EVAL-AD5754REBZ Analog Devices Inc, EVAL-AD5754REBZ Datasheet - Page 22
EVAL-AD5754REBZ
Manufacturer Part Number
EVAL-AD5754REBZ
Description
D/A Converter Evaluation Board
Manufacturer
Analog Devices Inc
Datasheet
1.AD5724RBREZ.pdf
(32 pages)
Specifications of EVAL-AD5754REBZ
Silicon Manufacturer
Analog Devices
Application Sub Type
DAC
Kit Application Type
Data Converter
Silicon Core Number
AD5754
Number Of Dac's
4
Number Of Bits
16
Outputs And Type
4, Single Ended
Sampling Rate (per Second)
*
Data Interface
Serial
Settling Time
10µs
Dac Type
Voltage
Voltage Supply Source
Dual ±
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
AD5754
Development Tool Type
Hardware / Software - Eval/Demo Board
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
AD5724R/AD5734R/AD5754R
LOAD DAC (LDAC)
After data has been transferred into the input register of the
DACs, there are two ways to update the DAC registers and DAC
outputs. Depending on the status of both SYNC and LDAC , one
of two update modes is selected: individual DAC updating or
simultaneous updating of all DACs.
Individual DAC Updating
In this mode, LDAC is held low while data is clocked into the
input shift register. The addressed DAC output is updated on
the rising edge of SYNC .
Simultaneous Updating of All DACs
In this mode, LDAC is held high while data is clocked into the
input shift register. All DAC outputs are asynchronously updated
by taking LDAC low after SYNC has been taken high. The
update now occurs on the falling edge of LDAC .
ASYNCHRONOUS CLEAR (CLR)
CLR is an active low clear that allows the outputs to be cleared
to either zero-scale code or midscale code. The clear code value
is user selectable via the CLR select bit of the control register
(see the
low for a minimum amount of time to complete the operation
(see
remains at the cleared value until a new value is programmed.
The outputs cannot be updated with a new value while the CLR
pin is low. A clear operation can also be performed via the clear
command in the control register.
Figure 47. Simplified Diagram of Input Loading Circuitry for One DAC
Figure 2
Control Register
V
LDAC
SYNC
SCLK
REFIN
SDIN
). When the
12-/14-/16-BIT
INTERFACE
REGISTER
REGISTER
section). It is necessary to keep
CLR signal is returned high, the output
LOGIC
INPUT
DAC
DAC
AMPLIFIER
OUTPUT
SDO
V
OUT
x
CLR
Rev. C | Page 22 of 32
CONFIGURING THE AD5724R/AD5734R/AD5754R
When the power supplies are applied to the AD5724R/
AD5734R/ AD5754R, the power-on reset circuit ensures that
all registers default to 0. This places all channels and the internal
reference in power-down mode. The first communication to
the AD5724R/AD5734R/AD5754R should be to set the required
output range on all channels (the default range is the 5 V unipolar
range) by writing to the output range select register. The user
should then write to the power-control register to power-on the
required channels and the internal reference, if required. If an
external reference source is being used, the internal reference
must remain in power-down mode. To program an output value
on a channel, that channel must first be powered up; any writes
to a channel while it is in power-down mode are ignored. The
AD5724R/AD5734R/AD5754R operate with a wide power supply
range. It is important that the power supply applied to the parts
provide adequate headroom to support the chosen output ranges.
TRANSFER FUNCTION
Table 8 to Table 16 show the relationships of the ideal input code
to output voltage for the AD5754R, AD5734R, and AD5724R for
all output voltage ranges. For unipolar output ranges, the data
coding is straight binary. For bipolar output ranges, the data
coding is user selectable via the BIN/ 2sCOMP pin and can be
either offset binary or twos complement.
For a unipolar output range, the output voltage expression is
given by
For a bipolar output range, the output voltage expression is given by
where:
D is the decimal equivalent of the code loaded to the DAC.
N is the bit resolution of the DAC.
V
Gain is an internal gain the value of which depends on the
output range selected by the user as shown in Table 7.
Table 7. Internal Gain Values
Output Range (V)
+5
+10
+10.8
±5
±10
±10.8
REFIN
V
V
is the reference voltage applied at the REFIN pin.
OUT
OUT
=
=
V
V
REFIN
REFIN
×
×
Gain
Gain
⎡
⎢ ⎣
⎡
⎢ ⎣
2
2
D
D
N
N
⎤
⎥ ⎦
⎤
⎥ ⎦
−
Gain
Gain Value
2
4
4.32
4
8
8.64
×
2
V
REFIN
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