AD8203YRZ Analog Devices Inc, AD8203YRZ Datasheet - Page 12
AD8203YRZ
Manufacturer Part Number
AD8203YRZ
Description
IC,Differential Amplifier,SINGLE,BIPOLAR,SOP,8PIN,PLASTIC
Manufacturer
Analog Devices Inc
Type
Single Supplyr
Specifications of AD8203YRZ
Amplifier Type
Differential
Number Of Circuits
1
Slew Rate
0.330 V/µs
Gain Bandwidth Product
60kHz
Current - Input Bias
40nA
Voltage - Input Offset
1000µV
Current - Supply
250µA
Voltage - Supply, Single/dual (±)
3.5 V ~ 12 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Bandwidth
60 kHz
Common Mode Rejection Ratio
82
Current, Input Bias
40 nA
Current, Supply
0.25 mA
Package Type
SOIC-8
Resistance, Input
320 Kilohms (Differential), 160 Kilohms (Common-Mode)
Temperature, Operating, Range
-40 to +125 °C
Voltage, Gain
14 V/V
Voltage, Input
-6 to +30 V
Voltage, Input Offset
-1 to +1 mV
Voltage, Noise
300 nV/sqrt Hz
Voltage, Output Swing
0.02 to 4.8 V
Voltage, Supply
3.5 to 12 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Current - Output / Channel
-
-3db Bandwidth
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD8203YRZR7
Manufacturer:
ATML
Quantity:
3 504
AD8203
THEORY OF OPERATION
The AD8203 consists of a preamp and buffer, arranged as
shown in Figure 40. Like-named resistors have equal values.
The preamp incorporates a dynamic bridge (subtractor) circuit.
Identical networks (within the shaded areas) consisting of R
R
Pin 8. Note that when equal amplitude signals are asserted at
Input 1 and Input 8, and the output of A1 is equal to the
common potential (that is, 0), the two attenuators form a
balanced-bridge network. When the bridge is balanced, the
differential input voltage at A1, and thus its output, is 0.
Any common-mode voltage applied to both inputs keeps the
bridge balanced and the A1 output at 0. Because the resistor
networks are carefully matched, the common-mode signal
rejection approaches this ideal state.
However, if the signals applied to the inputs differ, the result is a
difference at the input to A1. A1 responds by adjusting its output
to drive R
input until it matches the voltage at its noninverting input.
By attenuating voltages at Pin 1 and Pin 8, the amplifier inputs
are held within the power supply range, even if Pin 1 and Pin 8
input levels exceed the supply or fall below common (ground).
The input network also attenuates normal (differential) mode
voltages. R
forcing large output signals to balance relatively small differen-
tial inputs. The resistor ratios establish the preamp gain at 7.
Because the differential input signal is attenuated and then
amplified to yield an overall gain of 7, Amplifier A1 operates at
a higher noise gain, multiplying deficiencies such as input offset
voltage and noise with respect to Pin 1 and Pin 8.
To minimize these errors while extending the common-mode
range, a dedicated feedback loop is used to reduce the range of
common-mode voltage applied to A1 for a given overall range
at the inputs. By offsetting the range of voltage applied to the
compensator, the input common-mode range is also offset to
include voltages more negative than the power supply. The
R
B
G
, R
B
+IN
C
8
, and R
R
R
R
B
C
A
B
COM
, by way of R
B
C
2
and R
G
R
R
R
, attenuate input signals applied to Pin 1 and
A
B
C
–IN
1
G
Figure 40. Simplified Schematic
form an attenuator that scales A1 feedback,
R
R
G
CM
G
, to adjust the voltage at its inverting
R
CM
A1
A3
(TRIMMED)
100kΩ
AD8203
3
4
A2
R
R
F
F
A
Rev. B | Page 12 of 20
,
5
A3 amplifier detects the common-mode signal applied to A1
and adjusts the voltage on the matched R
the common-mode voltage range at the A1 inputs. By adjusting
the common voltage of these resistors, the common-mode input
range is extended while, at the same time, the normal mode
signal attenuation is reduced, leading to better performance
referred to input.
The output of the dynamic bridge taken from A1 is connected
to Pin 3 by way of a 100 kΩ series resistor, provided for low-
pass filtering and gain adjustment. The resistors in the input
networks of the preamp and the buffer feedback resistors are
ratio-trimmed for high accuracy.
The output of the preamp drives a gain-of-2 buffer amplifier,
A2, implemented with carefully matched feedback resistors R .
The 2-stage system architecture of the AD8203 enables the user
to incorporate a low-pass filter prior to the output buffer. By
separating the gain into two stages, a full-scale, rail-to-rail
signal from the preamp can be filtered at Pin 3, and a half-scale
signal, resulting from filtering, can be restored to full scale by
the output buffer amp. The source resistance seen by the
inverting input of A2 is approximately 100 kΩ to minimize the
effects of the input bias current of A2. However, this current is
quite small, and errors resulting from applications that
mismatch the resistance are correspondingly small.
The A2 input bias current has a typical value of 40 nA, however,
this can increase under certain conditions. For example, if the
input signal to the A2 amplifier is V
go to V
because the maximum specified voltage for correct operation is
200 mV below V
current increases (see Figure 41 for more information).
An increase in the A2 bias current, in addition to the output
saturation voltage of A1, directly affects the output voltage of
Figure 41. A2 Input Bias Current vs. Input Voltage and Temperature. The
–140
–120
–100
CC
–80
–60
–40
–20
0
Shaded Area Is the Bias Current from −40°C to +125°C.
due to the gain of 2. However, the output saturates
0
CC
. Under these conditions the total input bias
0.5
DIFFERENTIAL MODE VOLTAGE (V)
1.0
CC
/2, the output attempts to
1.5
CM
resistors to reduce
2.0
2.5
F
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