AD8616 Analog Devices, AD8616 Datasheet - Page 11
AD8616
Manufacturer Part Number
AD8616
Description
Precision 20 MHz CMOS Dual Rail-to-Rail Operational Amplifier
Manufacturer
Analog Devices
Datasheet
1.AD8615.pdf
(20 pages)
Specifications of AD8616
-3db Bandwidth
24MHz
Slew Rate
12V/µs
Vos
23µV
Ib
0.2pA
# Opamps Per Pkg
2
Input Noise (nv/rthz)
6nV/rtHz
Vcc-vee
2.7V to 6V
Isy Per Amplifier
2mA
Packages
SOIC,SOP
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APPLICATIONS INFORMATION
INPUT OVERVOLTAGE PROTECTION
The AD8615/AD8616/AD8618 have internal protective circuitry
that allows voltages exceeding the supply to be applied at the input.
It is recommended, however, not to apply voltages that exceed
the supplies by more than 1.5 V at either input of the amplifier.
If a higher input voltage is applied, series resistors should be
used to limit the current flowing into the inputs.
The input current should be limited to <5 mA. The extremely
low input bias current allows the use of larger resistors, which
allows the user to apply higher voltages at the inputs. The use of
these resistors adds thermal noise, which contributes to the overall
output voltage noise of the amplifier.
For example, a 10 kΩ resistor has less than 13 nV/√Hz of
thermal noise and less than 10 nV of error voltage at room
temperature.
OUTPUT PHASE REVERSAL
The AD8615/AD8616/AD8618 are immune to phase inversion,
a phenomenon that occurs when the voltage applied at the input of
the amplifier exceeds the maximum input common mode.
Phase reversal can cause permanent damage to the amplifier
and can create lock ups in systems with feedback loops.
DRIVING CAPACITIVE LOADS
Although the AD8615/AD8616/AD8618 are capable of driving
capacitive loads of up to 500 pF without oscillating, a large amount
of overshoot is present when operating at frequencies above
100 kHz. This is especially true when the amplifier is configured
in positive unity gain (worst case). When such large capacitive
loads are required, the use of external compensation is highly
recommended.
V
V
A
R
S
IN
V
L
= ±2.5V
= 10kΩ
= 1
= 6V p-p
Figure 36. No Phase Reversal
V
OUT
TIME (2ms/DIV)
V
IN
Rev. E | Page 11 of 20
This reduces the overshoot and minimizes ringing, which in
turn improves the frequency response of the AD8615/AD8616/
AD8618. One simple technique for compensation is the snubber,
which consists of a simple RC network. With this circuit in place,
output swing is maintained and the amplifier is stable at all gains.
Figure 38 shows the implementation of the snubber, which
reduces overshoot by more than 30% and eliminates ringing
that can cause instability. Using the snubber does not recover
the loss of bandwidth incurred from a heavy capacitive load.
Figure 39. Driving Heavy Capacitive Loads Using the Snubber Network
Figure 37. Driving Heavy Capacitive Loads Without Compensation
V
A
C
V
A
R
C
C
S
V
L
S
V
S
S
L
= ±2.5V
= 1
= 500pF
= ±2.5V
= 500pF
–
= 1
= 200Ω
= 500pF
200mV
Figure 38. Snubber Network
+
–
V
V
V–
V+
EE
CC
AD8615/AD8616/AD8618
TIME (10µs/DIV)
TIME (2µs/DIV)
500pF
200Ω
500pF
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