參數(shù)資料
型號: AD824AR-14-3V-REEL
廠商: Analog Devices Inc
文件頁數(shù): 5/16頁
文件大小: 0K
描述: IC OPAMP JFET R-R 2MHZ LP 14SOIC
標準包裝: 2,500
放大器類型: J-FET
電路數(shù): 4
輸出類型: 滿擺幅
轉(zhuǎn)換速率: 2 V/µs
增益帶寬積: 2MHz
-3db帶寬: 2MHz
電流 - 輸入偏壓: 4pA
電壓 - 輸入偏移: 500µV
電流 - 電源: 560µA
電流 - 輸出 / 通道: 12mA
電壓 - 電源,單路/雙路(±): 3 V ~ 30 V,±1.5 V ~ 15 V
工作溫度: -40°C ~ 85°C
安裝類型: 表面貼裝
封裝/外殼: 14-SOIC(0.154",3.90mm 寬)
供應(yīng)商設(shè)備封裝: 14-SOIC
包裝: 帶卷 (TR)
REV. C
AD824
–13–
3 Volt, Single Supply Stereo Headphone Driver
The AD824 exhibits good current drive and THD+N perfor-
mance, even at 3 V single supplies. At 1 kHz, total harmonic
distortion plus noise (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 6, each channel’s input signal is coupled via a 1
mF
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
AD824 can then be used to drive a headphone channel. A 5 Hz
high-pass filter is realized by the 500
mF capacitors and the
headphones, which can be modeled as 32 ohm load resistors to
ground. This ensures that all signals in the audio frequency
range (20 Hz–20 kHz) are delivered to the headphones.
MYLAR
1 F
1/4
AD824
L
R
HEADPHONES
32
IMPEDANCE
MYLAR
1/4
AD824
3V
0.1 F
CHANNEL 1
CHANNEL 2
1/4
AD824
47.5k
95.3k
0.1 F
500 F
4.99k
10k
47.5k
1 F
95.3k
4.99k
1/4
AD824
Figure 6. 3 Volt Single Supply Stereo Headphone Driver
Low Dropout Bipolar Bridge Driver
The AD824 can be used for driving a 350 ohm Wheatstone
bridge. Figure 7 shows one half of the AD824 being used to
buffer the AD589—a 1.235 V low power reference. The output
350
VREF
–VS
+VS
AD620
RG
R2
20
–4.5V
10k
26.4k , 1%
R1
20
TO A/D CONVERTER
REFERENCE INPUT
AD589
+1.235V
+5V
1 F
GND
+VS
–VS
0.1 F
–5V
1 F
0.1 F
1%
1/4
AD824
1/4
AD824
–VS
+VS
7
6
5
4
3
2
AD824
1/4
AD824
49.9k
1/4
AD824
Figure 7. Low Dropout Bipolar Bridge Driver
of 4.5 V can be used to drive an A/D converter front end. The
other half of the AD824 is configured as a unity-gain inverter
and generates the other bridge input of –4.5 V. Resistors R1 and
R2 provide a constant current for bridge excitation. The AD620
low power instrumentation amplifier is used to condition the
differential output voltage of the bridge. The gain of the AD620
is programmed using an external resistor RG and determined by:
G
=
49.4 k
W
RG
+ 1
A 3.3 V/5 V Precision Sample-and-Hold Amplifier
In battery-powered applications, low supply voltage operational
amplifiers are required for low power consumption. Also, low
supply voltage applications limit the signal range in precision
analog circuitry. Circuits like the sample-and-hold circuit shown
in Figure 8, illustrate techniques for designing precision analog
circuitry in low supply voltage applications. To maintain high
signal-to-noise ratios (SNRs) in a low supply voltage application
requires the use of rail-to-rail, input/output operational amplifi-
ers. This design highlights the ability of the AD824 to operate
rail-to-rail from a single 3 V/5 V supply, with the advantages of
high input impedance. The AD824, a quad JFET-input op amp,
is well suited to S/H circuits due to its low input bias currents
(3 pA, typical) and high input impedances (3
1013 W, typical).
The AD824 also exhibits very low supply currents so the total
supply current in this circuit is less than 2.5 mA.
\
3.3/5V
R1
50k
R2
50k
A1
3
2
4
1
11
0.1 F
FALSE GROUND (FG)
A4
12
13
14
SAMPLE/
HOLD
A3
10
9
8
A2
5
6
7
15
14
16
10
9
11
AD824B
3.3/5V
ADG513
R5
2k
AD824C
+
VOUT
CH
C
500pF
FG
4
5
8
6
7
2
3
1
AD824A
AD824D
R4
2k
FG
13
500pF
FG
A1
A2
A3
A4
Figure 8. 3.3 V/5.5 V Precision Sample and Hold
In many single supply applications, the use of a false ground
generator is required. In this circuit, R1 and R2 divide the
supply voltage symmetrically, creating the false ground voltage
at one-half the supply. Amplifier A1 then buffers this voltage
creating a low impedance output drive. The S/H circuit is con-
figured in an inverting topology centered around this false
ground level.
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