AD8566 Analog Devices, AD8566 Datasheet - Page 9
AD8566
Manufacturer Part Number
AD8566
Description
16 V Rail-to-Rail Operational Amplifier (Dual)
Manufacturer
Analog Devices
Datasheet
1.AD8565.pdf
(16 pages)
Specifications of AD8566
Vcc-vee
4.5V to 16V
Isy Per Amplifier
850µA
Packages
SOIC,SOP
-3db Bandwidth
5MHz
Slew Rate
6V/µs
Vos
2mV
Ib
600nA
# Opamps Per Pkg
2
Input Noise (nv/rthz)
25nV/rtHz
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V+
THEORY OF OPERATION
The AD8565/AD8566/AD8567 are designed to drive large
capacitive loads in LCD applications. They have high output
current drive and rail-to-rail input/output operation and are
powered from a single 16 V supply. They are also intended for
other applications where low distortion and high output current
drive are needed.
Figure 28 shows a simplified equivalent circuit for the AD8565/
AD8566/AD8567. The rail-to-rail bipolar input stage is com-
posed of two PNP differential pairs, Q4 to Q5 and Q10 to Q11,
operating in series with diode protection networks, D1 to D2.
Diode network D1 to D2 serves as protection against large
transients for Q4 to Q5 to accommodate rail-to-rail input swing.
D5 to D6 protect Q10 to Q11 against Zenering. In normal oper-
ation, Q10 to Q11 are off, and their input stage is buffered from
the operational amplifier inputs by Q6 to D3 and Q8 to D4.
Operation of the input stage is best understood as a function of
applied common-mode voltage: when the inputs of the AD8565/
AD8566/AD8567 are biased midway between the supplies, the
differential signal path gain is controlled by resistive loads Q4 to
Q5 (via R9, R10). As the input common-mode level is reduced
toward the negative supply (V
current sources, I1 and I2, are forced into saturation, thereby
forcing the Q6 to D3 and Q8 to D4 networks into cutoff.
However, Q4 to Q5 remain active, providing input stage gain.
Inversely, when common-mode input voltage is increased
toward the positive supply, Q4 to Q5 are driven into cutoff, Q3
is driven into saturation, and Q4 becomes active, providing bias
to the Q10 to Q11 differential pair. The point at which the Q10 to
Q11 differential pair becomes active is approximately equal to
(V
POS
− 1 V).
Q6
Figure 28. AD8565/AD8566/AD8567 Equivalent Input Circuit
D3
I1
Q4
R3
R9
D1
Q3
R1
C1
Q10
R5
V
V
D6
POS
C2
NEG
D5
NEG
Q11
R6
or GND), the input transistor
Q4
R10
D2
R4
Q5
I2
D4
Q8
BIAS LINE
V–
FOLDED
CASCADE
Rev. G | Page 9 of 16
The benefit of this type of input stage is low bias current. The
input bias current is the sum of base currents of Q4 to Q5 and
Q6 to Q8 over the range from (V
Outside this range, the input bias current is dominated by the
sum of base currents of Q10 to Q11 for input signals close to
V
From this type of design, the input bias current of the AD8565/
AD8566/AD8567 not only exhibits different amplitude but also
exhibits different polarities. Figure 29 provides the characteris-
tics of the input bias current vs. the common-mode voltage. It is
important to keep in mind that the source impedances driving
the inputs are balanced for optimum dc and ac performance.
To achieve rail-to-rail output performance, the AD8565/
AD8566/AD8567 design uses a complementary common-
source (or gmRL) output. This con-figuration allows output
voltages to approach the power supply rails, particularly if the
output transistors are allowed to enter the triode region on
extremes of signal swing, which are limited by V
transistor sizes, and output load current. In addition, this type
of output stage exhibits voltage gain in an open-loop gain
configuration. The amount of gain depends on the total load
resistance at the output of the AD8565/AD8566/AD8567.
INPUT OVERVOLTAGE PROTECTION
As with any semiconductor device, whenever the input exceeds
either supply voltages, attention needs to be paid to the input
overvoltage characteristics. As an overvoltage occurs, the amplifier
could be damaged, depending on the voltage level and the
magnitude of the fault current. When the input voltage exceeds
either supply by more than 0.6 V, internal positive-negative (pn)
junctions allow current to flow from the input to the supplies.
NEG
–1000
and of Q6 to Q8 (Q10 to Q11) for signals close to V
1000
–200
–400
–600
–800
800
600
400
200
Figure 29. AD8565/AD8566/AD8567 Input Bias Current vs.
0
0
V
T
A
S
= 16V
= 25°C
2
INPUT COMMON-MODE VOLTAGE (V)
4
Common-Mode Voltage
AD8565/AD8566/AD8567
6
NEG
8
+ 1 V) to (V
10
12
GS
POS
, the
14
− 1 V).
16
POS
.
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