AD845SCHIPS Analog Devices, AD845SCHIPS Datasheet - Page 7
AD845SCHIPS
Manufacturer Part Number
AD845SCHIPS
Description
Precision/ 16 MHz CBFET Op Amp
Manufacturer
Analog Devices
Datasheet
1.AD845SCHIPS.pdf
(8 pages)
REV. D
MEASURING AD845 SETTLING TIME
The Figure 24 shows the AD845 settling time performance.
This measurement was accomplished by driving the amplifier
in the unity-gain inverting mode with a fast pulse generator.
The input summing junction was measured using false nulling
techniques.
Settling time is defined as:
Components of settling time include:
These individual components can easily be seen in Figure 24.
Settling time is extremely important in high speed applications
where the current output of a DAC must be converted to a
voltage. When driving a 500
capacitor, the AD845 settles to 0.1% in 250 ns and to 0.01% in
310 ns.
A HIGH SPEED INSTRUMENTATION AMP
The three op amp instrumentation amplifier circuit shown in
Figure 26 can provide a range of gains from unity up to 1000
and higher. The instrumentation amplifier configuration fea-
tures high common-mode rejection, balanced differential inputs
The interval of time from the application of an ideal
step function input until the closed-loop amplifier output
has entered and remains within a specified error band.
1. Propagation time through the amplifier
2. Slewing time to approach the final output value
3. Recovery time from overload associated with the slewing
4. Linear settling to within a specified error band.
Figure 24. Settling Characteristics 0 V to 10 V Step
Upper Trace: Output of AD845 Under Test (5 V/Div)
Lower Trace: Error Voltage (1 mV/Div)
Figure 25. Settling Time Test Circuit
load in parallel with a 100 pF
–7–
and stable, accurately defined gain. Low input bias currents and
fast settling are achieved with the FET input AD845.
Most monolithic instrumentation amplifiers do not have the
high frequency performance of the circuit in Figure 26. The cir-
cuit bandwidth is 10.9 MHz at a gain of 1 and 8.8 MHz at a
gain of 10; settling time for the entire circuit is 900 ns to 0.01%
for a 10 V step (Gain = 10).
The capacitors employed in this circuit greatly improve the
amplifier’s settling time and phase margin.
Figure 26. High Performance, High Speed Instrumenta-
tion Amplifier
Gain
1
2
10
100
Note: Resistors around the amplifiers’ input pins need to be small enough in
value so that the RC time constant they form, with stray circuit capacitance,
does not reduce circuit bandwidth.
Figure 27. The Pulse Response of the Three Op Amp
Instrumentation Amplifier. Gain = 1, Horizontal Scale:
0.5 ms/Div; Vertical Scale: 5 V/Div
Table I. Performance Summary for the Three Op Amp
Instrumentation Amplifier Circuit
R
Open
2k
226
20
G
3 Op-Amp In-Amp
Small Signal
Bandwidth
10.9 MHz
8.8 MHz
2.6 MHz
290 kHz
AD845
500 ns
Settling Time
to 0.01%
500 ns
900 ns
7.5 s
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