AD8510/AD8512/AD8513
GENERAL APPLICATION INFORMATION
INPUT OVERVOLTAGE PROTECTION
The AD8510/AD8512/AD8513 have internal protective
circuitry that allows voltages as high as 0.7 V beyond the
supplies to be applied at the input of either terminal without
causing damage. For higher input voltages, a series resistor is
necessary to limit the input current. The resistor value can be
determined from the formula
0.01
V
SY
= ±5V
R
L
= 100kΩ
BW = 22kHz
DISTORTION (%)
0.001
V
IN
−
V
S
R
S
≤
5 mA
02729-056
With a very low offset current of <0.5 nA up to 125°C, higher
resistor values can be used in series with the inputs. A 5 kΩ
resistor protects the inputs from voltages as high as 25 V
beyond the supplies and adds less than 10 μV to the offset.
0.0001
20
100
1k
FREQUENCY (Hz)
10k
20k
Figure 42. THD + N vs. Frequency
OUTPUT PHASE REVERSAL
Phase reversal is a change of polarity in the transfer function of
the amplifier. This can occur when the voltage applied at the
input of an amplifier exceeds the maximum common-mode
voltage.
Phase reversal can cause permanent damage to the device and
can result in system lockups. The AD8510/AD8512/AD8513 do
not exhibit phase reversal when input voltages are beyond the
supplies.
V
SY
= ±5V
A
V
= 1
R
L
= 10kΩ
V
OUT
TOTAL NOISE INCLUDING SOURCE RESISTORS
The low input current noise and input bias current of the
AD8510/AD8512/AD8513 make them the ideal amplifiers for
circuits with substantial input source resistance. Input offset
voltage increases by less than 15 nV per 500 Ω of source
resistance at room temperature. The total noise density of the
circuit is
e
nTOTAL
=
e
n
2
+
(
i
n
R
S
)
2
+
4
kTR
S
VOLTAGE (2V/DIV)
where:
e
n
is the input voltage noise density of the parts.
i
n
is the input current noise density of the parts.
R
S
is the source resistance at the noninverting terminal.
k
is Boltzmann’s constant (1.38 × 10
–23
J/K).
T
is the ambient temperature in Kelvin (T = 273 + °C).
For R
S
< 3.9 kΩ, e
n
dominates and e
nTOTAL
≈ e
n
.
The current noise
of the AD8510/AD8512/AD8513 is so low that its total density
does not become a significant term unless R
S
is greater than
165 MΩ, an impractical value for most applications.
02729-057
V
IN
The total equivalent rms noise over a specific bandwidth is
expressed as
TIME (20µs/DIV)
Figure 41. No Phase Reversal
e
nTOTAL
=
e
nTOTAL
BW
where
BW
is the bandwidth in hertz.
Note that the previous analysis is valid for frequencies larger
than 150 Hz and assumes flat noise above 10 kHz. For lower
frequencies, flicker noise (1/f) must be considered.
TOTAL HARMONIC DISTORTION (THD) + NOISE
The AD8510/AD8512/AD8513 have low THD and excellent gain
linearity, making these amplifiers great choices for precision
circuits with high closed-loop gain and for audio application
circuits. Figure 42 shows that the AD8510/AD8512/AD8513 have
approximately 0.0005% of total distortion when configured in
positive unity gain (the worst case) and driving a 100 kΩ load.
Rev. H | Page 13 of 20
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