AD797BRZ-REEL Analog Devices Inc, AD797BRZ-REEL Datasheet - Page 11
AD797BRZ-REEL
Manufacturer Part Number
AD797BRZ-REEL
Description
IC,Operational Amplifier,SINGLE,BIPOLAR,SOP,8PIN,PLASTIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD797ANZ.pdf
(20 pages)
Specifications of AD797BRZ-REEL
Amplifier Type
General Purpose
Number Of Circuits
1
Slew Rate
20 V/µs
Gain Bandwidth Product
110MHz
-3db Bandwidth
8MHz
Current - Input Bias
250nA
Voltage - Input Offset
10µV
Current - Supply
8.2mA
Current - Output / Channel
50mA
Voltage - Supply, Single/dual (±)
±5 V ~ 15 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Manufacturer
Quantity
Price
Part Number:
AD797BRZ-REEL
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Company:
Part Number:
AD797BRZ-REEL7
Manufacturer:
TE
Quantity:
714
Part Number:
AD797BRZ-REEL7
Manufacturer:
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Quantity:
20 000
THEORY OF OPERATION
The architecture of the AD797 was developed to overcome
inherent limitations in previous amplifier designs. Previous
precision amplifiers used three stages to ensure high open-loop
gain (see Figure 30) at the expense of additional frequency com-
pensation components. Slew rate and settling performance are
usually compromised, and dynamic performance is not adequate
beyond audio frequencies. As can be seen in Figure 30, the first
stage gain is rolled off at high frequencies by the compensation
network. Second stage noise and distortion then appears at the
input and degrade performance. The AD797, on the other hand,
uses a single ultrahigh gain stage to achieve dc as well as dynamic
precision. As shown in the simplified schematic (Figure 31),
Node A, Node B, and Node C track the input voltage, forcing
the operating points of all pairs of devices in the signal path to
match. By exploiting the inherent matching of devices fabricated on
the same IC chip, high open-loop gain, CMRR, PSRR, and low
V
to NPN and PNP to PNP), not by an absolute parameter such as
beta and the early voltage.
+IN
This matching benefits not just dc precision, but, because it holds
up dynamically, both distortion and settling time are also reduced.
This single stage has a voltage gain of >5 × 10
while at the same time providing a THD + noise of less than
−120 dB and true 16-bit settling in less than 800 ns.
OS
R2
Figure 30. Model of AD797 vs. That of a Typical Three-Stage Amplifier
are guaranteed by pairwise device matching (that is, NPN
Q1
g
m
Q2
I1
R3
R1
g
–IN
m
GAIN = g
Figure 31. AD797 Simplified Schematic
Q3
Q5
C
R1
C
N
C1
R2
m
A
GAIN = g × R1 × A2 × A3
× R1 × 5 × 10
I7
Q6
A2
Q4
C1
a.
b.
B
m
C
R1
C
BUFFER
A3
6
C2
Q7
Q12
I4
Q8
BUFFER
6
I5
and V
R
Q9
L
I6
V
OUT
Q10
Q11
OS
R
V
V
L
CC
SS
< 80 μV,
V
OUT
V
OUT
Rev. H | Page 11 of 20
The elimination of second-stage noise effects has the additional
benefit of making the low noise of the AD797 (<0.9 nV/√Hz)
extend to beyond 1 MHz. This means new levels of perform-
ance for sampled data and imaging systems. All of this
performance as well as load drive in excess of 30 mA are made
possible by the Analog Devices, Inc., advanced complementary
bipolar (CB) process.
Another unique feature of this circuit is that the addition of a
single capacitor, C
distortion due to the output stage. This can best be explained by
referring to a simplified representation of the AD797 using
idealized blocks for the different circuit elements (Figure 32).
A single equation yields the open-loop transfer function of this
amplifier; solving it at Node B yields
where:
g
A is the gain of the output stage (~1).
V
V
When C
is attained:
In Figure 32, the terms of Node A, which include the properties of
the output stage, such as output impedance and distortion, cancel
by simple subtraction. Therefore, the distortion cancellation does
not affect the stability or frequency response of the amplifier. With
only 500 μA of output stage bias, the AD797 delivers a 1 kHz
sine wave into 60 Ω at 7 V rms with only 1 ppm of distortion.
+IN
m
OUT
IN
is the transconductance of Q1 and Q2.
is differential input voltage.
is voltage at the output.
Q1
V
V
V
V
OUT
OUT
I1
IN
IN
N
is equal to C
I3
Q2
=
=
I2
C
j
g
ω
A
N
–IN
m
C
N
Figure 32. AD797 Block Diagram
j
ω
(see Figure 31), enables cancellation of
C
−
CURRENT
C
MIRROR
, the ideal single-pole op amp response
C
C
g
N
N
A
m
I4
j
ω
−
C
B
A
C
C
j
C
ω
1
A
AD797
V
OUT
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