AD600/AD602
100
90
OUTPUT
50mV
10
0%
INPUT
5V
100nS
Figure 44. Gating Feedthrough to
Output, Gating Off to On
100
90
OUTPUT
50mV
10
0%
INPUT
5V
100nS
Figure 45. Gating Feedthrough to
Output, Gating On to Off
1V
100
90
OUTPUT
10
0%
INPUT
100mV
500nS
Figure 46. Transient Response,
Medium and High Gain
100
90
OUTPUT
500mV
1V
100
90
OUTPUT
100
90
OUTPUT
500mV
10
0%
INPUT
1V
200nS
Figure 47. Input Stage Overload
Recovery Time
10
0%
INPUT
200mV
500nS
Figure 48. Output Stage Overload
Recovery Time
10
0%
INPUT
1V
500nS
Figure 49. Transient Response
Minimum Gain
+10
+5 AD600: G=20dB
AD602: G=10dB
0 BOTH: VCM =100mV RMS
–5
VS =±5V
R L=500Ω
–10
TA=25°C
–15
AD600
–20
–25
–30
AD602
–35
–40
1k
10k 100k 1M 10M 100M
FREQUENCY — Hz
Figure 50. CMRR vs. Frequency
+20
+10
0
AD600
–10
–20
–30
AD602
–40
–50
–60
–70
–80
100k
AD600: G=40dB
AD602: G=30dB
BOTH: R L=500Ω
VIN =0V
RS =50Ω
1M
10M
FREQUENCY – Hz
100M
Figure 51. PSRR vs. Frequency
+10
0
AD600: CH1 G=40dB, VIN =0
CH2 G=20dB, VIN =100mV
–10
AD602: CH1 G=30dB, VIN =0
CH2 G=10dB, VIN =316mV
–20 BOTH: VOUT =1V RMS, RS =50Ω,
R L=500Ω
–30
{ } CH1 VOUT
CROSSTALK=20log CH2 VIN
–40
AD600
–50
–60
AD602
–70
–80
–90
100k
1M
10M
FREQUENCY – Hz
100M
Figure 52. Crosstalk Between A1
and A2 vs. Frequency
REV. A
–19–