AD7714ARSZ-5 Analog Devices Inc, AD7714ARSZ-5 Datasheet - Page 22
AD7714ARSZ-5
Manufacturer Part Number
AD7714ARSZ-5
Description
28-BIT SIGMA DELTA A/D IC
Manufacturer
Analog Devices Inc
Datasheet
1.AD7714YNZ.pdf
(40 pages)
Specifications of AD7714ARSZ-5
Rohs Compliant
YES
Number Of Bits
24
Sampling Rate (per Second)
1k
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Number Of Converters
1
Power Dissipation (max)
7mW
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
28-SSOP (0.200", 5.30mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7714-3EBZ - BOARD EVALUATION FOR AD7714
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD7714ARSZ-5
Manufacturer:
YAGEO
Quantity:
460 000
Part Number:
AD7714ARSZ-5
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD7714
In addition, the digital filter does not provide any rejection at
integer multiples of the digital filter’s sample frequency. How-
ever, the input sampling on the part provides attenuation at
multiples of the digital filter’s sampling frequency so that the
unattenuated bands actually occur around multiples of the input
sampling frequency f
unattenuated bands occur at n f
these frequencies, there are frequency bands, f
the cutoff frequency of the digital filter) at either side where
noise passes unattenuated to the output.
Filter Characteristics
The AD7714’s digital filter is a low-pass filter with a (sinx/x)
response (also called sinc
is described in the z-domain by:
and in the frequency domain by:
Figure 4 shows the filter frequency response for a cutoff
frequency of 2.62 Hz which corresponds to a first filter notch
frequency of 10 Hz. The plot is shown from dc to 65 Hz.
This response is repeated at either side of the input sampling
frequency and at either side of multiples of the input sampling
frequency.
The response of the filter is similar to that of an averaging filter
but with a sharper roll-off. The output rate for the digital filter
corresponds with the positioning of the first notch of the filter’s
frequency response. Thus, for the plot of Figure 4 where the
output rate is 10 Hz, the first notch of the filter is at 10 Hz. The
notches of this (sinx/x)
first notch. The filter provides attenuation of better than 100 dB
at these notches. For the example given, if the first notch is at
10 Hz, there will be notches (and hence >100 dB rejection) at
both 50 Hz and 60 Hz.
Figure 4. Frequency Response of AD7714 Filter
–100
–120
–140
–160
–180
–200
–220
–240
–20
–40
–60
–80
0
0
H f
10
H(z)
( )
S
(as defined in Table XIV). Thus, the
3
filter are repeated at multiples of the
3
). The transfer function for this filter
20
N
1
FREQUENCY – Hz
N
1
Sin N
Sin
30
S
1 Z
( . .
1 Z
(where n = 1, 2, 3. . .). At
( .
f f
40
f f
N
1
S
)
S
3
)
3
50
3 dB
wide (f
60
3 dB
3
is
–22–
The cutoff frequency of the digital filter is determined by the
value loaded to bits FS0 to FS11 in the Filter High and Filter
Low Registers. Programming a different cutoff frequency via
FS0 – FS11 does not alter the profile of the filter response; it
changes the frequency of the notches as outlined in the Filter
Registers section. The output update and first notch correspond
and are determined by the relationship:
where N is the decimal equivalent of the word loaded to the
FS0 to FS11 bits of the Filter Registers
while the –3 dB frequency is determined by the relationship:
The filter provides a linear phase response with a group delay
determined by:
where N is the decimal equivalent of the word loaded to the
FS0 to FS11 bits of the Filter Registers and f
Since the AD7714 contains this on-chip, low-pass filtering, a
settling time is associated with step function inputs and data on
the output will be invalid after a step change until the settling
time has elapsed. The settling time depends upon the output
rate chosen for the filter. The settling time of the filter to a full-
scale step input can be up to four times the output data period.
For a synchronized step input (using the SYNC or FSYNC
functions) the settling time is three times the output data pe-
riod. When changing channels on the part, the change from one
channel to the other is synchronized so the output settling time
is also three times the output data period. Thus, in switching
between channels, the output data register is not updated until
the settling time of the filter has elapsed.
Post-Filtering
The on-chip modulator provides samples at a 19.2 kHz output
rate with f
decimates these samples to provide data at an output rate that
corresponds to the programmed output rate of the filter. Since
the output data rate is higher than the Nyquist criterion, the
output rate for a given bandwidth will satisfy most application
requirements. However, there may be some applications that
require a higher data rate for a given bandwidth and noise per-
formance. Applications that need this higher data rate will
require some post-filtering following the part’s digital filter.
For example, if the required bandwidth is 7.86 Hz but the
required update rate is 100 Hz, the data can be taken from the
AD7714 at the 100 Hz rate giving a –3 dB bandwidth of
26.2 Hz. Post-filtering can be applied to this to reduce the
bandwidth and output noise, to the 7.86 Hz bandwidth level,
while maintaining an output rate of 100 Hz.
Post-filtering can also be used to reduce the output noise from
the device for bandwidths below 1.26 Hz. At a gain of 128 and
a bandwidth of 1.26 Hz, the output rms noise is 140 nV. This
is essentially device noise or white noise and since the input is
chopped, the noise has a primarily flat frequency response. By
reducing the bandwidth below 1.26 Hz, the noise in the result-
ant passband can be reduced. A reduction in bandwidth by a
factor of 2 results in a reduction of approximately 1.25 in the
output rms noise. This additional filtering will result in a
longer settling time.
Output Rate = f
–3 dB frequency = 0.262
Group Delay = –3 .(N.f/f
CLK IN
at 2.4576 MHz. The on-chip digital filter
CLK IN
/(N.128)
MOD
filter first notch frequency
)
MOD
= f
CLK IN
REV. C
/128.
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