參數(shù)資料
型號(hào): EVAL-AD7327SDZ
廠商: Analog Devices Inc
文件頁數(shù): 28/37頁
文件大?。?/td> 0K
描述: BOARD EVAL FOR AD7327SDZ
標(biāo)準(zhǔn)包裝: 1
系列: *
Data Sheet
AD7327
Rev. B | Page 33 of 36
APPLICATION HINTS
LAYOUT AND GROUNDING
The printed circuit board that houses the AD7327 should be
designed so that the analog and digital sections are confined to
certain areas of the board. This design facilitates the use of
ground planes that can easily be separated.
To provide optimum shielding for ground planes, a minimum
etch technique is generally best. All AGND pins on the AD7327
should be connected to the AGND plane. Digital and analog
ground pins should be joined in only one place. If the AD7327
is in a system where multiple devices require an AGND and
DGND connection, the connection should still be made at only
one point. A star point should be established as close as possible
to the ground pins on the AD7327.
Good connections should be made to the power and ground
planes. This can be done with a single via or multiple vias for
each supply and ground pin.
Avoid running digital lines under the AD7327 device because
this couples noise onto the die. However, the analog ground
plane should be allowed to run under the AD7327 to avoid
noise coupling. The power supply lines to the AD7327 device
should use as large a trace as possible to provide low impedance
paths and reduce the effects of glitches on the power supply line.
To avoid radiating noise to other sections of the board, com-
ponents, such as clocks, with fast switching signals should be
shielded with digital ground and never run near the analog inputs.
Avoid crossover of digital and analog signals. To reduce the effects
of feedthrough within the board, traces should be run at right
angles to each other. A microstrip technique is the best method,
but its use may not be possible with a double-sided board. In
this technique, the component side of the board is dedicated to
ground planes, and signals are placed on the other side.
Good decoupling is also important. All analog supplies should
be decoupled with 10 F tantalum capacitors in parallel with
0.1 F capacitors to AGND. To achieve the best results from
these decoupling components, they must be placed as close as
possible to the device, ideally right up against the device. The
0.1 F capacitors should have a low effective series resistance
(ESR) and low effective series inductance (ESI), such as is
typical of common ceramic and surface mount types of
capacitors. These low ESR, low ESI capacitors provide a low
impedance path to ground at high frequencies to handle
transient currents due to internal logic switching.
POWER SUPPLY CONFIGURATION
It is recommended that Schottky diodes be placed in series with
the AD7327 VDD and VSS supply signals. Figure 56 shows this
Schottky diode configuration. BAT43 Schottky diodes are used.
AD73271
V+
3V/5V
VDD
VCC
SCLK
VIN0
VIN1
VIN2
VIN3
VIN4
VIN5
VIN6
VIN7
DIN
DOUT
CS
1ADDITIONAL PINS OMITTED FOR CLARITY. 05401-
056
V–
VSS
Figure 56. Schottky Diode Connection
In an application where non-symmetrical VDD and VSS supplies
are being used, adhere to the following guidelines. Table 16
outlines the VSS supply range that can be used for particular
VDD voltages when non-symmetrical supplies are required.
When operating the AD7327 with low VDD and VSS voltages, it
is recommended that these supplies be symmetrical.
Table 16. Non-Symmetrical VDD and VSS Requirements
VDD
Typical VSS Range
5 V
5 V to 5.5 V
6 V
5 V to 8.5 V
7 V
5 V to 11.5 V
8 V
5 V to 15 V
9 V
5 V to 16.5 V
10 V to 16.5 V
5 V to 16.5 V
For the 0 to 4 × VREF range, VSS can be tied to AGND as per
minimum supply recommendations outlined in Table 6.
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