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AD7703BNZ датащи(PDF) 9 Page - Analog Devices

номер детали AD7703BNZ
подробное описание детали  LC2MOS 20-Bit A/D Converter
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производитель  AD [Analog Devices]
домашняя страница  http://www.analog.com
Logo AD - Analog Devices

AD7703BNZ датащи(HTML) 9 Page - Analog Devices

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AD7703
REV. D
–9–
Table II. Resonator Loading Capacitors
Resonators
C1
C2
Ceramic
200 kHz
330 pF
470 pF
455 kHz
100 pF
100 pF
1.0 MHz
50 pF
50 pF
2.0 MHz
20 pF
20 pF
Crystals
2.000 MHz
30 pF
30 pF
3.579 MHz
20 pF
20 pF
4.096 MHz
None
None
The input sampling frequency, output data rate, filter character-
istics and calibration time are all directly related to the master
clock frequency fCLKIN by the ratios given in the specification
table under Dynamic Performance. Therefore, the first step in
system design with the AD7703 is to select a master clock fre-
quency suitable for the bandwidth and output data rate required
by the application.
ANALOG INPUT RANGES
The AD7703 performs conversion relative to an externally sup-
plied reference voltage, which allows easy interfacing to ratio-
metric systems. In addition, either unipolar or bipolar input
voltage ranges may be selected using the BP/UP input. With
BP/UP tied low, the input range is unipolar and the span is
(VREF–VAGND), where VAGND is the voltage at the device AGND
pin. With BP/UP tied high, the input range is bipolar and the
span is 2 VREF. In the bipolar mode both positive and negative
full scale are directly determined by VREF. This offers superior
tracking of positive and negative full scale and better midscale
(bipolar zero) stability than bipolar schemes that simply scale
and offset the input range.
The digital output coding for the unipolar range is unipolar
binary and for the bipolar range it is offset binary. Bit weights
for the unipolar and bipolar modes are shown in Table I.
ACCURACY
Sigma-delta ADCs, like VFCs and other integrating ADCs, do
not contain any source of nonmonotonicity and inherently offer
no missing codes performance.
The AD7703 achieves excellent linearity by the use of high
quality, on-chip silicon dioxide capacitors, which have a very
SYSTEM
REF HI
AIN
SYSTEM
REF LO
ANALOG
MUX
A0
A1
SIGNAL
CONDITIONING
AD7703
SCLK
SDATA
CAL
SC1
SC2
MICRO
COMPUTER
AIN
Figure 12. Typical Connections for System Calibration
low capacitance/voltage coefficient. The device also achieves low
input drift through the use of chopper-stabilized techniques in
its input stage. To ensure excellent performance over time and
temperature, the AD7703 uses digital calibration techniques
which minimize offset and gain error to typically
±4 LSBs.
AUTOCALIBRATION
The AD7703 offers both self-calibration and system-calibration
facilities. For calibration to occur, the on-chip microcontroller
must record the modulator output for two different input condi-
tions. These are the “zero scale” and “full scale” points. In uni-
polar self-calibration mode, the zero scale point is VAGND and
the full-scale point is VREF. With these readings the microcon-
troller can calculate the gain slope for the input to output trans-
fer function of the converter. In unipolar mode the slope factor
is determined by dividing the span between zero and full scale
by 2
20. In bipolar mode it is determined by dividing the span by
2
19 since the inputs applied represent only half the total codes.
In both unipolar and bipolar modes the slope factor is saved and
used to calculate the binary output code when an analog input is
applied to the device. Table IV gives the output code size after
calibration.
System calibration allows the AD7703 to compensate for system
gain and offset errors. A typical circuit where this might be used
is shown in Figure 12.
System calibration performs the same slope factor calculations
as self-calibration but uses voltage values presented by the
system to the AIN pin for the zero and full-scale points. There
are two system calibration modes.
The first mode offers system level calibration for system offset
and system gain. This is a two step operation. The zero-scale
point must be presented to the converter first. It must be
applied to the converter before the calibration step is initiated
and remain stable until the step is complete. The DRDY output
from the device will signal when the step is complete by going
low. After the zero-scale point is calibrated the full-scale point is
applied and the second calibration step is initiated. Again the
voltage must remain stable throughout the calibration step.
The two step calibration mode offers another feature. After the
sequence has been completed, additional offset calibrations can
be performed by themselves to adjust the zero reference point to
a new system zero reference value. This second system
calibration mode uses an input voltage for the zero-scale
calibration point but uses the VREF value for the full-scale point.


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