AD7705BR Analog Devices Inc, AD7705BR Datasheet - Page 26
AD7705BR
Manufacturer Part Number
AD7705BR
Description
A/D Converter (A-D) IC
Manufacturer
Analog Devices Inc
Datasheet
1.AD7705BRUZ.pdf
(44 pages)
Specifications of AD7705BR
Mounting Type
Surface Mount
No. Of Channels
2
Peak Reflow Compatible (260 C)
No
Supply Voltage
3.3V
No. Of Bits
16 Bit
Leaded Process Compatible
No
Features
3V/5V, 1mW, 2?Channel, 16?Bit
Rohs Status
RoHS non-compliant
Number Of Bits
16
Sampling Rate (per Second)
500
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Number Of Converters
1
Power Dissipation (max)
1mW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Package / Case
16-SOIC (0.300", 7.50mm Width)
Number Of Elements
1
Resolution
16Bit
Architecture
Delta-Sigma
Sample Rate
0.5KSPS
Input Polarity
Unipolar/Bipolar
Input Type
Voltage
Differential Input
Yes
Power Supply Requirement
Single
Single Supply Voltage (typ)
3/5V
Single Supply Voltage (min)
2.7V
Single Supply Voltage (max)
5.25V
Dual Supply Voltage (typ)
Not RequiredV
Dual Supply Voltage (min)
Not RequiredV
Dual Supply Voltage (max)
Not RequiredV
Power Dissipation
1mW
Integral Nonlinearity Error
±0.003%FSR
Operating Temp Range
-40C to 85C
Operating Temperature Classification
Industrial
Mounting
Surface Mount
Pin Count
16
Package Type
SOIC W
Input Signal Type
Differential
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
For Use With
EVAL-AD7705EBZ - BOARD EVALUATION FOR AD7705
Lead Free Status / Rohs Status
Not Compliant
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AD7705/AD7706
For a full system calibration, 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. Once the zero-scale voltage is
set up, a zero-scale system calibration is initiated by writing the
appropriate values (1, 0) to the MD1 and MD0 bits of the setup
register. The zero-scale system calibration is performed at the
selected gain. The duration of the calibration is 3 × 1/output
rate. Then, Bit MD1 and Bit MD0 in the setup register return to
0, 0, providing the earliest indication that the calibration
sequence is complete. The DRDY line goes high when calibration
is initiated and returns low when there is a valid new word in the
data register. The duration time from the calibration command
being issued to DRDY going low is 4 × 1/output rate, because
the part performs a normal conversion on the AIN voltage before
DRDY goes low.
If DRDY is low before (or goes low during) writing the
calibration command to the setup register, it can take up to one
modulator cycle (MCLK IN/128) before DRDY goes high to
indicate that a calibration is in progress. Therefore, DRDY
should be ignored for one modulator cycle after the last bit is
written to the setup register in the calibration command.
After the zero-scale point is calibrated, the full-scale point is
applied to AIN, and the second step of the calibration process is
initiated by writing the appropriate values (1, 1) to MD1 and
MD0. The full-scale voltage must be set up before the calibration
is initiated and must remain stable throughout the calibration
step. The full-scale system calibration is performed at the
selected gain. The duration of the calibration is 3 × 1/output
rate. Then, the MD1 and MD0 bits in the setup register return
to 0, 0, providing the earliest indication that the calibration
sequence is complete. The DRDY line goes high when calibration
is initiated and returns low when there is a valid new word in
the data register. The duration time from the calibration
command being issued to DRDY going low is 4 × 1/output rate,
because the part performs a normal conversion on the AIN
voltage before DRDY goes low. If DRDY is low before (or goes
low during) writing the calibration command to the setup
register, it can take up to one modulator cycle (MCLK IN/128)
before DRDY goes high to indicate that calibration is in
progress. Therefore, DRDY should be ignored for one
modulator cycle after the last bit is written to the setup register
in the calibration command.
In unipolar mode, the system calibration is performed between
the two endpoints of the transfer function. In bipolar mode, it is
performed between midscale (zero differential voltage) and
positive full scale.
Rev. C | Page 26 of 44
The fact that the system calibration involves two steps offers
another feature. After the sequence of a full system calibration is
complete, additional offset or gain calibrations can be performed
individually to adjust the system zero reference point or the
system gain. Calibrating one of the parameters, either system
offset or system gain, does not affect the other parameter.
When the part is used in unbuffered mode, system calibration
can be used to remove errors from source impedances on the
analog input. A simple R-C antialiasing filter on the front end
can introduce a gain error on the analog input voltage, but the
system calibration can be used to remove this error.
Span and Offset Limits
Whenever the system calibration mode is used, there are limits
on the amount of offset and span that can be accommodated.
The overriding requirement for determining the amount of
offset and gain that can be accommodated by the part is that the
positive full-scale calibration limit is < 1.05 × V
allows the input range to go 5% above the nominal range. The
built-in headroom in the AD7705/AD7706 analog modulator
ensures that the parts operate correctly with a positive full-scale
voltage that is 5% beyond the nominal.
The range of input span in both the unipolar and bipolar modes
has a minimum value of 0.8 × V
2.1 × V
the difference between the bottom and top of the devices’ input
range, the user must take into account the limitation on the
positive full-scale voltage. The amount of offset that can be
accommodated depends on whether the unipolar or bipolar
mode is used, and the user must also take into account the
limitation on the positive full-scale voltage. In unipolar mode,
there is considerable flexibility in handling negative offsets with
respect to AIN(−) on the AD7705, and with respect to
COMMON on the AD7706. In both unipolar and bipolar
modes, the range of positive offsets that can be handled by the
part depends on the selected span. Therefore, in determining
the limits for system zero-scale and full-scale calibrations, the
user must ensure that the offset range plus the span range does
not exceed 1.05 × V
If the part is used in unipolar mode with a required span of
0.8 × V
handle is –1.05 × V
the part is used in unipolar mode with a required span of
V
handle is −1.05 × V
the part is used in unipolar mode and required to remove an
offset of 0.2 × V
system calibration can handle is 0.85 × V
REF
/gain, the offset range that the system calibration can
REF
REF
/gain. However, when determining the span, which is
/gain, the offset range that the system calibration can
REF
/gain, the maximum span range that the
REF
REF
REF
/gain to +0.25 × V
/gain to +0.05 × V
/gain.
REF
/gain and a maximum value of
REF
REF
REF
/gain. If
/gain. Similarly, if
/gain.
REF
/gain. This
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