designed to fulfill two major areas of application: 1) Circuits re-
quiring nonstandard gains (i.e., gains not easily achievable with
devices such as the AD524 and AD624). 2) Circuits requiring a
low cost, precision software programmable gain amplifier.
For low noise, high CMRR, and low drift the AD625JN is the
most cost effective instrumentation amplifier solution available.
An additional three resistors allow the user to set any gain from
1 to 10,000. The error contribution of the AD625JN is less than
0.05% gain error and under 5 ppm/°C gain TC; performance
limitations are primarily determined by the external resistors.
Common-mode rejection is independent of the feedback resistor
matching.
A software programmable gain amplifier (SPGA) can be config-
ured with the addition of a CMOS multiplexer (or other switch
network), and a suitable resistor network. Because the ON
resistance of the switches is removed from the signal path, an
AD625 based SPGA will deliver 12-bit precision, and can be
programmed for any set of gains between 1 and 10,000, with
completely user selected gain steps.
For the highest precision the AD625C offers an input offset
voltage drift of less than 0.25 µV/°C, output offset drift below
15 µV/°C, and a maximum nonlinearity of 0.001% at G = 1. All
grades exhibit excellent ac performance; a 25 MHz gain band-
width product, 5 V/µs slew rate and 15 µs settling time.
The AD625 is available in three accuracy grades (A, B, C) for
industrial (–40°C to +85°C) temperature range, two grades (J,
K) for commercial (0°C to +70°C) temperature range, and one
(S) grade rated over the extended (–55°C to +125°C) tempera-
ture range.
√Hz
PRODUCT HIGHLIGHTS
1. The AD625 affords up to 16-bit precision for user selected
2. A 12-bit software programmable gain amplifier can be config-
3. The gain accuracy and gain temperature coefficient of the
4. The AD625 provides totally independent input and output
5. The proprietary design of the AD625 provides input voltage
6. External resistor matching is not required to maintain high
+INPUT
–INPUT
SENSE
SENSE
–GAIN
–GAIN
DRIVE
+GAIN
DRIVE
+GAIN
fixed gains from 1 to 10,000. Any gain in this range can be
programmed by 3 external resistors.
ured using the AD625, a CMOS multiplexer and a resistor
network. Unlike previous instrumentation amplifier designs,
the ON resistance of a CMOS switch does not affect the gain
accuracy.
amplifier circuit are primarily dependent on the user selected
external resistors.
offset nulling terminals for high precision applications. This
minimizes the effects of offset voltage in gain-ranging
applications.
noise of 4 nV/√Hz at 1 kHz.
common-mode rejection.
50
50
Instrumentation Amplifier
FUNCTIONAL BLOCK DIAGRAM
+
+
Programmable Gain
V
+
+
B
10k
10k
AD625
+
10k
10k
AD625
SENSE
OUTPUT
REFERENCE

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AD625JNZ Summary of contents

Page 1

PRODUCT DESCRIPTION The AD625 is a precision instrumentation amplifier specifically designed to fulfill two major areas of application: 1) Circuits re- quiring nonstandard gains (i.e., gains not easily achievable with devices such as the AD524 and AD624). 2) ...

Page 2

AD625–SPECIFICATIONS Model GAIN Gain Equation Gain Range 1 Gain Error Nonlinearity, Gain = 1-256 Gain>256 1 Gain vs. Temp. Gain<1000 GAIN SENSE INPUT Gain Sense Current vs. Temperature Gain Sense Offset Current vs. Temperature VOLTAGE OFFSET (May be Nulled) Input ...

Page 3

Model Min NOISE Voltage Noise, 1 kHz R.T.I. R.T.O. R.T.I., 0 100 G = 1000 Current Noise 0 SENSE INPUT ...

Page 4

AD625 ABSOLUTE MAXIMUM RATINGS* Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ± ...

Page 5

SUPPLY VOLTAGE – V –160 –140 G = 1000 G = 100 –120 –100 –80 –60 –40 – 100 ...

Page 6

AD625 –10 –20 –30 –40 –125 –75 – 125 TEMPERATURE – C 8.0 6.0 4.0 2 SUPPLY VOLTAGE – OUT AD625 10V –V ...

Page 7

– 1000 G = 100 – OUTPUT STEP – – 100 G = 1000 8 TO – –12 ...

Page 8

AD625 THEORY OF OPERATION The AD625 is a monolithic instrumentation amplifier based on a modification of the classic three-op-amp approach. Monolithic construction and laser-wafer-trimming allow the tight matching and tracking of circuit components. This insures the high level of performance ...

Page 9

Any resistors in series with the inputs of the AD625 will degrade the noise performance. For this reason the circuit in Figure 26b should be used if the gains are all greater than 5. For gains less than 5, either ...

Page 10

AD625 the I × R drops “inside the loop” and virtually eliminating this error source. Typically, IC instrumentation amplifiers are rated for a full ± 10 volt output swing into 2 kΩ. In some applications, however, the need exists to ...

Page 11

Offset voltage and offset voltage drift each have two compo- nents: input and output. Input offset is that component of offset that is generated at the input stage. Measured at the output it is directly proportional to gain, i.e., input ...

Page 12

AD625 GROUND RETURNS FOR BIAS CURRENTS Input bias currents are those currents necessary to bias the input transistors amplifier. There must be a direct return path for these currents, otherwise they will charge external capaci- tances, causing ...

Page 13

These capacitances may also be incorporated as part of the external input protection circuit (see section on Input Protec- tion general practice every effort should be made to match the extraneous capacitance at Pins 15 and 2, and ...

Page 14

AD625 1000 800 400 R 200 100 500 GAIN DETERMINING SPGA RESISTOR NETWORK VALUES The individual resistors in the gain network can be calculated sequentially ...

Page 15

Plastic DIP (N-16) 0.755 (19.18) 0.745 (18.93 0.26 (6.61) 0.24 (6. 0.306 (7.78) PIN 1 0.294 (7.47) 0.17 (4.32) MAX 0.175 (4.45) SEATING 0.12 (3.05) PLANE 0.02 (0.508) 0.015 (2.67) 0.065 (1.66) 0.015 (0.381) 0.095 ...

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