AD7796 Analog Devices, AD7796 Datasheet - Page 22
AD7796
Manufacturer Part Number
AD7796
Description
Low Power 16-Bit Sigma-Delta A/D Converter for Bridge Sensors
Manufacturer
Analog Devices
Datasheet
1.AD7796.pdf
(24 pages)
Specifications of AD7796
Resolution (bits)
16bit
# Chan
1
Sample Rate
n/a
Interface
Ser,SPI
Analog Input Type
Diff-Bip,Diff-Uni
Ain Range
± (Vref/128)
Adc Architecture
Sigma-Delta
Pkg Type
SOP
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AD7796/AD7797
GROUNDING AND LAYOUT
Because the analog input and reference input of the ADC are
differential, most of the voltages in the analog modulator are
common-mode voltages. The excellent common-mode reject-
ion of the part removes common-mode noise on these inputs.
The digital filter provides rejection of broadband noise on the
power supply, except at integer multiples of the modulator
sampling frequency. The digital filter also removes noise from
the analog and reference inputs provided that these noise
sources do not saturate the analog modulator. As a result, the
AD7796/AD7797 are more immune to noise interference than
conventional high resolution converters. However, because the
resolution of the AD7796/AD7797 is so high, and the noise
levels from the AD7796/AD7797 are so low, care must be taken
with regard to grounding and layout.
The printed circuit board that houses the AD7796/AD7797
should be designed such that the analog and digital sections are
separated and confined to certain areas of the board. A minimum
etch technique is generally best for ground planes because it
gives the best shielding.
It is recommended that the GND pins of the AD7796/AD7797
be tied to the AGND plane of the system. In any layout, it is
important that the user pay attention to the flow of currents in
the system, and ensure that the return paths for all currents are
as close as possible to the paths the currents took to reach their
destinations. Avoid forcing digital currents to flow through the
AGND sections of the layout.
Rev. A | Page 22 of 24
The ground planes of the AD7796/AD7797 should be allowed
to run under the AD7796/AD7797 to prevent noise coupling.
The power supply lines to the AD7796/AD7797 should use as
wide a trace as possible to provide low impedance paths and
reduce the effects of glitches on the power supply line. Fast
switching signals such as clocks should be shielded with digital
ground to avoid radiating noise to other sections of the board,
and clock signals should never be run near the analog inputs.
Avoid crossover of digital and analog signals. Traces on
opposite sides of the board should run at right angles to each
other. This reduces the effects of feedthrough through the
board. A micro-strip technique is by far the best, but it is not
always possible with a double-sided board. In this technique,
the component side of the board is dedicated to ground planes,
while signals are placed on the solder side.
Good decoupling is important when using high resolution
ADCs. AV
parallel with 0.1 μF capacitors to GND. DV
decoupled with 10 μF tantalum in parallel with 0.1 μF
capacitors to the system’s DGND plane, with the system’s
AGND to DGND connection being close to the AD7796/
AD7797. To achieve the best results from these decoupling
components, they should be placed as close as possible to the
device, ideally right up against the device. All logic chips should
be decoupled with 0.1 μF ceramic capacitors to DGND.
DD
should be decoupled with 10 μF tantalum in
DD
should be
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