AD8303JRU Analog Devices Inc, AD8303JRU Datasheet - Page 8
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
AD8303
THEORY OF OPERATION
The AD8303 is a complete, ready-to-use, dual, 12-bit digital-to-
analog converter. Only one +2.7 V to +5.5 V power supply is
necessary for operation. It contains two voltage-switched, 12-bit,
laser-trimmed digital-to-analog converters, a curvature-
corrected bandgap reference, rail-to-rail output op amps, input
shift register, and two DAC registers. The serial data interface
consists of a serial data input (SDI), clock (CLK), chip select
(CS) and two DAC load strobe pins (LDA and LDB).
For battery operation and similar low power applications, a
shutdown feature (SHDN) is available to reduce power supply
current to less than 1 A. In addition an asynchronous reset pin
(RS) will set both DAC outputs to either zero volts or to
midscale, depending on the logic value applied to the MSB pin.
This function is useful for power-on reset or system failure
recovery to a known state.
D/A CONVERTER SECTION
Each of the two DACs is a 12-bit device with an output that
swings from GND potential to 0.4 V generated from the internal
bandgap voltage (Figure 22). Each DAC uses a laser-trimmed
segmented R-2R ladder that is switched by n-channel
MOSFETs. The output voltage of the DAC has a constant
resistance independent of digital input code. The DAC output is
internally connected to the rail-to-rail output op amp.
AMPLIFIER SECTION
The internal DAC’s output is buffered by a low power
consumption, precision amplifier. This low power amplifier
contains a differential PNP pair input stage that provides low
offset voltage and low noise, as well as the ability to amplify the
zero-scale DAC output voltages, The rail-to-rail amplifier is
configured with a gain of approximately five in order to set the
2.0475 volt full-scale output (0.5 mV/LSB). An equivalent
circuit schematic for the amplifier section is shown in Figure 22.
The op amp has a 4 s typical settling time to 0.1% of full scale.
There are slight differences in settling time for negative slewing
signals versus positive. Also, negative transition settling time to
within the last 6 LSBs of zero volts has an extended settling
time. See the oscilloscope photos in the typical performances
section of this data sheet.
Figure 22. AD8303 Equivalent Schematic of Analog Section
BANDGAP
REF
1.0V
10k
2k
0.4V
12-BIT DAC
2.5k
0.4V
FS
10k
V
1.0V
V
2.047V
FS
REF
OUT
–8–
OUTPUT SECTION
The rail-to-rail output stage of this amplifier has been designed
to provide precision performance while operating near either
power supply. Figure 23 shows an equivalent output schematic
of the rail-to-rail amplifier with its N-channel pull-down FETs
that will pull an output load directly to GND. The output
sourcing current is provided by a P-channel pull-up device that
can source current to GND terminated loads.
The rail-to-rail output stage permits operation at supply
voltages down to +2.7 V. The N-channel output pull-down
MOSFET shown in Figure 23 has a 35
sets the sink current capability near ground. In addition to
resistive load driving capability, the amplifier has also been
carefully designed and characterized for up to 500 pF capacitive
load driving capability.
REFERENCE SECTION
The internal curvature-corrected bandgap voltage reference is
laser trimmed for both initial accuracy and low temperature
coefficient. Figure 18 provides a histogram of total output
performance of full-scale versus temperature, which is dominated
by the reference performance.
V
The internal reference drives two resistor-divider networks. One
divider provides a 0.4 V reference for the DAC. The second
divider is trimmed to 1.0 V and is available at the V
V
generating a “false ground” or bipolar offset. See Figures 30
and Figure 31 for typical applications. Since V
output impedance, it must be buffered if it is required to deliver
current to an external load.
REF
REF
Output
output is useful for ratiometric applications, and also for
Figure 23. Equivalent Analog Output Circuit
N-CH
P-CH
ON resistance which
V
V
AGND
OUT
DD
REF
has a high
REF
pin. The
REV. 0
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