AD823AR Analog Devices Inc, AD823AR Datasheet - Page 16
AD823AR
Manufacturer Part Number
AD823AR
Description
IC OPAMP JFET R-R DUAL LN 8SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD823ARZ.pdf
(20 pages)
Specifications of AD823AR
Slew Rate
25 V/µs
Rohs Status
RoHS non-compliant
Amplifier Type
J-FET
Number Of Circuits
2
Output Type
Rail-to-Rail
-3db Bandwidth
16MHz
Current - Input Bias
5pA
Voltage - Input Offset
700µV
Current - Supply
7mA
Current - Output / Channel
17mA
Voltage - Supply, Single/dual (±)
3 V ~ 36 V, ±1.5 V ~ 18 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Op Amp Type
Precision
No. Of Amplifiers
2
Bandwidth
16MHz
Supply Voltage Range
± 1.5V To ± 18V
Amplifier Case Style
SOIC
No. Of Pins
8
Gain Bandwidth Product
-
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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AD823
Figure 40 shows a schematic of an AD823 being used to drive
both the input and reference input of an AD1672, a 12-bit,
3-MSPS, single-supply ADC. One amplifier is configured as a
unity-gain follower to drive the analog input of the AD1672,
which is configured to accept an input voltage that ranges from
0 V to 2.5 V.
The other amplifier is configured as a gain of 2 to drive the
reference input from a 1.25 V reference. Although the AD1672
has its own internal reference, there are systems that require
greater accuracy than the internal reference provides. On the other
hand, if the AD1672 internal reference is used, the second AD823
amplifier can be used to buffer the reference voltage for driving
other circuitry while minimally loading the reference source.
The circuit was tested with a 500 kHz sine wave input that was
heavily low-pass filtered (60 dB) to minimize the harmonic content
at the input to the AD823. The digital output of the AD1672 was
analyzed by performing a fast Fourier transform (FFT).
During the testing, it was observed that at 500 kHz, the output
of the AD823 cannot go below ~350 mV (operating with
negative supply at ground) without seriously degrading the
second harmonic distortion. Another test was performed with a
200 Ω pull-down resistor to ground that allowed the output to
go as low as 200 mV without seriously affecting the second
harmonic distortion. There was, however, a slight increase in
the third harmonic term with the resistor added, but it was still
less than the second harmonic.
Figure 41 is an FFT plot of the results of driving the AD1672
with the AD823 with no pull-down resistor. The input
amplitude was 2.15 V p-p and the lower voltage excursion was
350 mV. The input frequency was 490 kHz, which was chosen
to spread the location of the harmonics.
(1.25V)
V
REF
V
IN
1kΩ
Figure 40. AD823 Driving Input and Reference of the
2
3
5
6
AD823
+5VA
4
8
1kΩ
AD1672, a 12-Bit, 3-MSPS ADC
7
0.1µF
1
CLOCK
10µF
49.9Ω
10µF
0.1µF
20
21
22
23
24
25
27
16
+5VA +5VD
19
REF
REFOUT
AIN1
AIN2
REFIN
REFCOM
NCOMP2
NCOMP1
ACOM
AD1672
28 19
18
0.1µF
15
13
14
12
11
10
9
8
7
6
5
4
3
2
1
BIT1 (MSB)
BIT2
BIT3
BIT4
BIT5
BIT6
BIT7
BIT8
BIT9
BIT10
BIT11
BIT12 (LSB)
OTR
0.1µF
10µF
+5VD
Rev. D | Page 16 of 20
The distortion analysis is important for systems requiring good
frequency domain performance. Other systems may require
good time domain performance. The noise and settling time
performance of the AD823 provides the necessary information
for its applicability for these systems.
3 V, Single-Supply Stereo Headphone Driver
The AD823 exhibits good current drive and total harmonic
distortion plus noise (THD+N) performance, even at 3 V
single supplies. At 20 kHz, THD+N equals −62 dB (0.079%) for
a 300 mV p-p output signal. This is comparable to other single-
supply op amps that consume more power and cannot run on
3 V power supplies.
In Figure 42, each channel’s input signal is coupled via a 1 μF
Mylar capacitor. Resistor dividers set the dc voltage at the
noninverting inputs so that the output voltage is midway
between the power supplies (+1.5 V). The gain is 1.5. Each half
of the AD823 can then be used to drive a headphone channel. A
5 Hz high-pass filter is realized by the 500 μF capacitors and the
headphones that can be modeled as 32 Ω load resistors to
ground. This ensures that all signals in the audio frequency
range (20 Hz to 20 kHz) are delivered to the headphones.
CHANNEL 1
CHANNEL 2
Figure 42. 3 V Single-Supply Stereo Headphone Driver
5
Figure 41. FFT of AD1672 Output Driven by AD823
MYLAR
MYLAR
95.3kΩ
95.3kΩ
1µF
1µF
6
95.3kΩ
47.5kΩ
47.5kΩ
1
4
3V
9
10kΩ
10kΩ
3
2
6
5
AD823
1/2
AD823
1/2
8
4
4.99kΩ
4.99kΩ
1 1
7
32Ω IMPEDANCE
HEADPHONES
V
G = +1
FI = 490kHz
7
500µF
500µF
+
+
IN
2
0.1µF
= 2.15V p-p
3
8
+
L
R
0.1µF
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