AD781 Просмотр технического описания (PDF) - Analog Devices
Номер в каталоге
Компоненты Описание
производитель
AD781 Datasheet PDF : 8 Pages
| |||
AD781
common pin should also be connected to the digital ground,
which is usually tied to analog common at the A-to-D converter.
Figure 4 illustrates the recommended decoupling and grounding
practice.
NOISE CHARACTERISTICS
Designers of data conversion circuits must also consider the
effect of noise sources on the accuracy of the data acquisition
system. A sample-and-hold amplifier that precedes the A-to-D
converter introduces some noise and represents another source
of uncertainty in the conversion process. The noise from the
AD781 is specified as the total output noise, which includes
both the sampled wideband noise of the SHA in addition to the
band limited output noise. The total output noise is the rms
sum of the sampled dc uncertainty and the hold mode noise. A
plot of the total output noise vs. the equivalent input bandwidth
of the converter being used is given in Figure 5.
300
Measurements of Figures 7 and 8 were made using a 14-bit A/D
converter with VIN = 10 V p-p and a sample frequency of
100 kSPS.
1%
1/2 BIT @
8 BITS
1/2 BIT @ 0.1%
10 BITS
1/2 BIT @
12 BITS
0.01%
1/2 BIT @
14 BITS
APERTURE JITTER TYPICAL AT 50ps
1k
10k
100k
1M
FREQUENCY – Hz
Figure 6. Error Magnitude vs. Frequency
200
–65
–70
100
–75
–80
0
1k
10k
100k
1M
10M
FREQUENCY – Hz
Figure 5. RMS Noise vs. Input Bandwidth of ADC
DRIVING THE ANALOG INPUTS
For best performance, it is important to drive the AD781 analog
input from a low impedance signal source. This enhances the
sampling accuracy by minimizing the analog and digital
crosstalk. Signals which come from higher impedance sources
(e.g., over 5 kΩ) will have a relatively higher level of crosstalk.
For applications where signals have high source impedance, an
operational amplifier buffer in front of the AD781 is required.
The AD711 (precision BiFET op amp) is recommended for
these applications.
HIGH FREQUENCY SAMPLING
Aperture jitter and distortion are the primary factors which limit
frequency domain performance of a sample-and-hold amplifier.
Aperture jitter modulates the phase of the hold command and
produces an effective noise on the sampled analog input. The
magnitude of the jitter induced noise is directly related to the
frequency of the input signal.
A graph showing the magnitude of the jitter induced error vs.
frequency of the input signal is given in Figure 6.
The accuracy in sampling high frequency signals is also con-
strained by the distortion and noise created by the sample-and
hold. The level of distortion increases with frequency and re-
duces the “effective number of bits” of the conversion.
–85
–90
–95
100
1k
10k
100k
1M
FREQUENCY – Hz
Figure 7. Total Harmonic Distortion vs. Frequency
90
80
70
60
50
40
30
20
10
0
100
1k
10k
100k
FREQUENCY – Hz
Figure 8. Signal/(Noise and Distortion) vs. Frequency
REV. A
–7–
Share Link: 