AD8303JRU Analog Devices Inc, AD8303JRU Datasheet - Page 11
AD8303JRU
Manufacturer Part Number
AD8303JRU
Description
IC DAC 12-BIT SERIAL 14-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD8303AR.pdf
(16 pages)
Specifications of AD8303JRU
Rohs Status
RoHS non-compliant
Settling Time
14µs
Number Of Bits
12
Data Interface
Serial, SPI™
Number Of Converters
2
Voltage Supply Source
Single Supply
Power Dissipation (max)
9.6mW
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
14-TSSOP
REV. 0
SHUTDOWN (SHDN)
The shutdown feature is activated when SHDN is pulled low.
While the AD8303 is in shutdown mode, the voltage reference,
DACs, and output amplifiers are all turned off. Supply current
is less than 1 A. The DAC output voltage goes to 0 V, pulled
to GND by the 12.5 k feedback resistors (Figure 22).
If power (i.e., V
shutdown, the value stored in the DAC input latches will not
change. When the SHDN pin is driven high, the DACs will
return to the same voltages as before shutdown. The CMOS
logic section of the AD8303 remains active while SHDN is low.
Thus, new data can be loaded while the DACs are shut down
and, when SHDN goes high, the DACs will assume the new
output voltage. The AD8303 recovers from shutdown very
quickly. The voltage output settling time after shutdown is
typically only a few microseconds longer than the normal
settling time (Figure 20).
UNIPOLAR OUTPUT OPERATION
This is the basic mode of operation for the AD8303. As shown
in Figure 29, the AD8303 has been designed to drive loads as
low as 2 k in parallel with 500 pF. The code table for this
operation is shown in Table II.
Hexadecimal Number Decimal Number
in DAC Register
FFF
801
800
7FF
000
SHDN
MSB
CLK
LDA
LDB
SDI
CS
RS
Figure 29. Unipolar Output Operation
10
11
12
7
6
5
8
9
DD
Table II. Unipolar Code Table
AGND DGND
+3V TO +5V
AD8303
1
) is maintained to the AD8303 during
13
V
DD
4
V
V
OUTA
OUTB
in DAC Register
4095
2049
2048
2047
0
14
2, 14
0.1µF
2k
10µF
500pF
0V
V
OUTA
Analog Output
Voltage (V)
2.0475
1.0245
1.024
1.0235
0
V
OUT
, V
OUTB
2.0475V
–11–
GENERATING “BIPOLAR” OUTPUTS WITH A SINGLE
SUPPLY
To maximize output signal swings in single supply operation,
many circuit designs employ a “false-ground” configuration.
This method defines a voltage, usually at one half of full scale or
at one half of the power supply, as the “ground” reference.
Signals are then measured differentially from the false ground,
which produces a “quasi-bipolar” output swing.
The AD8303’s voltage reference output, combined with an op
amp, can provide a temperature compensated false-ground
reference, as shown in Figure 30. The op amp amplifies the
AD8303’s 1.0 V reference by 1.024 to provide an analog
common (false ground) at one-half scale (1.024 V). With this
method, the DAC output is 1.024 V (referenced to the false
ground). The “Quasi-Bipolar” code table is given in Table III.
Hexadecimal
Number
in DAC Register DAC Register (V)
FFF
801
800
7FF
000
Since the AD8303’s reference voltage output limits are typical, a
trim potentiometer is included so that the “false-ground” output
can be adjusted to exactly 1.024 V. To maintain accuracy,
resistors R1 and R2A must be of the same type (preferably
metal film) to insure temperature coefficient matching. The
circuit includes compensation to allow for a 1 F bypass
capacitor at the false-ground output. The benefit of a large
capacitor is that not only does the false ground present a very
low dc resistance to the load, but its ac impedance is low as
well.
AD8303
AGND DGND
1
13
+3V
V
DD
V
4
OUTA
V
REF
Figure 30. A False-Ground Generator
Table III. Quasi-Bipolar Code Table
2
3
Decimal
Number In
4095
2049
2048
2047
0
R2B*
2k
R2A
97.6k
OP193
*ZERO-SCALE TRIM
0.022µF
+3V
2.4k
R1
DAC
Output Common
Voltage (False-Ground) Analog
2.0475
1.0245
1.024
1.0235
0
100
Analog
Voltage (V)
1.024
1.024
1.024
1.024
1.024
1µF
V
(REFERENCED TO
SIGNAL GROUND)
SIGNAL GROUND
(FALSE GROUND, +1.024V)
OUT
AD8303
= 1.024V
“Bipolar”
Voltage (V)
+1.2035
0.0005
0
–0.0005
–1.024
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