AD73360LAR-REEL7 Analog Devices Inc, AD73360LAR-REEL7 Datasheet - Page 9
AD73360LAR-REEL7
Manufacturer Part Number
AD73360LAR-REEL7
Description
IC ANALOG FRONT END 6CH 28-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD73360LAR-REEL.pdf
(32 pages)
Specifications of AD73360LAR-REEL7
Number Of Channels
6
Rohs Status
RoHS non-compliant
Number Of Bits
16
Power (watts)
80mW
Voltage - Supply, Analog
3V
Voltage - Supply, Digital
3V
Package / Case
28-SOIC (7.5mm Width)
Analog Front End Type
General Purpose
Analog Front End Category
General Purpose
Interface Type
Serial (6-Wire)
Sample Rate
64KSPS
Input Voltage Range
0.789V
Operating Supply Voltage (min)
2.7V
Operating Supply Voltage (typ)
3.3V
Operating Supply Voltage (max)
3.6V
Resolution
16b
Number Of Adc's
6
Power Supply Type
Analog/Digital
Operating Temp Range
-40C to 85C
Operating Temperature Classification
Industrial
Mounting
Surface Mount
Pin Count
28
Package Type
SOIC W
For Use With
EVAL-AD73360LEB - BOARD EVAL FOR AD73360L
Lead Free Status / RoHS Status
Not Compliant
Figure 7 shows the various stages of filtering that are employed
in a typical AD73360L application. In Figure 7a we see the trans-
fer function of the external analog antialias filter. Even though it
is a single RC pole, its cutoff frequency is sufficiently far away
from the initial sampling frequency (DMCLK/8) that it takes care
of any signals that could be aliased by the sampling frequency.
This also shows the major difference between the initial oversam-
pling rate and the bandwidth of interest. In Figure 7b, the signal
and noise-shaping responses of the sigma-delta modulator are
shown. The signal response provides further rejection of any
high-frequency signals while the noise-shaping will push the
inherent quantization noise to an out-of-band position. The detail
of Figure 7c shows the response of the digital decimation filter
(sinc-cubed response) with nulls every multiple of DMCLK/
256, which is the decimation filter update rate. The final detail
in Figure 7d shows the application of a final antialias filter in the
DSP engine. This has the advantage of being implemented accord-
ing to the user’s requirements and available MIPS. The filtering in
Figures 7a through 7c is implemented in the AD73360L.
F
F
B
F
B
F
= 4kHz
B
B
= 4kHz
= 4kHz
= 4kHz
F
F
SIGNAL TRANSFER FUNCTION
SINTER
SFINAL
= DMCLK/256
= 8kHz
NOISE TRANSFER FUNCTION
F
SINTER
= DMCLK/256
F
F
SINIT
SINIT
= DMCLK/8
= DMCLK/8
Decimation Filter
The digital filter used in the AD73360L carries out two impor-
tant functions. Firstly, it removes the out-of-band quantization
noise, which is shaped by the analog modulator and secondly, it
decimates the high-frequency bitstream to a lower rate 15-bit word.
The antialiasing decimation filter is a sinc-cubed digital filter
that reduces the sampling rate from DMCLK/8 to DMCLK/
256, and increases the resolution from a single bit to 15 bits. Its
Z transform is given as: [(1–Z
mal group delay of 25 µs.
Word growth in the decimator is determined by the sampling
rate. At 64 kHz sampling, where the oversampling ratio between
the sigma-delta modulator and decimator output equals 32,
there are five bits per stage of the three-stage Sinc
symmetry within the sigma-delta modulator, the LSB will always
be a zero; therefore, the 16-bit ADC output word will have
2 LSBs equal to zero, one due to the sigma-delta symmetry and
the other being a padded zero to make up a 16-bit word. At
lower sampling rates, decimator word growth will be greater
than the 16-bit sample word, therefore truncation occurs in trans-
ferring the decimator output as the ADC word. For example
at 8 kHz sampling, word growth reaches 24 bits due to the OSR
of 256 between sigma-delta modulator and decimator. This yields
eight bits per stage of the three stage Sinc
ADC Coding
The ADC coding scheme is in two’s complement format (see
Figure 8). The output words are formed by the decimation
filter, which grows the word length from the single-bit output of
the sigma-delta modulator to a 15-bit word, which is the final
output of the ADC block. In 16-bit Data Mode this value is left
shifted with the LSB being set to 0. For input values equal to or
greater than positive full scale, however, the output word is set
at 0x7FFF, which has the LSB set to 1. In mixed Control/Data
Mode, the resolution is fixed at 15 bits, with the MSB of the
16-bit transfer being used as a flag bit to indicate either control
or data in the frame.
ANALOG
ANALOG
INPUT
INPUT
V
V
V
V
REF
REF
REF
REF
+ (V
– (V
+ (V
– (V
REF
REF
REF
REF
0.32875)
0.32875)
0.6575)
0.6575)
V
REF
10...00
10...00
–32
)/(1–Z
ADC CODE DIFFERENTIAL
ADC CODE SINGLE-ENDED
V
INN
V
V
V
–1
INN
INP
INP
)]
00...00
00...00
3
3
. This ensures a mini-
filter.
AD73360L
3
filter. Due to
01...11
01...11
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