AD7397 Analog Devices, AD7397 Datasheet - Page 10
AD7397
Manufacturer Part Number
AD7397
Description
Dual Parallel-Input 10-Bit DAC
Manufacturer
Analog Devices
Datasheet
1.AD7396.pdf
(12 pages)
Specifications of AD7397
Resolution (bits)
10bit
Dac Update Rate
17kSPS
Dac Settling Time
60µs
Max Pos Supply (v)
+5.5V
Single-supply
Yes
Dac Type
Voltage Out
Dac Input Format
Par
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AD7396/AD7397
The rail-to-rail output stage provides 1 mA of output current.
The N-channel output pull-down MOSFET shown in Figure 26
has a 35
near ground. In addition to resistive load driving capability, the
amplifier has also been carefully designed and characterized for
up to 100 pF capacitive load driving capability.
REFERENCE INPUT
The reference input terminal has a constant input resistance
independent of digital code, which results in reduced glitches on
the external reference voltage source. The high 2.5 M input
resistance minimizes power dissipation within the AD7396/
AD7397 D/A converters. The V
ranging from ground to the positive-supply voltage V
the simplest applications, which saves an external reference voltage
source, is connection of the V
supply. This connection results in a rail-to-rail voltage output
span maximizing the programmed range. The reference input
will accept AC signals as long as they are kept within the supply
voltage range, 0 < V
and integral nonlinearity error performance are plotted in the
Typical Performance Characteristics section, see Figures 10 and
13. The ratiometric reference feature makes the AD7396/AD7397
an ideal companion to ratiometric analog-to-digital converters
such as the AD7896.
POWER SUPPLY
The very low power consumption of the AD7396/AD7397 is a
direct result of a circuit design optimizing the use of a CBCMOS
process. By using the low power characteristics of CMOS for
the logic, and the low noise, tight matching of the complemen-
tary bipolar transistors, excellent analog accuracy is achieved.
One advantage of the rail-to-rail output amplifiers used in the
AD7396/AD7397 is the wide range of usable supply voltage.
The part is fully specified and tested for operation from +2.7 V
to +5.5 V.
POWER SUPPLY BYPASSING AND GROUNDING
Precision analog products such as the AD7396/AD7397 require
a well filtered power source. Since the AD7396/AD7397 oper-
ates from a single +3 V to +5 V supply, it seems convenient to
simply tap into the digital logic power supply. Unfortunately,
the logic supply is often a switch-mode design, which generates
noise in the 20 kHz to 1 MHz range. In addition, fast logic gates
can generate glitches, hundred of millivolts in amplitude, due to
wiring resistance and inductance. The power supply noise gen-
erated thereby means that special care must be taken to assure
that the inherent precision of the DAC is maintained. Good
engineering judgment should be exercised when addressing the
power supply grounding and bypassing of the 12-bit AD7396.
The AD7396 should be powered directly from the system power
supply. Whether or not a separate power supply trace is avail-
able generous supply bypassing will reduce supply line-induced
errors. Local supply bypassing consisting of a 10 F tantalum
electrolytic in parallel with a 0.1 F ceramic capacitor is recom-
mended in all applications (Figure 27).
ON resistance, which sets the sink current capability
REF IN
< V
REF
DD
REF
. The reference bandwidth
terminal to the positive V
input accepts input voltages
DD
. One of
DD
–10–
INPUT LOGIC LEVELS
All digital inputs are protected with a Zener-type ESD protec-
tion structure (Figure 28) that allows logic input voltages to
exceed the V
user is driving one or more of the digital inputs with a 5 V CMOS
logic input-voltage level while operating the AD7396/AD7397
on a +3 V power supply. If this mode of interface is used, make
sure that the V
ment of the AD7396/AD7397 operating at 3 V. See Figure 16
for a graph for digital logic input threshold versus operating V
supply voltage.
In order to minimize power dissipation from input-logic levels
that are near the V
Schmitt trigger design was used that minimizes the input-buffer
current consumption compared to traditional CMOS input
stages. Figure 15 shows a plot of incremental input voltage
versus supply current showing that negligible current consump-
tion takes place when logic levels are in their quiescent state.
The normal crossover current still occurs during logic transi-
tions. A secondary advantage of this Schmitt trigger is the pre-
vention of false triggers that would occur with slow moving logic
transitions when a standard CMOS logic interface or opto-
isolators are used. The logic inputs DB11–DB0, A/B CS, RS,
SHDN all contain Schmitt trigger circuits.
DIGITAL INTERFACE
The AD7396/AD7397 has a double-buffered, parallel-data
input. A functional block diagram of the digital section is shown
in Figure 25, while Table I contains the truth table for the logic
control inputs. The chip select (CS) and A/B pins control load-
ing of data from the data inputs on pins DB11–DB0 into the
internal Input Register. The CS active low input places data
into the decoded A/B input register. When CS returns to logic
high within the data setup-and-hold time specifications the new
value of data in the input register will be latched. See Truth
Table for complete set of conditions. New data can only be
transferred to the corresponding DAC register when its LDx pin
is strobed active low. The LDx inputs are level-sensitive (DAC
Registers are transparent latches) and can be tied active low
Figure 28. Equivalent Digital Input ESD Protection
Figure 27. Recommended Supply Bypassing
*
OPTIONAL EXTERNAL
REFERENCE BYPASS
DD
OL
DATA
LDA
LDB
supply voltage. This feature can be useful if the
A/B
CS
of the 5 V CMOS meets the V
*
LOGIC
IH
GND
V
and V
DD
IN
C
DGND
REF
IL
AD7396
AD7397
OR
logic input voltage specifications, a
+2.7V TO +5.5V
AGND
V
DD
0.1 F
+
IL
10 F
input require-
V
V
OUTA
OUTB
REV. 0
DD
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