AD73360LAR-REEL Analog Devices Inc, AD73360LAR-REEL Datasheet - Page 8
AD73360LAR-REEL
Manufacturer Part Number
AD73360LAR-REEL
Description
IC ANALOG FRONT END 6CH 28-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD73360LAR-REEL.pdf
(32 pages)
Specifications of AD73360LAR-REEL
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
AD73360L
FUNCTIONAL DESCRIPTION
General Description
The AD73360L is a six-input channel, 16-bit, analog front end.
It comprises six independent encoder channels each featuring
signal conditioning, programmable gain amplifier, sigma-delta
A/D converter and decimator sections. Each of these sections is
described in further detail below.
Encoder Channel
Each encoder channel consists of a signal conditioner, a switched
capacitor PGA, and a sigma-delta analog-to-digital converter
(ADC). An on-board digital filter, which forms part of the
sigma-delta ADC, also performs critical system-level filtering.
Due to the high-level of oversampling, the input antialias require-
ments are reduced such that a simple single pole RC stage is
sufficient to give adequate attenuation in the band of interest.
Signal Conditioner
Each analog channel has an independent signal conditioning
block. This allows the analog input to be configured by the user
depending on whether differential or single-ended mode is used.
Programmable Gain Amplifier
Each encoder section’s analog front end comprises a switched
capacitor PGA that also forms part of the sigma-delta modula-
tor. The SC sampling frequency is DMCLK/8. The PGA,
whose programmable gain settings are shown in Table II, may
be used to increase the signal level applied to the ADC from
low-output sources such as microphones, and can be used to
avoid placing external amplifiers in the circuit. The input signal
level to the sigma-delta modulator should not exceed the maxi-
mum input voltage permitted.
The PGA gain is set by bits IGS0, IGS1, and IGS2 in control
Registers D, E, and F.
IxGS2
0
0
0
0
1
1
1
1
ADC
Each channel has its own ADC consisting of an analog sigma-
delta modulator and a digital antialiasing decimation filter. The
sigma-delta modulator noise-shapes the signal and produces
1-bit samples at a DMCLK/8 rate. This bitstream, representing
the analog input signal, is input to the antialiasing decimation
filter. The decimation filter reduces the sample rate and increases
the resolution.
Table II. PGA Settings for the Encoder Channel
IxGS1
0
0
1
1
0
0
1
1
IxGS0
0
1
0
1
0
1
0
1
Gain (dB)
0
6
12
18
20
26
32
38
Analog Sigma-Delta Modulator
The AD73360L input channels employ a sigma-delta conver-
sion technique, which provides a high resolution 16-bit output
with system filtering being implemented on-chip.
Sigma-delta converters employ a technique known as over-
sampling, where the sampling rate is many times the highest
frequency of interest. In the case of the AD73360L, the initial
sampling rate of the sigma-delta modulator is DMCLK/8. The
main effect of oversampling is that the quantization noise is
spread over a very wide bandwidth, up to f
(Figure 6a). This means that the noise in the band of interest is
much reduced. Another complementary feature of sigma-delta
converters is the use of a technique called noise-shaping. This
technique has the effect of pushing the noise from the band of
interest to an out-of-band position (Figure 6b). The combina-
tion of these techniques, followed by the application of a digital
filter, reduces the noise in band sufficiently to ensure good
dynamic performance from the part (Figure 6c).
INTEREST
INTEREST
INTEREST
BAND
BAND
BAND
OF
OF
OF
NOISE-SHAPING
DIGITAL FILTER
a.
b.
c.
S
/2 = DMCLK/16
DMCLK/16
DMCLK/16
DMCLK/16
f
f
f
S
S
S
/2
/2
/2
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