ADG411/ADG412/ADG413
Rev. D | Page 10 of 16
APPLICATIONS
Figure 13 illustrates a precise, fast, sample-and-hold circuit. An
AD845 is used as the input buffer while the output operational
amplifier is an AD711. During the track mode, SW1 is closed
and the output V
OUT
follows the input signal V
IN
. In the hold
mode, SW1 is opened and the signal is held by the hold
capacitor C
H
.
Due to switch and capacitor leakage, the voltage on the hold
capacitor decreases with time. The ADG411/ADG412/ADG413
minimizes this droop due to its low leakage specifications. The
droop rate is further minimized by the use of a polystyrene
hold capacitor. The droop rate for the circuit shown is typically
30 μV/μs.
A second switch, SW2, which operates in parallel with SW1, is
included in this circuit to reduce pedestal error. Since both
switches are at the same potential, they have a differential effect
on the op amp AD711, which minimizes charge injection
effects. Pedestal error is also reduced by the compensation
network R
C
and C
C
. This compensation network also reduces
the hold time glitch while optimizing the acquisition time.
Using the illustrated op amps and component values, the
pedestal error has a maximum value of 5 mV over the ±10 V
input range. Both the acquisition and settling times are 850 ns.
00024-013
+15V
–15V
2200pF
R
C
75
Ω
C
C
1000pF
C
H
2200pF
V
OUT
ADG411
ADG412
ADG413
SW2
SW1
S
S
D
D
+15V +5V
–15V
AD845
+15V
–15V
V
IN
AD711
Figure 13. Fast, Accurate Sample-and-Hold