AD526–Typical Performance Characteristics
20
30
V
20
V
OUTPUT VOLTAGE SWING –
OUTPUT VOLTAGE SWING –
INPUT BIAS CURRENT – pA
15
+25 C
R
L
= 2k
10
15
V
IN
= 0
10
20
@ V
S
=
15V
10
5
5
0
0
5
10
SUPPLY VOLTAGE –
15
V
20
0
100
0
1k
LOAD RESISTANCE –
10k
0
5
10
SUPPLY VOLTAGE –
15
V
20
Figure 1. Output Voltage Swing vs.
Supply Voltage, G = 16
Figure 2. Output Voltage Swing vs.
Load Resistance
Figure 3. Input Bias Current vs.
Supply Voltage
100nA
75
20
10
16
8
10nA
INPUT BIAS CURRENT – pA
INPUT BIAS CURRENT
V
S
=
50
15V
4
GAIN
1nA
2
1
1
100pA
25
10pA
1pA
–60
–20
20
60
100
TEMPERATURE – C
140
0
–10
–5
0
5
INPUT VOLTAGE – V
10
10
100
1k
10k 100k
FREQUENCY – Hz
1M
10M
Figure 4. Input Bias Current vs.
Temperature
Figure 5. Input Bias Current vs. Input
Voltage
Figure 6. Gain vs. Frequency
25
FULL POWER RESPONSE – V p-p
POWER SUPPLY REJECTION – dB
100
1.0002
15V WITH 1V p-p
SINE WAVE
20
GAIN = 8, 16
80
+SUPPLY
60
15
GAIN = 1, 2, 4
NORMALIZED GAIN
1.0001
1.0000
10
40
–SUPPLY
20
0.9999
5
0
1k
10
10k
100k
1M
FREQUENCY – Hz
10M
1
10
100
1k
10k
FREQUENCY – Hz
100k
1M
0.9998
–60
–20
20
60
100
TEMPERATURE – C
140
Figure 7. Large Signal Frequency
Response
Figure 8. PSRR vs. Frequency
Figure 9. Normalized Gain vs.
Temperature, Gain = 1
–4–
REV. D
AD [ ANALOG DEVICES ]
